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For a broader view see:Antidiuretic hormones

Arginine vasopressin (AVP), also known as vasopressin, argipressin or antidiuretic hormone (ADH), is a neurohypophysial hormone found in most mammals. Its two primary functions are to retain water in the body and to constrict blood vessels. Vasopressin regulates the body's retention of water by acting to increase water absorption in the collecting ducts of the kidney nephron.[1] Vasopressin is a peptide hormone that increases water permeability of the kidney's collecting duct and distal convoluted tubule by inducing translocation of aquaporin-CD water channels in the kidney nephron collecting duct plasma membrane.[2] It also increases peripheral vascular resistance, which in turn increases arterial blood pressure. It plays a key role in homeostasis, by the regulation of water, glucose, and salts in the blood. It is derived from a preprohormone precursor that is synthesized in the hypothalamus and stored in vesicles at the posterior pituitary. Most of it is stored in the posterior pituitary to be released into the bloodstream. However, some AVP may also be released directly into the brain, and accumulating evidence suggests it plays an important role in social behavior, sexual motivation and bonding, and maternal responses to stress.

Physiology[]

Function[]

One of the most important roles of AVP is to regulate the body's retention of water; it is released when the body is dehydrated and causes the kidneys to conserve water, thus concentrating the urine and reducing urine volume. At high concentrations, it also raises blood pressure by inducing moderate vasoconstriction. In addition, it has a variety of neurological effects on the brain, having been found, for example, to influence pair-bonding in voles. The high-density distributions of vasopressin receptor AVPr1a in prairie vole ventral forebrain regions have been shown to facilitate and coordinate reward circuits during partner preference formation, critical for pair bond formation.[3]

A very similar substance, lysine vasopressin (LVP) or lypressin, has the same function in pigs and is often used in human therapy.

Kidney[]

Vasopressin has two effects by which it contributes to increased urine osmolarity (increased concentration) and decreased water excretion. These are:

  1. Increasing the water permeability of distal tubule and collecting duct cells in the kidney, thus allowing water reabsorption and excretion of more concentrated urine, i.e., antidiuresis. This occurs through insertion of water channels (Aquaporin-2) into the apical membrane of distal tubule and collecting duct epithelial cells. Aquaporins allow water to move down their osmotic gradient and out of the nephron, increasing the amount of water re-absorbed from the filtrate (forming urine) back into the bloodstream.
    V2 receptors, which are G protein-coupled receptors on the basolateral plasma membrane of the epithelial cells, couple to the heterotrimeric G-protein Gs, which activates adenylyl cyclases III and VI to convert ATP into cAMP, plus 2 inorganic phosphates. The rise in cAMP then triggers the insertion of aquaporin-2 water channels by exocytosis of intracellular vesicles, recycling endosomes. Vasopressin also increases the concentration of calcium in the collecting duct cells, by episodic release from intracellular stores. Vasopressin, acting through cAMP, also increases transcription of the aquaporin-2 gene, thus increasing the total number of aquaporin-2 molecules in collecting duct cells.
    Cyclic-AMP activates protein kinase A (PKA) by binding to its regulatory subunits and allowing them to detach from the catalytic subunits. Detachment exposes the catalytic site in the enzyme, allowing it to add phosphate groups to proteins (including the aquaporin-2 protein), which alters their functions.
  2. Increasing permeability of the inner medullary portion of the collecting duct to urea by regulating the cell surface expression of urea transporters,[4] which facilitates its reabsorption into the medullary interstitium as it travels down the concentration gradient created by removing water from the connecting tubule, cortical collecting duct, and outer medullary collecting duct.

Cardiovascular system[]

Vasopressin increases peripheral vascular resistance (vasoconstriction) and thus increases arterial blood pressure. This effect appears small in healthy individuals; however it becomes an important compensatory mechanism for restoring blood pressure in hypovolemic shock such as that which occurs during hemorrhage.

Central nervous system[]

File:AVP, ISH, periventricular region of the hypothalamus, adult mouse.jpg

Avp is expressed in the periventricular region of the hypothalamus in the adult mouse.[5] Allen Brain Atlases

Vasopressin released within the brain has many actions:

  • It has been implicated in memory formation, including delayed reflexes, image, short- and long-term memory, though the mechanism remains unknown; these findings are controversial. However, the synthetic vasopressin analogue desmopressin has come to interest as a likely nootropic.
  • Vasopressin released from centrally projecting hypothalamic neurons is involved in aggression, blood pressure regulation and temperature regulation.
  • Selective AVPr1a blockade in the ventral pallidum has been shown to prevent partner preference in prairie voles, suggesting that these receptors in this ventral forebrain region are crucial for pair bonding.[3]
  • Recent evidence suggests that vasopressin may have analgesic effects. The analgesia effects of vasopressin were found to be dependent on both stress and gender.[9]

Evidence for this comes from experimental studies in several species, which indicate that the precise distribution of vasopressin and vasopressin receptors in the brain is associated with species-typical patterns of social behavior. In particular, there are consistent differences between monogamous species and promiscuous species in the distribution of AVP receptors, and sometimes in the distribution of vasopressin-containing axons, even when closely related species are compared.[10] Moreover, studies involving either injecting AVP agonists into the brain or blocking the actions of AVP support the hypothesis that vasopressin is involved in aggression toward other males. There is also evidence that differences in the AVP receptor gene between individual members of a species might be predictive of differences in social behavior. One study has suggested that genetic variation in male humans affects pair-bonding behavior. The brain of males uses vasopressin as a reward for forming lasting bonds with a mate, and men with one or two of the genetic alleles are more likely to experience marital discord. The partners of the men with two of the alleles affecting vasopressin reception state disappointing levels of satisfaction, affection, and cohesion.[11] Vasopressin receptors distributed along the reward circuit pathway, to be specific in the ventral pallidum, are activated when AVP is released during social interactions such as mating, in monogamous prairie voles. The activation of the reward circuitry reinforces this behavior, leading to conditioned partner preference, and thereby initiates the formation of a pair bond.[12]

Control[]

Vasopressin is secreted from the posterior pituitary gland in response to reductions in plasma volume, in response to increases in the plasma osmolality, and in response to cholecystokinin (CCK) secreted by the small intestine:

  • Secretion in response to reduced plasma volume is activated by pressure receptors in the veins, atria, and carotids.
  • Secretion in response to increases in plasma osmotic pressure is mediated by osmoreceptors in the hypothalamus.
  • Secretion in response to increases in plasma CCK is mediated by an unknown pathway.

The neurons that make AVP, in the hypothalamic supraoptic nuclei (SON) and paraventricular nuclei (PVN), are themselves osmoreceptors, but they also receive synaptic input from other osmoreceptors located in regions adjacent to the anterior wall of the third ventricle. These regions include the organum vasculosum of the lamina terminalis and the subfornical organ.

Many factors influence the secretion of vasopressin:

  • Ethanol (alcohol) reduces the calcium-dependent secretion of AVP by blocking voltage-gated calcium channels in neurohypophyseal nerve terminals.[13]
  • Angiotensin II stimulates AVP secretion, in keeping with its general pressor and pro-volumic effects on the body.[14]
  • Atrial natriuretic peptide inhibits AVP secretion, in part by inhibiting Angiotensin II-induced stimulation of AVP secretion.[14]

Secretion[]

The main stimulus for secretion of vasopressin is increased osmolality of plasma. Reduced volume of extracellular fluid also has this effect, but is a less sensitive mechanism.

The AVP that is measured in peripheral blood is almost all derived from secretion from the posterior pituitary gland (except in cases of AVP-secreting tumours). Vasopressin is produced by magnocellular neurosecretory neurons in the Paraventricular nucleus of hypothalamus (PVN) and Supraoptic nucleus (SON). It then travels down the axon through the infundibulum within neurosecretory granules that are found within Herring bodies, localized swellings of the axons and nerve terminals. These carry the peptide directly to the posterior pituitary gland, where it is stored until released into the blood. However there are two other sources of AVP with important local effects:

  • AVP is also synthesized by parvocellular neurosecretory neurons at the PVN, transported and released at the median eminence, which then travels through the hypophyseal portal system to the anterior pituitary where it stimulates corticotropic cells synergistically with CRH to produce ACTH (by itself it is a weak secretagogue).[15]
  • Vasopressin is also released into the brain by several different populations of smaller neurons.

Receptors[]

Below is a table summarizing some of the actions of AVP at its four receptors, differently expressed in different tissues and exerting different actions:

Type Second messenger system Locations Actions
AVPR1A Phosphatidylinositol/calcium Liver, kidney, peripheral vasculature, brain Vasoconstriction, gluconeogenesis, platelet aggregation, and release of factor VIII and von Willebrand factor; social recognition,[16] circadian tau[17]
AVPR1B or AVPR3 Phosphatidylinositol/calcium Pituitary gland, brain Adrenocorticotropic hormone secretion in response to stress;[18] social interpretation of olfactory cues[19]
AVPR2 Adenylate cyclase/cAMP Basolateral membrane of the cells lining the collecting ducts of the kidneys (especially the cortical and outer medullary collecting ducts) Insertion of aquaporin-2 (AQP2) channels (water channels). This allows water to be reabsorbed down an osmotic gradient, and so the urine is more concentrated. Release of von Willebrand factor and surface expression of P-selectin through exocytosis of Weibel-Palade bodies from endothelial cells[20][21]
VACM-1 Phosphatidylinositol/calcium Vascular endothelium and renal collecting tubules Increases cytosolic calcium and acts as an inverse agonist of cAMP accumulation[22]

Structure and relation to oxytocin[]

File:Vasopressin labeled.png

Chemical structure of the argipressin (indicating that this compound is of the vasopressin family with an arginine at the 8th amino acid position.

File:Oxytocin with labels.png

Chemical structure of oxytocin

The vasopressins are peptides consisting of nine amino acids (nonapeptides). (NB: the value in the table above of 164 amino acids is that obtained before the hormone is activated by cleavage). The amino acid sequence of arginine vasopressin is Cys-Tyr-Phe-Gln-Asn-Cys-Pro-Arg-Gly, with the cysteine residues forming a disulfide bond. Lysine vasopressin has a lysine in place of the arginine.

The structure of oxytocin is very similar to that of the vasopressins: It is also a nonapeptide with a disulfide bridge and its amino acid sequence differs at only two positions (see table below). The two genes are located on the same chromosome separated by a relatively small distance of less than 15,000 bases in most species. The magnocellular neurons that make vasopressin are adjacent to magnocellular neurons that make oxytocin, and are similar in many respects. The similarity of the two peptides can cause some cross-reactions: oxytocin has a slight antidiuretic function, and high levels of AVP can cause uterine contractions.[23][24]

Below is a table showing the superfamily of vasopressin and oxytocin neuropeptides:

Vertebrate Vasopressin Family
Cys-Tyr-Phe-Gln-Asn-Cys-Pro-Arg-Gly-NH2 Argipressin (AVP, ADH) Most mammals
Cys-Tyr-Phe-Gln-Asn-Cys-Pro-Lys-Gly-NH2 Lypressin (LVP) Pigs, hippos, warthogs, some marsupials
Cys-Phe-Phe-Gln-Asn-Cys-Pro-Arg-Gly-NH2 Phenypressin Some marsupials
Cys-Tyr-Ile-Gln-Asn-Cys-Pro-Arg-Gly-NH2 Vasotocin Non-mammals
Vertebrate Oxytocin Family
Cys-Tyr-Ile-Gln-Asn-Cys-Pro-Leu-Gly-NH2 Oxytocin (OXT) Most mammals, ratfish
Cys-Tyr-Ile-Gln-Asn-Cys-Pro-Pro-Gly-NH2 Prol-Oxytocin Some New World monkeys, northern tree shrews
Cys-Tyr-Ile-Gln-Asn-Cys-Pro-Ile-Gly-NH2 Mesotocin Most marsupials, all birds, reptiles, amphibians, lungfishes, coelacanths
Cys-Tyr-Ile-Gln-Ser-Cys-Pro-Ile-Gly-NH2 Seritocin Frogs
Cys-Tyr-Ile-Ser-Asn-Cys-Pro-Ile-Gly-NH2 Isotocin Bony fishes
Cys-Tyr-Ile-Ser-Asn-Cys-Pro-Gln-Gly-NH2 Glumitocin Skates
Cys-Tyr-Ile-Asn/Gln-Asn-Cys-Pro-Leu/Val-Gly-NH2 Various tocins Sharks
Invertebrate VP/OT Superfamily
Cys-Leu-Ile-Thr-Asn-Cys-Pro-Arg-Gly-NH2 Diuretic Hormone Locust
Cys-Phe-Val-Arg-Asn-Cys-Pro-Thr-Gly-NH2 Annetocin Earthworm
Cys-Phe-Ile-Arg-Asn-Cys-Pro-Lys-Gly-NH2 Lys-Connopressin Geography & imperial cone snail, pond snail, sea hare, leech
Cys-Ile-Ile-Arg-Asn-Cys-Pro-Arg-Gly-NH2 Arg-Connopressin Striped cone snail
Cys-Tyr-Phe-Arg-Asn-Cys-Pro-Ile-Gly-NH2 Cephalotocin Octopus
Cys-Phe-Trp-Thr-Ser-Cys-Pro-Ile-Gly-NH2 Octopressin Octopus
†Vasotocin is the evolutionary progenitor of all the vertebrate neurohypophysial hormones.[25]

Role in disease[]

Lack of AVP[]

Decreased AVP release or decreased renal sensitivity to AVP leads to diabetes insipidus, a condition featuring hypernatremia (increased blood sodium concentration), polyuria (excess urine production), and polydipsia (thirst).

Excess AVP[]

High levels of AVP secretion may lead to hyponatremia. In many cases, the AVP secretion is appropriate (due to severe hypovolemia), and the state is labelled "hypovolemic hyponatremia". In certain disease states (heart failure, nephrotic syndrome) the body fluid volume is increased but AVP production is not suppressed for various reasons; this state is labelled "hypervolemic hyponatremia". A proportion of cases of hyponatremia feature neither hyper- nor hypovolemia. In this group (labelled "euvolemic hyponatremia"), AVP secretion is either driven by a lack of cortisol or thyroxine (hypoadrenalism and hypothyroidism, respectively) or a very low level of urinary solute excretion (potomania, low-protein diet), or it is entirely inappropriate. This last category is classified as the syndrome of inappropriate antidiuretic hormone (SIADH).[26]

SIADH in turn can be caused by a number of problems. Some forms of cancer can cause SIADH, particularly small cell lung carcinoma but also a number of other tumors. A variety of diseases affecting the brain or the lung (infections, bleeding) can be the driver behind SIADH. A number of drugs has been associated with SIADH, such as certain antidepressants (serotonin reuptake inhibitors and tricyclic antidepressants), the anticonvulsant carbamazepine, oxytocin (used to induce and stimulate labor), and the chemotherapy drug vincristine. Finally, it can occur without a clear explanation.[26]

Hyponatremia can be treated pharmaceutically through the use of vasopressin receptor antagonists.[26]

Pharmacology[]

Vasopressin analogues[]

Vasopressin agonists are used therapeutically in various conditions, and its long-acting synthetic analogue desmopressin is used in conditions featuring low vasopressin secretion, as well as for control of bleeding (in some forms of von Willebrand disease and in mild haemophilia A) and in extreme cases of bedwetting by children. Terlipressin and related analogues are used as vasoconstrictors in certain conditions. Use of vasopressin analogues for esophageal varices commenced in 1970.[27]

Vasopressin infusion has also been used as a second line of management in septic shock patients not responding to high dose of inotropes (e.g., dopamine or norepinephrine).

The role of vasopressin analogues in cardiac arrest[]

Injection of vasopressors for the treatment of cardiac arrest was first suggested in the literature in 1896 when Austrian scientist Dr. R. Gottlieb described the vasopressor epinephrine as an "infusion of a solution of suprarenal extract [that] would restore circulation when the blood pressure had been lowered to unrecordable levels by chloral hydrate."[28] Modern interest in vasopressors as a treatment for cardiac arrest stem mostly from canine studies performed in the 1960s by anesthesiologists Dr. John W. Pearson and Dr. Joseph Stafford Redding in which they demonstrated improved outcomes with the use of adjunct intracardiac epinephrine injection during resuscitation attempts after induced cardiac arrest.[28] Also contributing to the idea that vasopressors may be useful treatments in cardiac arrest are studies performed in the early to mid 1990's that found significantly higher levels of endogenous serum vasopressin in adults after successful resuscitation from out-of-hospital cardiac arrest compared to those who did not live.[29][30] Results of animal models have supported the use of either vasopressin or epinephrine in cardiac arrest resuscitation attempts, showing improved coronary perfusion pressure[31] and overall improvement in short-term survival as well as neurological outcomes.[32]

Vasopressin vs. epinephrine[]

Table 1. Meta-analysis of outcomes for patients treated with vasopressin versus epinephrine[31]
RR (95% CI)
Failure of ROSC 0.81 (0.58-1.12)
Death before hospital admission 0.72 (0.38-1.39)
Death within 24 hours 0.74 (0.38-1.43)
Death before hospital discharge 0.96 (0.87-1.05)
Number of deaths and neurologically impaired survivors 1.00 (0.94-1.07)

Although both vasopressors, vasopressin and epinephrine differ in that vasopressin does not have direct effects on cardiac contractility as epinephrine does.[32] Thus, vasopressin is theorized to be of increased benefit over epinephrine in cardiac arrest due to its properties of not increasing myocardial and cerebral oxygen demands.[32] This idea has led to the advent of several studies searching for the presence of a clinical difference in benefit of these two treatment choices. Initial small studies demonstrated improved outcomes with vasopressin in comparison to epinephrine.[33] However, subsequent studies have not all been in agreement. Several randomized controlled trials have been unable to reproduce positive results with vasopressin treatment in both return of spontaneous circulation (ROSC) and survival to hospital discharge,[33][34][35][36] including a systematic review and meta-analysis completed in 2005 that found no evidence of a significant difference with vasopressin in five studied outcomes (see Table 1).[31]

Vasopressin and epinephrine vs. epinephrine alone[]

Table 2. Significant outcomes for combined vasopressin and epinephrine treatment
RR (95% CI) p value
ROSC[36] 1.42 (1.14-1.77)
Survival to hospital admission[37] 1.42 (1.02-2.04) 0.05
In subgroup: PEA[37] 1.30 (0.90-2.06) 0.02
In subgroup: Collapse to ED arrival time of 15–30 minutes[37] 1.22 (1.01-1.49) 0.05
In subgroup: Collapse to ED arrival time of 30–45 minutes[37] 1.11 (1.00-1.24) 0.05
Survival to hospital discharge[36] 3.69 (1.52-8.95)

There is no current evidence of significant survival benefit with improved neurological outcomes in patients given combinations of both epinephrine and vasopressin during cardiac arrest.[31][34][38][39] A systematic review from 2008 did, however, find one study that showed a statistically significant improvement in ROSC and survival to hospital discharge with this combination treatment; unfortunately, those patients that survived to hospital discharge had overall poor outcomes and many suffered permanent, severe neurological damage.[36][39] A more recently published clinical trial out of Singapore has shown similar results, finding combination treatment to only improve the rate of survival to hospital admission, especially in the subgroup analysis of patients with longer "collapse to emergency department" arrival times of 15 to 45 minutes.[37] Table 2 lists all statistically significant findings of a correlation between combined treatment and positive outcomes found in these two studies.

2010 American Heart Association Guidelines[]

The 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care recommend the consideration of vasopressor treatment in the form of epinephrine in adults with cardiac arrest (Class IIb, LOE A recommendation).[40] Due to the absence of evidence that vasopressin administered instead of or in addition to epinephrine has significant positive outcomes, the guidelines do not currently contain vasopressin as a part of the cardiac arrest algorithms.[40] It does, however, allow for one dose of vasopressin to replace either the first or second dose of epinephrine in the treatment of cardiac arrest (Class IIb, LOE A recommendation).[40]

Vasopressin receptor inhibition[]

Main article: vasopressin receptor antagonist

A vasopressin receptor antagonist is an agent that interferes with action at the vasopressin receptors. They can be used in the treatment of hyponatremia.[41]


See also[]

References[]

  1. Caldwell HK, Young WS III (2006). "Oxytocin and Vasopressin: Genetics and Behavioral Implications" Lajtha A, Lim R Handbook of Neurochemistry and Molecular Neurobiology: Neuroactive Proteins and Peptides, 3rd, 573–607, Berlin: Springer.
  2. Nielsen S, Chou CL, Marples D, Christensen EI, Kishore BK, Knepper MA (February 1995). Vasopressin increases water permeability of kidney collecting duct by inducing translocation of aquaporin-CD water channels to plasma membrane. Proc. Natl. Acad. Sci. U.S.A. 92 (4): 1013–7.
  3. 3.0 3.1 Lim MM, Young LJ (2004). Vasopressin-dependent neural circuits underlying pair bond formation in the monogamous prairie vole. Neuroscience 125 (1): 35–45.
  4. Sands JM, Blount MA, Klein JD (2011). Regulation of renal urea transport by vasopressin. Trans. Am. Clin. Climatol. Assoc. 122: 82–92.
  5. Liu Z, Yan SF, Walker JR, Zwingman TA, Jiang T, Li J, Zhou Y (2007). Study of gene function based on spatial co-expression in a high-resolution mouse brain atlas. BMC Syst Biol 1: 19.
  6. Goland RS, Wardlaw SL, MacCarter G, Warren WB, Stark RI (August 1991). Adrenocorticotropin and cortisol responses to vasopressin during pregnancy. J. Clin. Endocrinol. Metab. 73 (2): 257–61.
  7. Ma S, Shipston MJ, Morilak D, Russell JA (March 2005). Reduced hypothalamic vasopressin secretion underlies attenuated adrenocorticotropin stress responses in pregnant rats. Endocrinology 146 (3): 1626–37.
  8. Toufexis DJ, Tesolin S, Huang N, Walker C (October 1999). Altered pituitary sensitivity to corticotropin-releasing factor and arginine vasopressin participates in the stress hyporesponsiveness of lactation in the rat. J. Neuroendocrinol. 11 (10): 757–64.
  9. Wiltshire T, Maixner W, Diatchenko L (December 2011). Relax, you won't feel the pain. Nat. Neurosci. 14 (12): 1496–7.
  10. Young LJ (October 2009). The neuroendocrinology of the social brain. Front Neuroendocrinol 30 (4): 425–8.
  11. Walum H, Westberg L, Henningsson S, Neiderhiser JM, Reiss D, Igl W, Ganiban JM, Spotts EL, Pedersen NL, Eriksson E, Lichtenstein P (September 2008). Genetic variation in the vasopressin receptor 1a gene (AVPR1A) associates with pair-bonding behavior in humans. Proc. Natl. Acad. Sci. U.S.A. 105 (37): 14153–6.
  12. Pitkow LJ, Sharer CA, Ren X, Insel TR, Terwilliger EF, Young LJ (September 2001). Facilitation of affiliation and pair-bond formation by vasopressin receptor gene transfer into the ventral forebrain of a monogamous vole. J. Neurosci. 21 (18): 7392–6.
  13. Wang X, Dayanithi G, Lemos JR, Nordmann JJ, Treistman SN (1991). Calcium currents and peptide release from neurohypophysial terminals are inhibited by ethanol. The Journal of Pharmacology and Experimental Therapeutics 259 (2): 705–11.
  14. 14.0 14.1 Matsukawa T, Miyamoto T (March 2011). Angiotensin II-stimulated secretion of arginine vasopressin is inhibited by atrial natriuretic peptide in humans. Am. J. Physiol. Regul. Integr. Comp. Physiol. 300 (3): R624–9.
  15. Salata RA, Jarrett DB, Verbalis JG, Robinson AG (March 1988). Vasopressin stimulation of adrenocorticotropin hormone (ACTH) in humans. In vivo bioassay of corticotropin-releasing factor (CRF) which provides evidence for CRF mediation of the diurnal rhythm of ACTH. J. Clin. Invest. 81 (3): 766–74.
  16. Bielsky IF, Hu SB, Szegda KL, Westphal H, Young LJ (March 2004). Profound impairment in social recognition and reduction in anxiety-like behavior in vasopressin V1a receptor knockout mice. Neuropsychopharmacology 29 (3): 483–93.
  17. Wersinger SR, Caldwell HK, Martinez L, Gold P, Hu SB, Young WS (August 2007). Vasopressin 1a receptor knockout mice have a subtle olfactory deficit but normal aggression. Genes Brain Behav. 6 (6): 540–51.
  18. Lolait SJ, Stewart LQ, Jessop DS, Young WS, O'Carroll AM (February 2007). The hypothalamic-pituitary-adrenal axis response to stress in mice lacking functional vasopressin V1b receptors. Endocrinology 148 (2): 849–56.
  19. Wersinger SR, Kelliher KR, Zufall F, Lolait SJ, O'Carroll AM, Young WS (December 2004). Social motivation is reduced in vasopressin 1b receptor null mice despite normal performance in an olfactory discrimination task. Horm Behav 46 (5): 638–45.
  20. Kanwar S, Woodman RC, Poon MC, Murohara T, Lefer AM, Davenpeck KL, Kubes P (1 October 1995). Desmopressin induces endothelial P-selectin expression and leukocyte rolling in postcapillary venules. Blood 86 (7): 2760–6.
  21. Kaufmann JE, Oksche A, Wollheim CB, Günther G, Rosenthal W, Vischer UM (July 2000). Vasopressin-induced von Willebrand factor secretion from endothelial cells involves V2 receptors and cAMP. J. Clin. Invest. 106 (1): 107–16.
  22. Buchwalter A, Van Dort C, Schultz S, Smith R, Le IP, Abbott JL, Oosterhouse E, Johnson AE, Hansen-Smith F, Burnatowska-Hledin M (March 2008). Expression of VACM-1/cul5 mutant in endothelial cells induces MAPK phosphorylation and maspin degradation and converts cells to the angiogenic phenotype. Microvasc. Res. 75 (2): 155–68.
  23. Li C, Wang W, Summer SN, Westfall TD, Brooks DP, Falk S, Schrier RW (February 2008). Molecular mechanisms of antidiuretic effect of oxytocin. J. Am. Soc. Nephrol. 19 (2): 225–32.
  24. Joo KW, Jeon US, Kim GH, Park J, Oh YK, Kim YS, Ahn C, Kim S, Kim SY, Lee JS, Han JS (October 2004). Antidiuretic action of oxytocin is associated with increased urinary excretion of aquaporin-2. Nephrol. Dial. Transplant. 19 (10): 2480–6.
  25. Acher R, Chauvet J (July 1995). The neurohypophysial endocrine regulatory cascade: precursors, mediators, receptors, and effectors. Front Neuroendocrinol 16 (3): 237–89.
  26. 26.0 26.1 26.2 Verbalis JG, Goldsmith SR, Greenberg A, Schrier RW, Sterns RH (November 2007). Hyponatremia treatment guidelines 2007: expert panel recommendations. Am. J. Med. 120 (11 Suppl 1): S1–21.
  27. Baum S, Nusbaum M, Tumen HJ (1970). The control of gastrointestinal hemorrhage by selective mesenteric infusion of pitressin. Gastroenterology 58: 926.
  28. 28.0 28.1 Pearson JW, Redding JS (Sep-Oct 1963). The role of epinephrine in cardiac resuscitation. Anesth. Analg. 42 (5): 599–606.
  29. Lindner KH, Strohmenger HU, Ensinger H, Hetzel WD, Ahnefeld FW, Georgieff M (October 1992). Stress hormone response during and after cardiopulmonary resuscitation. Anesthesiology 77 (4): 662–8.
  30. Lindner KH, Haak T, Keller A, Bothner U, Lurie KG (February 1996). Release of endogenous vasopressors during and after cardiopulmonary resuscitation. Heart 75 (2): 145–50.
  31. 31.0 31.1 31.2 31.3 Aung K, Htay T (January 2005). Vasopressin for cardiac arrest: a systematic review and meta-analysis. Arch. Intern. Med. 165 (1): 17–24.
  32. 32.0 32.1 32.2 Williamson K, Breed M, Alibertis K, Brady WJ (February 2012). The impact of the code drugs: cardioactive medications in cardiac arrest resuscitation. Emerg. Med. Clin. North Am. 30 (1): 65–75.
  33. 33.0 33.1 Lee SW (August 2011). Drugs in resuscitation: an update. Singapore Med J 52 (8): 596–602.
  34. 34.0 34.1 Callaway CW, Hostler D, Doshi AA, Pinchalk M, Roth RN, Lubin J, Newman DH, Kelly LJ (November 2006). Usefulness of vasopressin administered with epinephrine during out-of-hospital cardiac arrest. Am. J. Cardiol. 98 (10): 1316–21.
  35. Stiell IG, Hébert PC, Wells GA, Vandemheen KL, Tang AS, Higginson LA, Dreyer JF, Clement C, Battram E, Watpool I, Mason S, Klassen T, Weitzman BN (July 2001). Vasopressin versus epinephrine for inhospital cardiac arrest: a randomised controlled trial. Lancet 358 (9276): 105–9.
  36. 36.0 36.1 36.2 36.3 Wenzel V, Krismer AC, Arntz HR, Sitter H, Stadlbauer KH, Lindner KH (January 2004). A comparison of vasopressin and epinephrine for out-of-hospital cardiopulmonary resuscitation. N. Engl. J. Med. 350 (2): 105–13.
  37. 37.0 37.1 37.2 37.3 37.4 Ong ME, Tiah L, Leong BS, Tan EC, Ong VY, Tan EA, Poh BY, Pek PP, Chen Y (February 2012). A randomised, double-blind, multi-centre trial comparing vasopressin and adrenaline in patients with cardiac arrest presenting to or in the Emergency Department. Resuscitation 83 (8): 953–60.
  38. Gueugniaud PY, David JS, Chanzy E, Hubert H, Dubien PY, Mauriaucourt P, Bragança C, Billères X, Clotteau-Lambert MP, Fuster P, Thiercelin D, Debaty G, Ricard-Hibon A, Roux P, Espesson C, Querellou E, Ducros L, Ecollan P, Halbout L, Savary D, Guillaumée F, Maupoint R, Capelle P, Bracq C, Dreyfus P, Nouguier P, Gache A, Meurisse C, Boulanger B, Lae C, Metzger J, Raphael V, Beruben A, Wenzel V, Guinhouya C, Vilhelm C, Marret E (July 2008). Vasopressin and epinephrine vs. epinephrine alone in cardiopulmonary resuscitation. N. Engl. J. Med. 359 (1): 21–30.
  39. 39.0 39.1 Sillberg VA, Perry JJ, Stiell IG, Wells GA (December 2008). Is the combination of vasopressin and epinephrine superior to repeated doses of epinephrine alone in the treatment of cardiac arrest-a systematic review. Resuscitation 79 (3): 380–6.
  40. 40.0 40.1 40.2 Neumar RW, Otto CW, Link MS, Kronick SL, Shuster M, Callaway CW, Kudenchuk PJ, Ornato JP, McNally B, Silvers SM, Passman RS, White RD, Hess EP, Tang W, Davis D, Sinz E, Morrison LJ (November 2010). Part 8: adult advanced cardiovascular life support: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. Circulation 122 (18 Suppl 3): S729–67.
  41. Palm C, Pistrosch F, Herbrig K, Gross P (July 2006). Vasopressin antagonists as aquaretic agents for the treatment of hyponatremia. Am. J. Med. 119 (7 Suppl 1): S87–92.

Further Reading[]

  • Brenner & Rector's The Kidney, 7th ed., Saunders, 2004. Full Text with MDConsult subscription
  • Caldwell, H.K. and Young, W.S., III. Oxytocin and Vasopressin: Genetics and Behavioral Implications in Lim, R. (ed.) Handbook of Neurochemistry and Molecular Neurobiology, 3rd edition, Springer, New York, pp. 573-607, 2006. 320kb PDF
  • Aarde, S. M., & Jentsch, J. D. (2006). Haploinsufficiency of the arginine-vasopressin gene is associated with poor spatial working memory performance in rats: Hormones and Behavior Vol 49(4) Apr 2006, 501-508.
  • Abelson, J. L., Le Melledo, J.-M., & Bichet, D. G. (2001). Dose response of arginine vasopressin to the CCK-B agonist pentagastrin: Neuropsychopharmacology Vol 24(2) Feb 2001, 161-169.
  • Aguilera, G., Kiss, A., Liu, Y., & Kamitakahara, A. (2007). Negative regulation of corticotropin releasing factor expression and limitation of stress response: Stress: The International Journal on the Biology of Stress Vol 10(2) Jun 2007, 153-161.
  • Akimov, G. A., Golovkin, V. I., Bakharev, V. D., & Yunusova, L. G. (1988). Pathogenesis of treatment of migraines (neuroendocrinological aspect): Soviet Neurology & Psychiatry Vol 21(3) Fal 1988, 65-71.
  • Akner, G., Ljunggren, J. G., Kjellman, B. F., Unden, F., & et al. (1988). Adrenocorticotropin and cortisol response to lysine vasopressin in relation to the outcome of the dexamethasone suppression test in major depressive disorder: Acta Psychiatrica Scandinavica Vol 77(4) Apr 1988, 404-410.
  • Albeck, D. S. (1992). Peptidergic transmission in the mammalian brain: Dissertation Abstracts International.
  • Albeck, D. S., McKittrick, C. R., Blanchard, D. C., Blanchard, R. J., & et al. (1997). Chronic social stress alters levels of corticotropin-releasing factor and arginine vasopressin mRNA in rat brain: Journal of Neuroscience Vol 17(12) Jun 1997, 4895-4903.
  • Albers, H. E., & Cooper, T. T. (1995). Effects of testosterone on the behavioral response to arginine vasopressin microinjected into the central gray and septum: Peptides Vol 16(2) 1995, 269-273.
  • Albers, H. E., Dean, A., Karom, M. C., Smith, D., & Huhman, K. L. (2006). Role of V1a vasopressin receptors in the control of aggression in Syrian hamsters: Brain Research Vol 1073-1074 Feb 2006, 425-430.
  • Albers, H. E., & Ferris, C. F. (1986). Role of the flank gland in vasopressin induced scent marking behavior in the hamster: Brain Research Bulletin Vol 17(3) Sep 1986, 387-389.
  • Albers, H. E., Hennessey, A. C., & Whitman, D. C. (1992). Vasopressin and the regulation of hamster social behavior. New York, NY: New York Academy of Sciences.
  • Albers, H. E., Karom, M., & Whitman, D. C. (1996). Ovarian hormones alter the behavioral response of the medial preoptic anterior hypothalamus to arginine-vasopressin: Peptides Vol 17(8) 1996, 1359-1364.
  • Albers, H. E., Liou, S. Y., & Ferris, C. F. (1988). Testosterone alters the behavioral response of the medial preoptic-anterior hypothalamus to microinjection of arginine vasopressin in the hamster: Brain Research Vol 456(2) Jul 1988, 382-386.
  • Albers, H. E., & Rawls, S. (1989). Coordination of hamster lordosis and flank marking behavior: Role of arginine vasopressin within the medial preoptic-anterior hypothalamus: Brain Research Bulletin Vol 23(1-2) Jul-Aug 1989, 105-109.
  • Albert, S. G., Nakra, B. R., Grossberg, G. T., & Caminal, E. R. (1989). Vasopressin response to dehydration in Alzheimer's disease: Journal of the American Geriatrics Society Vol 37(9) Sep 1989, 843-847.
  • Albert, S. G., Nakra, B. R. S., Grossberg, G. T., & Caminal, E. R. (1994). Drinking behavior and vasopressin responses to hyperosmolality in Alzheimer's disease: International Psychogeriatrics Vol 6(1) Spr 1994, 79-86.
  • Alescio-Lautier, B., Devigne, C., & Soumireu-Mourat, B. (1987). Hippocampal lesions block behavioral effects of central but not of peripheral pre-test injection of arginine vasopressin in an appetitive learning task: Behavioural Brain Research Vol 26(2-3) Nov-Dec 1987, 159-169.
  • Alescio-Lautier, B., Metzger, D., Devigne, C., & Soumireu-Mourat, B. (1989). Microinjection of anti-vasopressin serum into hippocampus in mice: Effects on appetitively reinforced task after intraventricular administration of Arg-vasopressin: Brain Research Vol 500(1-2) Oct 1989, 287-294.
  • Alescio-Lautier, B., & Soumireu-Mourat, B. (1990). Effects of peripherally administered arginine-vasopressin on learning, retention and forgetting in mice: Behavioural Brain Research Vol 41(2) Dec 1990, 117-128.
  • Alexander, S. L., & Irvine, C. H. G. (2002). The Effect of Endotoxin Administration on the Secretory Dynamics of Oxytocin in Follicular Phase Mares: Relationship to Stress Axis Hormones: Journal of Neuroendocrinology Vol 14(7) Jul 2002, 540-548.
  • Alexinsky, T., & Alliot, J. (1987). Vasopressin injections impair working memory in a delayed matching to sample task in rats: Behavioral & Neural Biology Vol 48(2) Sep 1987, 167-182.
  • Alliot, J. (1990). Effects of vasopressin on spontaneous black-white choices in a T-maze: Pharmacology, Biochemistry and Behavior Vol 35(4) Apr 1990, 981-987.
  • Alliot, J., & Alexinsky, T. (1983). Repeated post trial administration of vasopressin impairs subsequent differential reinforcement of low rates (DRL) performance: Behavioural Processes Vol 8(4) Oct 1983, 345-362.
  • Alliot, J., & Alexinsky, T. (1991). Food-restriction interacts with vasopressin modulation of activity: Physiology & Behavior Vol 50(1) Jul 1991, 213-220.
  • Alliot-Ferrand, J., & Alexinsky, T. (1982). Effects of posttrial vasopressin injections on appetitively motivated learning in rats: Physiology & Behavior Vol 28(3) Mar 1982, 525-530.
  • Allon, M. (1991). "Cigarette use and hyponatremia in schizophrenic patients": Reply: American Journal of Psychiatry Vol 148(5) May 1991, 689.
  • Al-Shamma, H. A., & de Vries, G. J. (1991). Fiber outgrowth from fetal vasopressin neurons of the suprachiasmatic nucleus, bed nucleus of the stria terminalis, and medial amygdaloid nucleus transplanted into adult Brattleboro rats: Developmental Brain Research Vol 64(1-2) Dec 1991, 200-204.
  • Altemus, M., Cizza, G., & Gold, P. W. (1992). Chronic fluoxetine treatment reduces hypothalamic vasopressin secretion in vitro: Brain Research Vol 593(2) Oct 1992, 311-313.
  • Altemus, M., Pigott, T., Kalogeras, K. T., Demitrack, M., & et al. (1992). Abnormalities in the regulation of vasopressin and corticotropin releasing factor secretion in obsessive-compulsive disorder: Archives of General Psychiatry Vol 49(1) Jan 1992, 9-20.
  • Amico, J. A., Vollmer, R. R., Karam, J. R., Lee, P. R., Li, X., Koenig, J. I., et al. (2004). Centrally administered oxytocin elicits exaggerated grooming in oxytocin null mice: Pharmacology, Biochemistry and Behavior Vol 78(2) Jun 2004, 333-339.
  • Anderson, L. T., David, R., Bonnet, K., & Dancis, J. (1979). Passive avoidance learning in Lesch-Nyhan disease: Effect of 1-desamino-8-arginine-vasopressin: Life Sciences Vol 24(10) Mar 1979, 905-910.
  • Andrianov, V. V. (1983). The role of neuropeptides and blockers of protein synthesis in neuronal mechanisms of food-getting behavior: Neuroscience and Behavioral Physiology Vol 13(6) Nov-Dec 1983, 442-447.
  • Aoki, M., Asai, M., Nishihori, T., Mizuta, K., Ito, Y., & Ando, K. (2007). The relevance of an elevation in the plasma vasopressin levels to the pathogenesis of Meniere's attack: Journal of Neuroendocrinology Vol 19(11) Nov 2007, 901-906.
  • Appenrodt, E., Juszczak, M., & Schwarzberg, H. (2002). Septal vasopressin induced preservation of social recognition in rats was abolished by pinealectomy: Behavioural Brain Research Vol 134(1-2) Aug 2002, 67-73.
  • Appenrodt, E., Schnabel, R., & Schwarzberg, H. (1998). Vasopressin administration modulates anxiety-related behavior in rats: Physiology & Behavior Vol 64(4) Jun 1998, 543-547.
  • Appenrodt, E., & Schwarzberg, H. (1999). Septal vasopressin modulates motility and passive avoidance in pinealectomized rats: Physiology & Behavior Vol 66(5) Jul 1999, 757-761.
  • Appenrodt, E., & Schwarzberg, H. (2000). Central vasopressin administration failed to influence anxiety behavior after pinealectomy in rats: Physiology & Behavior Vol 68(5) Mar 2000, 735-739.
  • Appenrodt, E., & Schwarzberg, H. (2003). Methylphenidate-induced motor activity in rats: Modulation by melatonin and vasopressin: Pharmacology, Biochemistry and Behavior Vol 75(1) Apr 2003, 67-73.
  • Appenrodt, E., & Schwarzberg, H. (2003). Pinealectomy blocks modulation of active avoidance by central vasopressin application in rats: Peptides Vol 24(1) Jan 2003, 129-136.
  • Aravich, P. F., Rieg, T. S., Ahmed, I., & Lauterio, T. J. (1993). Fluoxetine induces vasopressin and oxytocin abnormalities in food-restricted rats given voluntary exercise: Relationship to anorexia nervosa: Brain Research Vol 612(1-2) May 1993, 180-189.
  • Askew, A., Gonzalez, F. A., Stahl, J. M., & Karom, M. C. (2006). Food competition and social experience effects on V-sub(1a) receptor binding in the forebrain of male Long-Evans hooded rats: Hormones and Behavior Vol 49(3) Mar 2006, 328-336.
  • Aubock, J., & Konzett, H. (1983). Ischaemic pain versus mental task: Effect on plasma arginine vasopressin in man: Pain Vol 15(1) Jan 1983, 93-99.
  • Aubry, J. M., Bartanusz, V., Jezova, D., Belin, D., & Kiss, J. Z. (1999). Single Stress Induces Long-Lasting Elevations in Vasopressin mRNA Levels in CRF Hypophysiotrophic Neurones, but Repeated Stress is Required to Modify AVP Immunoreactivity: Journal of Neuroendocrinology Vol 11(5) May 1999, 377-384.
  • Auger, C. J., & De Vries, G. J. (2002). Progestin Receptor Immunoreactivity within Steroid-Responsive Vasopressin-lmmunoreactive Cells in the Male and Female Rat Brain: Journal of Neuroendocrinology Vol 14(7) Jul 2002, 561-567.
  • Axelson, J. F., Smith, M., & Duarte, M. (1999). Prenatal flutamide treatment eliminates the adult male rat's dependency upon vasopressin when forming social-olfactory memories: Hormones and Behavior Vol 36(2) Oct 1999, 109-118.
  • Babicky, A., Krecek, J., Dlouha, H., & Zicha, J. (1986). Endogenous vasopressin and the weaning period in Brattleboro rats: Physiology & Behavior Vol 36(4) 1986, 631-635.
  • Bacharev, V. D., Starikov, V. A., Papsuevich, O. S., & Chipens, G. I. (1983). Effect of activity level of serotoninergic, dopaminergic, and noradrenergic brain systems on the action of arginin-vasopressin neuromodulator of memory: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 33(1) 1983, 79-87.
  • Bachner-Melman, R., Zohar, A. H., Bacon-Shnoor, N., Elizur, Y., Nemanov, L., Gritsenko, I., et al. (2005). Link Between Vasopressin Receptor AVPR1A Promoter Region Microsatellites and Measures of Social Behavior in Humans: Journal of Individual Differences Vol 26(1) 2005, 2-10.
  • Bachner-Melman, R., Zohar, A. H., Elizur, Y., Nemanov, L., Gritsenko, I., Konis, D., et al. (2004). Association between a Vasopressin Receptor AVPR1A Promoter Region Microsatellite and Eating Behavior Measured by a Self-Report Questionnaire (Eating Attitudes Test) in a Family-Based Study of a Nonclinical Population: International Journal of Eating Disorders Vol 36(4) Dec 2004, 451-460.
  • Baertschi, A. J., & et al. (1984). No role of vasopressin in stress-induced ACTH secretion? : Nature Vol 308(5954) Mar 1984, 85-86.
  • Bailey, W. H. (1975). Avoidance behavior in rats with hereditary hypothalamic diabetes insipidus: Dissertation Abstracts International.
  • Bailey, W. H., & Weiss, J. M. (1978). Effect of ACTH-sub(4-20 ) passive avoidance of rats lacking vasopressin (Brattleboro strain): Hormones and Behavior Vol 10(1) Feb 1978, 22-29.
  • Bakharev, V. D. (1981). Investigation of memory during adaptation to high mountain conditions: Human Physiology Vol 7(6) Nov-Dec 1981, 409-414.
  • Bakharev, V. D., & et al. (1984). Effect of arginine-vasopressin neuropeptide on human tolerance of a hot dry environment: Human Physiology Vol 9(5) Jul 1984, 361-368.
  • Bakharev, V. D., & et al. (1984). Effect of vasopressin neuropeptides of ACTH fragments on the human cardiovascular and respiratory systems at rest and during exercise: Human Physiology Vol 9(4) May 1984, 288-293.
  • Bakharev, V. D., Tilkhomirov, S. M., Papsuevich, O. S., & Chipens, G. I. (1984). The use of vasopressin in the therapy of patients with paranoid schizophrenia: Zhurnal Nevropatologii i Psikhiatrii imeni S S Korsakova Vol 84(1) 1984, 88-92.
  • Balaban, C. D., & Severs, W. B. (1991). Toxic effects of somatostatin in the cerebellum and vestibular nuclei: Multiple sites of action: Neuroscience Research Vol 12(1) Oct 1991, 140-150.
  • Bales, K. L., & Carter, C. S. (2007). Neuropeptides and the development of social behaviors: Implications for adolescent psychopathology. New York, NY: Oxford University Press.
  • Bales, K. L., Kim, A. J., Lewis-Reese, A. D., & Carter, C. S. (2004). Both oxytocin and vasopressin may influence alloparental behavior in male prairie voles: Hormones and Behavior Vol 45(5) May 2004, 354-361.
  • Baltissen, R., Teppe, M., Boucsein, W., Fehm-Wolfsdorf, G., & et al. (1991). Effects of vasopressin on the habituation of the orienting reaction in men: Peptides Vol 12(6) Nov-Dec 1991, 1393-1398.
  • Bamshad, M., Cooper, T. T., Karom, M., & Albers, H. E. (1996). Glutamate and vasopressin interact to control scent marking in Syrian hamsters (Mesocricetus auratus): Brain Research Vol 731(1-2) Aug 1996, 213-216.
  • Bamshad, M., Karom, M., Pallier, P., & Albers, H. E. (1997). Role of the central amygdala in social communication in Syrian hamsters ( Mesocricetus auratus): Brain Research Vol 744(1) Jan 1997, 15-22.
  • Bamshad, M., Novak, M. A., & de Vries, G. J. (1994). Cohabitation alters vasopressin innervation and paternal behavior in prairie voles (Microtus ochrogaster): Physiology & Behavior Vol 56(4) Oct 1994, 751-758.
  • Bamshad-Alavi, M. (1993). Changes in vasopressin pathways in extrahypothalamic brain regions of male prairie voles (Microtus ochrogaster) during the reproductive period: Dissertation Abstracts International.
  • Banet, M., & Wieland, U.-E. (1985). The effect of intraseptally applied vasopressin on thermoregulation in the rat: Brain Research Bulletin Vol 14(2) Feb 1985, 113-116.
  • Baratti, C. M., Faiman, C. P., & de Erausquin, G. A. (1989). Facilitation of inhibitory avoidance by hypertonic saline is reversed by a vasopressin and a nicotinic antagonist: Behavioral & Neural Biology Vol 51(3) May 1989, 424-435.
  • Bartus, R. T., Dean, R. L., & Beer, B. (1982). Neuropeptide effects on memory in aged monkeys: Neurobiology of Aging Vol 3(1) Spr 1982, 61-68.
  • Beckmann, H., Lang, R. E., & Gattaz, W. F. (1985). Vasopressin-oxytocin in cerebrospinal fluid of schizophrenic patients and normal controls: Psychoneuroendocrinology Vol 10(2) 1985, 187-191.
  • Beckwith, B. E., Couk, D. I., & Till, T. S. (1983). Vasopressin analog influences the performance of males on a reaction time task: Peptides Vol 4(5) Sep-Oct 1983, 707-709.
  • Beckwith, B. E., & et al. (1982). Vasopressin analog (DDAVP) facilitates concept learning in human males: Peptides Vol 3(4) Jul-Aug 1982, 627-630.
  • Beckwith, B. E., Petros, T. V., Bergloff, P. J., & Staebler, R. J. (1987). Vasopressin analogue ({ddavp}) facilitates recall of narrative prose: Behavioral Neuroscience Vol 101(3) Jun 1987, 429-432.
  • Beckwith, B. E., Petros, T. V., Bergloff, P. J., Swenson, R. R., & et al. (1995). Failure of posttrial administration of vasopressin analogue (DDAVP) to influence memory in healthy, young, male volunteers: Peptides Vol 16(8) 1995, 1327-1328.
  • Beckwith, B. E., Petros, T. V., Couk, D. I., & Tinius, T. P. (1990). The effects of vasopressin on memory in healthy young adult volunteers: Theoretical and methodological issues. New York, NY: New York Academy of Sciences.
  • Beckwith, B. E., Till, R. E., Reno, C. R., & Poland, R. E. (1990). Dose-dependent effects of DDAVP on memory in healthy young adult males: A preliminary study: Peptides Vol 11(3) May-Jun 1990, 473-476.
  • Beckwith, B. E., Till, R. E., & Schneider, V. (1984). Vasopressin analog (DDAVP) improves memory in human males: Peptides Vol 5(4) Jul-Aug 1984, 819-822.
  • Beckwith, B. E., & Tinius, T. P. (1985). Vasopressin and vasotocin facilitate reversal of a brightness discrimination: Peptides Vol 6(3) May-Jun 1985, 383-386.
  • Beckwith, B. E., Tinius, T. P., & Miller, D. H. (1987). Arginine vasopressin facilitates reversal and impairs retention of a brightness discrimination in albino rats: Psychobiology Vol 15(4) Dec 1987, 329-335.
  • Beiderbeck, D. I., Neumann, I. D., & Veenema, A. H. (2007). Differences in intermale aggression are accompanied by opposite vasopressin release patterns within the septum in rats bred for low and high anxiety: European Journal of Neuroscience Vol 26(12) Dec 2007, 3597-3605.
  • Bell, J., Adler, M. W., Greenstein, J. I., & Liu-Chen, L.-y. (1993). Identification and characterization of: Life Sciences Vol 52(1) 1993, 95-105.
  • Bellemere, G., Vaudry, H., Morain, P., & Jegou, S. (2005). Effect of Prolyl Endopeptidase Inhibition on Arginine- Vasopressin and Thyrotrophin-Releasing Hormone Catabolism in the Rat Brain: Journal of Neuroendocrinology Vol 17(5) May 2005, 306-313.
  • Belmaker, R. H., & Bleich, A. (1986). The use of desmopressin in adult enuresis: Military Medicine Vol 151(12) Dec 1986, 660-662.
  • Bennett, J. A., Keck, P. E., & Wallhausser, L. J. (1994). Desmopressin for risperidone-induced enuresis: Annals of Clinical Psychiatry Vol 6(2) Jun 1994, 139-140.
  • Bernardo, M., Gaya, J., Escobar, R., Parellada, E., & et al. (1993). Hypophyseal response to ECT: A higher and faster vasopressin peak: Biological Psychiatry Vol 33(8-9) Apr-May 1993, 670-672.
  • Bernstein, H.-G., Schwarzberg, H., Poeggel, G., & Reiser, M. (1994). Intracerebroventricular but not intraperitoneal administration of aluminum attenuates vasopressin-enhanced retrieval of a passive avoidance task in rats: Pharmacology, Biochemistry and Behavior Vol 47(3) Mar 1994, 587-590.
  • Berrettini, W. H., & et al. (1982). Platelet vasopressin receptors in bipolar affective illness: Psychiatry Research Vol 7(1) Aug 1982, 83-86.
  • Bester-Meredith, J. K. (2002). The effects of the social environment during development on arginine vasopressin, aggression, and paternal behavior. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Bester-Meredith, J. K., & Marler, C. A. (2001). Vasopressin and aggression in cross-fostered California mice (Peromyscus californicus) and white-footed mice (Peromyscus leucopus): Hormones and Behavior Vol 40(1) Aug 2001, 51-64.
  • Bester-Meredith, J. K., & Marler, C. A. (2003). Vasopressin and the transmission of paternal behavior across generations in mated, cross-fostered Peromyscus mice: Behavioral Neuroscience Vol 117(3) Jun 2003, 455-463.
  • Bester-Meredith, J. K., Martin, P. A., & Marler, C. A. (2005). Manipulations of Vasopressin Alter Aggression Differently Across Testing Conditions in Monogamous and Non-Monogamous Peromyscus Mice: Aggressive Behavior Vol 31(2) Mar-Apr 2005, 189-199.
  • Bester-Meredith, J. K., Young, L. J., & Marler, C. A. (1999). Species differences in paternal behavior and aggression in Peromyscus and their associations with vasopressin immunoreactivity and receptors: Hormones and Behavior Vol 36(1) Aug 1999, 25-38.
  • Bielsky, I. F., Hu, S.-B., Szegda, K. L., Westphal, H., & Young, L. J. (2004). Profound impairment in social recognition and reduction in anxiety-like behavior in vasopressin V1a receptor knockout mice: Neuropsychopharmacology Vol 29(3) Mar 2004, 483-493.
  • Bielsky, I. F., Hu, S.-B., & Young, L. J. (2005). Sexual dimorphism in the vasopressin system: Lack of an altered behavioral phenotype in female V1a receptor knockout mice: Behavioural Brain Research Vol 164(1) Oct 2005, 132-136.
  • Bielsky, I. F., & Young, L. J. (2004). Oxytocin, vasopressin, and social recognition in mammals: Peptides Vol 25(9) Sep 2004, 1565-1574.
  • Bierwolf, C., Struve, K., Marshall, L., Born, J., & Fehm, H. L. (1997). Slow Wave Sleep Drives Inhibition of Pituitary-Adrenal Secretion in Humans: Journal of Neuroendocrinology Vol 9(6) Jun 1997, 479-484.
  • Bikbulatova, L. S., Orlova, N. V., & Devyatov, S. B. (1987). Participation of genetic apparatus of hippocampal and neocortical cells in mechanisms of action of desglycyl-argininevasopressin on the process of learning and memory in rats: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 37(6) Nov-Dec 1987, 1075-1080.
  • Blanchard, R. J., Griebel, G., Farrokhi, C., Markham, C., Yang, M., & Blanchard, D. C. (2005). AVP V-sub(1b) selective antagonist SSR149415 blocks aggressive behaviors in hamsters: Pharmacology, Biochemistry and Behavior Vol 80(1) Jan 2005, 189-194.
  • Bluthe, R. M., Dantzer, R., & le Moal, M. (1985). Peripheral injections of vasopressin control behavior by way of interoceptive signals for hypertension: Behavioural Brain Research Vol 18(1) Oct-Nov 1985, 31-39.
  • Bluthe, R.-M., & Dantzer, R. (1990). Social recognition does not involve vasopressinergic neurotransmission in female rats: Brain Research Vol 535(2) Dec 1990, 301-304.
  • Bluthe, R.-M., & Dantzer, R. (1992). Chronic intracerebral infusions of vasopressin and vasopressin antagonist modulate social recognition in rat: Brain Research Vol 572(1-2) Feb 1992, 261-264.
  • Bluthe, R.-M., & Dantzer, R. (1993). Role of the vomeronasal system in vasopressinergic modulation of social recognition in rats: Brain Research Vol 604(1-2) Feb 1993, 205-210.
  • Bluthe, R.-M., Dantzer, R., Mormede, P., & le Moal, M. (1985). Specificity of aversive stimulus properties of vasopressin: Psychopharmacology Vol 87(2) Oct 1985, 238-241.
  • Bluthe, R.-M., Gheusi, G., & Dantzer, R. (1993). Gonadal steroids influence the involvement of arginine vasopressin in social recognition in mice: Psychoneuroendocrinology Vol 18(4) 1993, 323-335.
  • Bluthe, R.-M., Koob, G. F., & Dantzer, R. (1991). Hypertonic saline mimics the effects of vasopressin and social recognition in rats: Behavioural Pharmacology Vol 2(6) Dec 1991, 513-516.
  • Bluthe, R.-M., Schoenen, J., & Dantzer, R. (1990). Androgen-dependent vasopressinergic neurons are involved in social recognition in rats: Brain Research Vol 519(1-2) Jun 1990, 150-157.
  • Boakes, R. J., & et al. (1985). Abnormal behavioural changes associated with vasopressin-induced barrel rotations: Brain Research Vol 326(1) Feb 1985, 65-70.
  • Boccia, M. M., Kopf, S. R., & Baratti, C. M. (1996). The enhancement of retention performance induced by picrotoxin in mice may be mediated through a release of endogenous vasopressin: Behavioural Pharmacology Vol 7(3) May 1996, 254-260.
  • Boccia, M. M., Kopf, S. R., & Baratti, C. M. (1998). Effects of a single administration of oxytocin or vasopressin and their interactions with two selective receptor antagonists on memory storage in mice: Neurobiology of Learning and Memory Vol 69(2) Mar 1998, 136-146.
  • Bodnar, R. J., & et al. (1982). Modulation of nociceptive thresholds by vasopressin in the Brattleboro and normal rat: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 735-739.
  • Bodnar, R. J., Truesdell, L. S., & Nilaver, G. (1985). Potentiation of vasopressin analgesia in rats treated neonatally with monosodium glutamate: Peptides Vol 6(4) Jul-Aug 1985, 621-626.
  • Boer, G. J. (1985). Vasopressin and brain development: Studies using the Brattleboro rat: Peptides Vol 6(Suppl 1) 1985, 49-62.
  • Boer, G. J., & et al. (1982). The regional impairment of brain development in the Brattleboro diabetes insipidus rat: Some vasopressin supplementation studies: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 703-717.
  • Boer, G. J., Feenstra, M. G. P., Botterblom, M. J. A., Korse, V., & et al. (1995). Early postnatal appearance of enhanced noradrenaline content in the brain of vasopressin-deficient Brattleboro rat: Normal adrenoceptor densities and aberrant influences of vasopressin treatment: International Journal of Developmental Neuroscience Vol 13(2) Apr 1995, 63-74.
  • Boer, G. J., Quak, J., De Vries, M. C., & Heinsbroek, R. P. W. (1994). Mild sustained effects of neonatal vasopressin and oxytocin treatment on brain growth and behavior of the rat: Peptides Vol 15(2) 1994, 229-236.
  • Bogdanov, A. V. (1984). Effect of vasopressin desglycil-8-arginin on the activity of cortical neurones in alert cats: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 34(4) 1984, 797-799.
  • Bohnen, N., Terwel, D., Twijnstra, A., Markerink, M., & et al. (1992). Effects of apprehension of lumbar puncture procedure on salivary cortisol, plasma vasopressin and osmolality in man: Stress Medicine Vol 8(4) Oct 1992, 253-257.
  • Bohnen, N. I., Twijnstra, A., & Jolles, J. (1993). A controlled trial with vasopressin analogue (DGAVP) on cognitive recovery immediately after head trauma: Neurology Vol 43(1) Jan 1993, 103-106.
  • Bohus, B. (1977). Effects of desglycinamide-lysine vasopressin (DG-LVP) on sexually motivated T-maze behavior of the male rat: Hormones and Behavior Vol 8(1) Feb 1977, 52-61.
  • Bohus, B. (1980). Vasopressin, oxytocin and memory: Effects on consolidation and retrieval processes: Acta Psychiatrica Belgica Vol 80(5) Sep-Oct 1980, 714-720.
  • Bohus, B., Ader, R., & de Wied, D. (1972). Effects of vasopressin on active and passive avoidance behavior: Hormones and Behavior Vol 3(3) Sep 1972, 191-197.
  • Bohus, B., Borrell, J., Koolhaas, J. M., Nyakas, C., Buwalda, B., Compaan, J. C., et al. (1993). The neurohypophysial peptides, learning, and memory processing. New York, NY: New York Academy of Sciences.
  • Bohus, B., Kovacs, G. L., & de Wied, D. (1978). Oxytocin, vasopressin and memory: Opposite effects on consolidation and retrieval processes: Brain Research Vol 157(2) Nov 1978, 414-417.
  • Bohus, B., Urban, I., Van Wimersma Greidanus, T. B., & de Wied, D. (1978). Opposite effects of oxytocin and vasopressin on avoidance behaviour and hippocampal theta rhythm in the rat: Neuropharmacology Vol 17(4-5) Apr-May 1978, 239-247.
  • Bookin, H. B., & Pfeifer, W. D. (1977). Effect of lysine vasopressin on pentylenetetrazol-induced retrograde amnesia in rats: Pharmacology, Biochemistry and Behavior Vol 7(1) Jul 1977, 51-54.
  • Born, J., Bothor, R., Pietrowsky, R., Fehm-Wolfsdorf, G., & et al. (1987). Influences of vasopressin and oxytocin on human event-related brain potentials in an attention task: Journal of Psychophysiology Vol 1(4) 1987, 351-360.
  • Born, J., & Fehm, H. L. (1988). The hormonal modulation of stimulus processing in humans: German Journal of Psychology Vol 12(4) Dec 1988, 315-331.
  • Born, J., Fehm-Wolfsdorf, G., Lutzenberger, W., Voigt, K. H., & et al. (1986). Vasopressin and electrophysiological signs of attention in man: Peptides Vol 7(2) Mar-Apr 1986, 189-193.
  • Bosch, O. J., Kromer, S. A., & Neumann, I. D. (2006). Prenatal stress: Opposite effects on anxiety and hypothalamic expression of vasopressin and corticotropin-releasing hormone in rats selectively bred for high and low anxiety: European Journal of Neuroscience Vol 23(2) Jan 2006, 541-551.
  • Boyd, S. K., & Moore, F. L. (1992). Sexually dimorphic concentrations of arginine vasotocin in sensory regions of the amphibian brain: Brain Research Vol 588(2) Aug 1992, 304-306.
  • Brambilla, F. (1990). Hormonal neuropeptides in the treatment of schizophrenia: Rivista di Psichiatria Vol 25(4) Oct-Dec 1990, 175-180.
  • Brambilla, F., Aguglia, E., Massironi, R., Maggioni, M., & et al. (1986). Neuropeptide therapies in chronic schizophrenia: TRH and vasopressin administration: Neuropsychobiology Vol 15(3-4) Sep 1986, 114-121.
  • Brambilla, F., Bondiolotti, G. P., Maggioni, M., Sciascia, A., & et al. (1988). Vasopressin (DDAVP) therapy in chronic schizophrenia: Effects on negative symptoms and memory: Neuropsychobiology Vol 20(3) 1988, 113-119.
  • Brinton, R. D., Gonzalez, T. M., & Cheung, W. S. (1994). Vasopressin-induced calcium signaling in cultured hippocampal neurons: Brain Research Vol 661(1-2) Oct 1994, 174-180.
  • Brinton, R. E. (1985). Neuropharmacological investigation of vasopressin, a putative memory neural peptide: Dissertation Abstracts International.
  • Brito, G. N. (1983). The behavior of vasopressin-deficient rats (Brattleboro strain): Physiology & Behavior Vol 30(1) Jan 1983, 29-34.
  • Brito, G. N. (1985). Operant behavior and drinking suppression in vasopressin-deficient rats (Brattleboro strain): Behavioural Brain Research Vol 15(1) Jan 1985, 71-74.
  • Brito, G. N., Thomas, G. J., Gash, D. M., & Kitchen, J. H. (1982). The behavior of Brattleboro rats: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 740-752.
  • Broberg, D. J. (1990). Insulin and vasopressin responses to food presentation in women with eating disorders: Dissertation Abstracts International.
  • Broberg, D. J., Dorsa, D. M., & Bernstein, I. L. (1990). Nausea in bulimic women in response to palatable food: Journal of Abnormal Psychology Vol 99(2) May 1990, 183-188.
  • Brot, M. D. (1992). Interactions of gonadal steroids with brain vasopressin systems: Implications for a sexually dimorphic behavior: Dissertation Abstracts International.
  • Brot, M. D., Bernstein, I. L., & Dorsa, D. M. (1992). Vasopressin deficiency abolishes a sexually dimorphic behavior in Brattleboro rats: Physiology & Behavior Vol 51(4) Apr 1992, 839-843.
  • Brot, M. D., de Vries, G. J., & Dorsa, D. M. (1993). Local implants of testosterone metabolites regulate vasopressin mRNA in sexually dimorphic nuclei of the rat brain: Peptides Vol 14(5) Sep-Oct 1993, 933-940.
  • Brown, C. H., & Leng, G. (2000). In Vivo Modulation of Post-Spike Excitability in Vasopressin Cells by kappa -Opioid Receptor Activation: Journal of Neuroendocrinology Vol 12(8) Aug 2000, 711-714.
  • Brown, M. H., & Nunez, A. A. (1989). Vasopressin-deficient rats show a reduced amplitude of the circadian sleep rhythm: Physiology & Behavior Vol 46(4) Oct 1989, 759-762.
  • Brownson, E. A., Brinton, R. D., & Chambers, K. C. (2002). Vasopressin content in select brain regions during extinction of a conditioned taste aversion: Brain Research Bulletin Vol 59(2) Oct 2002, 125-134.
  • Bruins, J., Hijman, R., & Van Ree, J. M. (1992). Effect of a single dose of des-glycinamide-[Arg-8]vasopressin or oxytocin on cognitive processes in young healthy subjects: Peptides Vol 13(3) May-Jun 1992, 461-468.
  • Bruins, J., Hijman, R., & Van Ree, J. M. (1995). Effect of acute and chronic treatment with desglycinamide-[Arg-8]vasopressin in young male and female volunteers: Peptides Vol 16(2) 1995, 179-186.
  • Bruins, J., Kovacs, G. L., Abbes, A. P., Burbach, J. P. H., van den Akker, E. L. T., Engel, H., et al. (2006). Minor disturbances in central nervous system function in familial neurohypophysial diabetes insipidus: Psychoneuroendocrinology Vol 31(1) Jan 2006, 80-91.
  • Bruins, J., Kumar, A., & Schneider-Helmert, D. (1990). Influence of desglycinamide-(Arg-8) vasopressin on memory in healthy subjects: Neuropsychobiology Vol 23(2) 1990, 82-88.
  • Brunner, J., Keck, M. E., Landgraf, R., Uhr, M., Namendorf, C., & Bronisch, T. (2002). Vasopressin in CSF and plasma in depressed suicide attempters: Preliminary results: European Neuropsychopharmacology Vol 12(5) Oct 2002, 489-494.
  • Bugajski, J., Borycz, J., Glod, R., & Bugajski, A. J. (1995). Crowding stress impairs the pituitary-adrenocortical responsiveness to the vasopressin but not corticotropin-releasing hormone stimulation: Brain Research Vol 681(1-2) May 1995, 223-228.
  • Bugajski, J., Olowska, A., Gadek-Michalska, A., & Borycz, J. (1995). Effect of indomethacin on the CRH and VP-induced pituitary-adrenocortical response during social stress: Life Sciences Vol 58(5) Dec 1995, PL67-PL72.
  • Buijs, R. M., Pevet, P., Masson-Pevet, M., Pool, C. W., & et al. (1986). Seasonal variation in vasopressin innervation in the brain of the European hamster (Cricetus cricetus): Brain Research Vol 371(1) Apr 1986, 193-196.
  • Bult, A., Hiestand, L., Van der Zee, E. A., & Lynch, C. B. (1993). Circadian rhythms differ between selected mouse lines: A model to study the role of vasopressin neurons in the suprachiasmatic nuclei: Brain Research Bulletin Vol 32(6) 1993, 623-627.
  • Bult, A., Van der Zee, E. A., Compaan, J. C., & Lynch, C. B. (1992). Differences in the number of arginine-vasopressin-immunoreactive neurons exist in the suprachiasmatic nuclei of house mice selected for differences in nest-building behavior: Brain Research Vol 578(1-2) Apr 1992, 335-338.
  • Bunsey, M., Kramer, D., Kesler, M., & Strupp, B. J. (1990). A vasopressin metabolite increases attentional selectivity: Behavioral Neuroscience Vol 104(2) Apr 1990, 277-287.
  • Bunsey, M., & Strupp, B. J. (1990). A vasopressin metabolite produces qualitatively different effects on memory retrieval depending on the accessibility of the memory: Behavioral & Neural Biology Vol 53(3) May 1990, 346-355.
  • Bunsey, M. D. (1992). Assessment of the effects of vasopressinergic and noradrenergic drugs on cognitive processes using novel behavioral tasks: Dissertation Abstracts International.
  • Buresova, O., & Skopkova, J. (1982). Vasopressin analogues and spatial working memory in the 24-arm radial maze: Peptides Vol 3(5) Sep-Oct 1982, 725-727.
  • Burish, T. G., & et al. (1981). Improved cognitive functioning in central diabetes insipidus following therapy with a vasopressin analogue: Clinical Neuropsychology Vol 3(4) 1981, 13-15.
  • Burke, D., & Fanker, S. (1996). Fluoxetine and the syndrome of inappropriate secretion of antidiuretic hormone (SIADH): Australian and New Zealand Journal of Psychiatry Vol 30(2) Apr 1996, 295-298.
  • Burke, D., & Fanker, S. (1996). Fluoxetine-induced SIADH: Most likely in the elderly? : Australian and New Zealand Journal of Psychiatry Vol 30(2) Apr 1996, 299-301.
  • Burlet, A., Desor, D., Max, J. P., Nicolas, J. P., & et al. (1990). Ingestive behaviors of the rat deficient in vasopressin synthesis (Brattleboro strain): Effect of chronic treatment by dDAVP: Physiology & Behavior Vol 48(6) Dec 1990, 813-819.
  • Burlet, A. J., Jhanwar-Uniyal, M., Chapleur-Chateau, M., Burlet, C. R., & et al. (1992). Effect of food deprivation and refeeding on the concentration of vasopressin and oxytocin in discrete hypothalamic sites: Pharmacology, Biochemistry and Behavior Vol 43(3) Nov 1992, 897-905.
  • Burnard, D. M., Pittman, Q. J., & Veale, W. L. (1983). Increased motor disturbances in response to arginine vasopressin following hemorrhage or hypertonic saline: Evidence for central AVP release in rats: Brain Research Vol 273(1) Aug 1983, 59-65.
  • Burnard, D. M., Pittman, Q. J., & Veale, W. L. (1985). Brattleboro rats display increased sensitivity to arginine vasopressin-induced motor disturbances: Brain Research Vol 343(2) Sep 1985, 316-322.
  • Burnard, D. M., Veale, W. L., & Pittman, Q. J. (1986). Prevention of arginine-vasopressin-induced motor disturbances by a potent vasopressor antagonist: Brain Research Vol 362(1) Jan 1986, 40-46.
  • Buschmann, J., Leppla-Wollsiffer, G., Nemeth, N., Nelson, K., & Kirsten, R. (1996). Migraine patients show increased platelet vasopressin receptors: Headache: The Journal of Head and Face Pain Vol 36(10) Nov-Dec 1996, 586-588.
  • Buwalda, B., Koolhaas, J. M., & Bohus, B. (1992). Behavioral and cardiac responses to mild stress in young and aged rats: Effects of amphetamine and vasopressin: Physiology & Behavior Vol 51(2) Feb 1992, 211-216.
  • Buwalda, B., Nyakas, C., Koolhaas, J. M., & Bohus, B. (1991). Effects of neonatal administration of vasopressin on cardiac and behavioral responses to emotional stress in adult male rats: Physiology & Behavior Vol 50(5) Nov 1991, 929-932.
  • Buwalda, B., Nyakas, C., Koolhaas, J. M., & Bohus, B. (1993). Neuroendocrine and behavioral effects of vasopressin in resting and mild stress conditions: Physiology & Behavior Vol 54(5) Nov 1993, 947-953.
  • Buwalda, B., Nyakas, C., Koolhaas, J. M., Luiten, P. G., & et al. (1992). Vasopressin prolongs behavioral and cardiac responses to mild stress in young but not in aged rats: Physiology & Behavior Vol 52(6) Dec 1992, 1127-1131.
  • Cain, D. P., Plant, J., Rouleau, S., & Corcoran, M. E. (1986). Failure to kindle seizures after repeated intracerebral administration of arginine vasopressin: Life Sciences Vol 38(11) Mar 1986, 985-989.
  • Caldwell, H. K., & Albers, H. E. (2003). Short-Photoperiod Exposure Reduces Vasopressin (V-sub(1a)) Receptor Binding But Not Arginine-Vasopressin-lnduced Flank Marking in Male Syrian Hamsters: Journal of Neuroendocrinology Vol 15(10) Oct 2003, 971-977.
  • Caldwell, H. K., & Albers, H. E. (2004). Effect of photoperiod on vasopressin-induced aggression in Syrian hamsters: Hormones and Behavior Vol 46(4) Nov 2004, 444-449.
  • Car, H., Borawska, M., & Wisniewski, K. (1995). The effect of vasopressin analogue: Acta Neurobiologiae Experimentalis Vol 55(3) 1995, 207-211.
  • Car, H., & Murtazina, E. (1994). Studies on arginine-vasopressin and its analogue: Asia Pacific Journal of Pharmacology Vol 9(3) Sep 1994, 149-152.
  • Carey, R. J., & Miller, M. (1982). Absence of learning and memory deficits in the vasopressin-deficient rat (Brattleboro strain): Behavioural Brain Research Vol 6(1) Sep 1982, 1-13.
  • Carroll, B. T., Meller, W. H., Kathol, R. G., Gehris, T. L., & et al. (1993). Pituitary-adrenal axis response to arginine vasopressin in patients with major depression: Psychiatry Research Vol 46(2) Feb 1993, 119-126.
  • Carter, C. S. (2007). Sex differences in oxytocin and vasopressin: Implications for autism spectrum disorders? : Behavioural Brain Research Vol 176(1) Jan 2007, 170-186.
  • Carter, D. A., & Lightman, S. L. (1987). Modulation of oxytocin secretion by ascending noradrenergic pathways: Sexual dimorphism in rats: Brain Research Vol 406(1-2) Mar 1987, 313-316.
  • Carter, D. A., & Lightman, S. L. (1987). Oxytocin stress responses are dependent upon emotionality: Psychoneuroendocrinology Vol 12(3) 1987, 219-223.
  • Carter, J. S., Williams, H. G., Davis, J. M., & French, K. E. (1991). Effects of DDAVP on movement planning and execution processes in the healthy elderly: Peptides Vol 12(4) Jul-Aug 1991, 871-876.
  • Carter, J. S., Williams, H. G., Davis, J. M., & Rotter, R. A. (1991). Effects of DDAVP on movement planning and execution processes in healthy young adults: Peptides Vol 12(1) Jan-Feb 1991, 1-5.
  • Castagna, C., Absil, P., Foidart, A., & Balthazart, J. (1998). Systemic and intracerebroventricular injections of vasotocin inhibit appetitive and consummatory components of male sexual behavior in Japanese quail: Behavioral Neuroscience Vol 112(1) Feb 1998, 233-250.
  • Cates, P. S., Forsling, M. L., & O'Byrne, K. T. (1999). Stress-Induced Suppression of Pulsatile Luteinising Hormone Release in the Female Rat: Role of Vasopressin: Journal of Neuroendocrinology Vol 11(9) Sep 1999, 677-683.
  • Chambers, W. F., & et al. (1966). Effect of vasopressin and adrenal steroids on cortical response evoked at the midbrain level in aged rats: Gerontologia 12(2) 1966, 65-73.
  • Chen, M.-D., Ordog, T., & Knobil, E. (1998). Mitigation of the somnolence of insulin-induced hypoglycemia by a vasopressin V-sub-1 receptor antagonist in the rhesus monkey: Psychoneuroendocrinology Vol 23(5) Jul 1998, 497-503.
  • Chen, S., Sui, N., Guan, L., Kuang, P., & et al. (1994). Vasopressin and memory retention in one-day old chicks: Acta Psychologica Sinica Vol 26(3) 1994, 284-288.
  • Chen, X.-f., Chen, Z.-f., Liu, R.-y., & Du, Y.-c. (1988). Neonatal administrations of a vasopressin analog (DDAVP) and hypertonic saline enhance learning behavior in rats: Peptides Vol 9(4) Jul-Aug 1988, 717-721.
  • Chepkova, A. N., French, P., de Wied, D., Ontskul, A. H., & et al. (1995). Long-lasting enhancement of synaptic excitability of CA1/subiculum neurons of the rat ventral hippocampus by vasopressin and vasopressin(4-8): Brain Research Vol 701(1-2) Dec 1995, 255-266.
  • Cherkas, L. F., Oelsner, E. C., Mak, Y. T., Valdes, A., & Spector, T. D. (2004). Genetic Influences on Female Infidelity and Number of Sexual Partners in Humans: A Linkage and Association Study of the Role of the Vasopressin Receptor Gene (AVPR1A): Twin Research Vol 7(6) Dec 2004, 649-658.
  • Cho, M. M., DeVries, A. C., Williams, J. R., & Carter, C. S. (1999). The effects of oxytocin and vasopressin on partner preferences in male and female prairie voles (Microtus ochrogaster): Behavioral Neuroscience Vol 113(5) Oct 1999, 1071-1079.
  • Christensen, S. (1976). Acute and chronic effecs of vasopressin in rats with lithium-polyuria: Acta Pharmacologica et Toxicologica Vol 38(3) Mar 1976, 241-253.
  • Claudine, S.-L. G., Sylvain, D., Gabrielle, B., Maurice, M., Jacques, S., Rolf, G., et al. (2003). Functional and Pharmacological Characterization of the First Specific Agonist and Antagonist for the V1b Receptor in Mammals: Stress: The International Journal on the Biology of Stress Vol 6(3) Sep 2003, 199-206.
  • Coccaro, E. F., Kavoussi, R. J., Hauger, R. L., Cooper, T. B., & Ferris, C. F. (1998). Cerebrospinal fluid vasopressin levels: Correlates with aggression and serotonin function in personality-disordered subjects: Archives of General Psychiatry Vol 55(8) Aug 1998, 708-714.
  • Cohen, S. L., Knight, M., Tamminga, C. A., & Chase, T. N. (1985). Effects of vasopressin on multiple fixed-ratio fixed-interval schedules of reinforcement: Bulletin of the Psychonomic Society Vol 23(6) Nov 1985, 531-534.
  • Colombo, G., Hansen, C., Hoffman, P. L., & Grant, K. A. (1992). Decreased performance in a delayed alternation task by rats genetically deficient in vasopressin: Physiology & Behavior Vol 52(4) Oct 1992, 827-830.
  • Compaan, J. C., Buijs, R. M., Pool, C. W., de Ruiter, A. J., & et al. (1993). Differential lateral septal vasopressin innervation in aggressive and nonaggressive male mice: Brain Research Bulletin Vol 30(1-2) 1993, 1-6.
  • Connan, F., Lightman, S. L., Landau, S., Wheeler, M., Treasure, J., & Campbell, I. C. (2007). An investigation of hypothalamic-pituitary-adrenal axis hyperactivity in anorexia nervosa: The role of CRH and AVP: Journal of Psychiatric Research Vol 41(1-2) Jan-Feb 2007, 131-143.
  • Cooper, M. A., Karom, M., Huhman, K. L., & Albers, H. E. (2005). Repeated agonistic encounters in hamsters modulate AVP V1a receptor binding: Hormones and Behavior Vol 48(5) Dec 2005, 545-551.
  • Cooper, R. L., McNamara, M. C., Thompson, W. G., & Marsh, G. R. (1980). Vasopressin modulation of learning and memory in the rat. Washington, DC: American Psychological Association.
  • Corcoran, M. E., Cain, D. P., Finlay, J. M., & Gillis, B. J. (1984). Vasopressin and the kindling of seizures: Life Sciences Vol 35(9) Aug 1984, 947-952.
  • Corson, S. A., Corson, E. O., Hajek, J., & Hajkova, M. (1977). The function of vasopressin in adaptation to emotional stress: Activitas Nervosa Superior Vol 19(4) 1977, 302-304.
  • Couk, D. I. (1987). Vasopressin analogues and their effects upon arousal, attention and memory: Dissertation Abstracts International.
  • Couk, D. I., & Beckwith, B. E. (1982). Effects of desmopressin acetate (DDAVP) on the learning of a brightness discrimination: Peptides Vol 3(3) May-Jun 1982, 521-526.
  • Crabbe, J. C., & Rigter, H. (1985). Vasopressin and ethanol preference: II. Altered preference in two strains of diabetes insipidus rats and nephrogenic diabetes insipidus mice: Peptides Vol 6(4) Jul-Aug 1985, 677-683.
  • Crabbe, J. C., Rigter, H., & Kerbusch, S. (1980). Genetic analysis of tolerance to ethanol hypothermia in recombinant inbred mice: Effect of desglycinamide(-9)-arginine(-8)-vasopressin: Behavior Genetics Vol 10(2) Mar 1980, 139-152.
  • Crine, A. F. (1981). Effects of vasopressin on open-field behavior in rats: Physiological Psychology Vol 9(1) Mar 1981, 109-113.
  • Crine, A. F. (1982). Effect of a high dose of vasopressin on an inhibition avoidance response: Progress in Neuro-Psychopharmacology & Biological Psychiatry Vol 6(3) 1982, 265-268.
  • Crine, A. F. (1983). On the possible role played by vasopressin in paraventricular nucleus-feeding behavior relationship: Hormones and Behavior Vol 17(3) Sep 1983, 342-343.
  • Crine, A. F. (1984). Dose-related influence of arginine-vasopressin on a passive avoidance behavior: Effect of rearing conditions: Progress in Neuro-Psychopharmacology & Biological Psychiatry Vol 8(3) 1984, 379-384.
  • Crine, A. F. (1984). Vasopressin effects on food-rewarded learning tasks might be due to its action on carbohydrate/lipid metabolism, not memory: Appetite Vol 5(3) Sep 1984, 233-238.
  • Crine, A. F., Bredart, S., & Legros, J. J. (1981). Effect of exogenous arginine vasopressin on rectal temperature in the albino rat: Hormones and Behavior Vol 15(2) Jun 1981, 226-231.
  • Crine, A. F., & Buijs, R. M. (1987). Electric footshocks differentially affect plasma and spinal cord vasopressin and oxytocin levels: Peptides Vol 8(2) Mar-Apr 1987, 243-246.
  • Crowe, S. F., Ng, K. T., & Gibbs, M. E. (1990). Memory consolidation of weak training experiences by hormonal treatments: Pharmacology, Biochemistry and Behavior Vol 37(4) Dec 1990, 729-734.
  • Cushing, B. S., Martin, J. O., Young, L. J., & Carter, C. S. (2001). The effects of peptides on partner preference formation are predicted by habitat in prairie voles: Hormones and Behavior Vol 39(1) Feb 2001, 48-58.
  • Cushing, B. S., Okorie, U., & Young, L. J. (2003). The Effects of Neonatal Castration on the Subsequent Behavioural Response to Centrally Administered Arginine Vasopressin and the Expression of V-sub(1a) Receptors in Adult Male Prairie Voles: Journal of Neuroendocrinology Vol 15(11) Nov 2003, 1021-1026.
  • Danguir, J. (1983). Sleep deficits in rats with hereditary diabetes insipidus: Nature Vol 304(5922) Jul 1983, 163-164.
  • Dantzer, R. (2006). Review of The roles of vasopressin and oxytocin in memory processing: Psychoneuroendocrinology Vol 31(2) Feb 2006, 275-276.
  • Dantzer, R., Bluthe, R. M., Koob, G. F., & le Moal, M. (1987). Modulation of social memory in male rats by neurohypophyseal peptides: Psychopharmacology Vol 91(3) Mar 1987, 363-368.
  • Dantzer, R., Bluthe, R.-M., & Kelley, K. W. (1991). Androgen-dependent vasopressinergic neurotransmission attenuates interleukin-1-induced sickness behavior: Brain Research Vol 557(1-2) Aug 1991, 115-120.
  • Dantzer, R., Koob, G. F., Bluthe, R.-M., & le Moal, M. (1988). Septal vasopressin modulates social memory in male rats: Brain Research Vol 457(1) Aug 1988, 143-147.
  • Davis, B. M., & et al. (1982). Effects of cholinergic stimulation on pituitary hormone release: Psychoneuroendocrinology Vol 7(4) Dec 1982, 347-354.
  • Davis, J. L. (1984). Effects of a vasopressin analogue, DDAVP, on chick memory: IRCS Medical Science: Psychology & Psychiatry Vol 12(9-10) Sep-Oct 1984, 865.
  • Davis, J. L., Pico, R. M., & Cherkin, A. (1982). Arginine vasopressin enhances memory retroactively in chicks: Behavioral & Neural Biology Vol 35(3) Jul 1982, 242-250.
  • Davis, J. L., Pico, R. M., & Cherkin, A. (1983). L-prolyl-L-arginyl-glycineamide induces memory enhancement in chicks: Peptides Vol 4(4) Jul-Aug 1983, 401-404.
  • de Arruda Camargo, G. M. P., de Arruda Camargo, L. A., & Saad, W. A. (2007). Vasopressin and angiotensin receptors of the medial septal area of the brain in the control of thirst and salt appetite induced by vasopressin in water-deprived and sodium-depleted rats: Pharmacology, Biochemistry and Behavior Vol 87(4) Oct 2007, 393-399.
  • de Bellis, M. D., Gold, P. W., Geracioti, T. D., Listwak, S. J., & et al. (1993). Association of fluoxetine treatment with reductions in CSF concentrations of corticotropin-releasing hormone and arginine vasopressin in patients with major depression: American Journal of Psychiatry Vol 150(4) Apr 1993, 656-657.
  • de Goeij, D. C., Jezova, D., & Tilders, F. J. (1992). Repeated stress enhances vasopressin synthesis in corticotropin releasing factor neurons in the paraventricular nucleus: Brain Research Vol 577(1) Apr 1992, 165-168.
  • de Goeij, D. C. E., Jezova, D., & Tilders, F. J. H. (1992). Chronic stress and adrenalectomy both induce vasopressin synthesis and storage in corticotropin releasing factor neurons in the paraventricular nucleus. Philadelphia, PA, England: Gordon & Breach Science Publishers.
  • de Kloet, C. S., Vermetten, E., Geuze, E., Wiegant, V. M., & Westenberg, H. G. M. (2008). Elevated plasma arginine vasopressin levels in veterans with posttraumatic stress disorder: Journal of Psychiatric Research Vol 42(3) Feb 2008, 192-198.
  • de Saint Hilaire, Z., Gaillard, J.-M., Sarbach, S. D., & Guez, D. (1995). Effect of a new cognitive drug-enhancer S-12024-2 on EEG sleep recordings in rats: Pharmacology, Biochemistry and Behavior Vol 52(4) Dec 1995, 819-823.
  • de Vito, W. J. (1981). The effect of ACTH and vasopressin on extinction: An opiate mediator model: Dissertation Abstracts International.
  • De Vries, G. J., Wang, Z., Bullock, N. A., & Numan, S. (1994). Sex differences in the effects of testosterone and its metabolites on vasopressin messenger RNA levels in the bed nucleus of the stria terminalis of rats: Journal of Neuroscience Vol 14(3, Pt 2) Mar 1994, 1789-1794.
  • de Vry, J., Donselaar, I., & Van Ree, J. M. (1988). Effects of desglycinamide-9,(ARG-8) vasopressin and vasopressin antiserum on the acquisition of intravenous cocaine self-administration in the rat: Life Sciences Vol 42(26) 1988, 2709-2715.
  • de Wied, D. (1976). Behavioral effects of intraventricularly administered vasopressin and vasopressin fragments: Life Sciences Vol 19(5) Sep 1976, 685-690.
  • de Wied, D. (1984). The importance of vasopressin in memory: Trends in Neurosciences Vol 7(4) Apr 1984, 109.
  • de Wied, D., Gaffori, O., Burbach, J. P., Kovacs, G. L., & et al. (1987). Structure activity relationship studies with C-terminal fragments of vasopressin and oxytocin on avoidance behaviors in rats: Journal of Pharmacology and Experimental Therapeutics Vol 241(1) Apr 1987, 268-274.
  • de Wied, D., Gaffori, O., Van Ree, J. M., & de Jong, W. (1984). Central target for the behavioural effects of vasopressin neuropeptides: Nature Vol 308(5956) Mar 1984, 276-278.
  • de Wied, D., Gaffori, O., Van Ree, J. M., & de Jong, W. (1984). Vasopressin antagonists block peripheral as well as central vasopressin receptors: Pharmacology, Biochemistry and Behavior Vol 21(3) Sep 1984, 393-400.
  • De Wied, D., Greven, H. M., Lande, S., & Witter, A. (1972). Dissociation of the behavioural and endocrine effects of lysine vasopressin by tryptic digestion: British Journal of Pharmacology Vol 45(1) May 1972, 118-122.
  • de Wied, D., & Van Ree, J. M. (1989). Neuropeptides: Animal behaviour and human psychopathology: European Archives of Psychiatry & Neurological Sciences Vol 238(5-6) Jul 1989, 323-331.
  • de Winter, R. F. P., van Hemert, A. M., DeRijk, R. H., Zwinderman, K. H., Frankhuijzen-Sierevogel, A. C., Wiegant, V. M., et al. (2003). Anxious-retarded depression: Relation with plasma vasopressin and cortisol: Neuropsychopharmacology Vol 28(1) Jan 2003, 140-147.
  • de Winter, R. F. P., van Hemert, A. M., DeRijk, R. H., Zwinderman, K. H., Frankhuijzen-Sierevogel, A. C., Wiegant, V. M., et al. (2003). Anxious-retarded depression: Relation with plasma vasopressin and cortisol: Correction: Neuropsychopharmacology Vol 28(3) Mar 2003, 610.
  • de Winter, R. F. P., Zitman, F. G., van Houwelingen, J. C., Wolterbeek, R., & Goekoop, J. G. (2006). Anxious-retarded depression: Relation to two-year outcome of major depressive disorder: Journal of Affective Disorders Vol 90(1) Jan 2006, 77-81.
  • D'Eath, R. B., Ormandy, E., Lawrence, A. B., Sumner, B. E. H., & Meddle, S. L. (2005). Resident-intruder trait aggression is associated with differences in lysine vasopressin and serotonin receptor 1A (5-HT-sub(1A)) mRNA expression in the brain of pre-pubertal female domestic pigs (Sus scrofa): Journal of Neuroendocrinology Vol 17(10) Oct 2005, 679-686.
  • DeLanoy, R. L. (1980). Peptide hormone interactions with brain catecholamine metabolism: Dissertation Abstracts International.
  • Delanoy, R. L., Dunn, A. J., & Tintner, R. (1978). Behavioral responses to intracerebroventricularly administered neurohypophyseal peptides in mice: Hormones and Behavior Vol 11(3) Dec 1978, 348-362.
  • Delanoy, R. L., Kramarcy, N. R., & Dunn, A. J. (1982). ACTH-B1-24-b and lysine vasopressin selectively activate dopamine synthesis in frontal cortex: Brain Research Vol 231(1) Jan 1982, 117-129.
  • Delanoy, R. L., Kramarcy, N. R., & Dunn, A. J. (1982). ACTH-sub(1superscript 24) and lysine vasopressin selectively activate dopamine synthesis in frontal cortex: Brain Research Vol 231(1) Jan 1982, 117-129.
  • DeLeon, K. R., Grimes, J. M., & Melloni, R. H., Jr. (2002). Repeated anabolic-androgenic steroid treatment during adolescence increases vasopressin V-sub(1A ) receptor binding in Syrian hamsters: Correlation with offensive aggression: Hormones and Behavior Vol 42(2) Sep 2002, 182-191.
  • Delva, N. J., Crammer, J. L., Lawson, J. S., Lightman, S. L., & et al. (1990). Vasopressin in chronic psychiatric patients with primary polydipsia: British Journal of Psychiatry Vol 157 Nov 1990, 703-712.
  • Delva, N. J., Lawson, J. S., Lightman, S. L., & Crammer, J. L. (1991). "Vasopressin in polydipsia": Reply: British Journal of Psychiatry Vol 158 Apr 1991, 570.
  • Delville, Y., De Vries, G. J., & Ferris, C. F. (2000). Neural connections of the anterior hypothalamus and agonistic behavior in golden hamsters: Brain, Behavior and Evolution Vol 55(2) Feb 2000, 53-76.
  • Delville, Y., De Vries, G. J., Schwartz, W. J., & Ferris, C. F. (1998). Flank-marking behavior and the neural distribution of vasopressin innervation in golden hamsters with suprachiasmatic lesions: Behavioral Neuroscience Vol 112(6) Dec 1998, 1486-1501.
  • Delville, Y., Koh, E. T., & Ferris, C. F. (1994). Sexual differences in the magnocellular vasopressinergic system in golden hamsters: Brain Research Bulletin Vol 33(5) 1994, 535-540.
  • Delville, Y., Mansour, K. M., & Ferris, C. F. (1996). Serotonin blocks vasopressin-facilitated offensive aggression: Interactions within the ventrolateral hypothalamus of golden hamsters: Physiology & Behavior Vol 59(4-5) Apr-May 1996, 813-816.
  • Delville, Y., Mansour, K. M., & Ferris, C. F. (1996). Testosterone facilitates aggression by modulating vasopressin receptors in the hypothalamus: Physiology & Behavior Vol 60(1) Jul 1996, 25-29.
  • Delville, Y., Melloni, R. H., Jr., & Ferris, C. F. (1998). Behavioral and neurobiological consequences of social subjugation during puberty in golden hamsters: Journal of Neuroscience Vol 18(7) Apr 1998, 2667-2672.
  • Delwaide, P. J., Devoitille, J. M., & Ylieff, M. (1980). Acute effect of drugs upon memory of patients with senile dementia: Acta Psychiatrica Belgica Vol 80(5) Sep-Oct 1980, 748-754.
  • Dempster, E. L., Burcescu, I., Wigg, K., Kiss, E., Baji, I., Gadoros, J., et al. (2007). Evidence of an association between the vasopressin V1b receptor gene (AVPRIB) and childhood-onset mood disorders: Archives of General Psychiatry Vol 64(10) Oct 2007, 1189-1195.
  • Dessypris, A. (1986). Hormonal responses in long-term physical exercise: Psychiatria Fennica Suppl 1986, 45-53.
  • Devanand, D. P., Lisanby, S., Lo, E.-S., Fitzsimons, L., Cooper, T. B., Halbreich, U., et al. (1998). Effects of electroconvulsive therapy on plasma vasopressin and oxytocin: Biological Psychiatry Vol 44(7) Oct 1998, 610-616.
  • DeVito, W. J., & Brush, F. R. (1984). Effect of ACTH and vasopressin on extinction: Evidence for opiate mediation: Behavioral Neuroscience Vol 98(1) Feb 1984, 59-71.
  • Diamant, M., Baars, A. M., Kovacs, G. L., & De Wied, D. (1994). Barrel rotation induced by central arginine-8-vasopressin treatment: Involvement of neurohypophyseal peptide receptors: Pharmacology, Biochemistry and Behavior Vol 47(1) Jan 1994, 27-32.
  • Dietrich, A. (1997). Memory enhancing effects of the vasopressin analog AVP. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Dietrich, A., & Allen, J. D. (1997). Vasopressin and memory: I. The vasopressin analogue AVP-sub(4-9 ) enhances working memory as well as reference memory in the radial arm maze: Behavioural Brain Research Vol 87(2) Sep 1997, 195-200.
  • Dietrich, A., & Allen, J. D. (1997). Vasopressin and memory: II. Lesions to the hippocampus block the memory enhancing effects of AVP-sub(4-9 ) in the radial maze: Behavioural Brain Research Vol 87(2) Sep 1997, 201-208.
  • Dietrich, A., Taylor, J. T., & Passmore, C. E. (2001). AVP (4-8) improves concept learning in PFC-damaged but not hippocampal-damaged rats: Brain Research Vol 919(1) Nov 2001, 41-47.
  • Dinan, T. G. (2005). Guest editorial: Vasopressin: The neglected target for stress modulation? : Stress and Health: Journal of the International Society for the Investigation of Stress Vol 21(3) Aug 2005, 145-146.
  • Dinan, T. G., O'Brien, S., Lavelle, E., & Scott, L. V. (2004). Further neuroendocrine evidence of enhanced vasopressin V-sub-3 receptor responses in melancholic depression: Psychological Medicine Vol 34(1) Jan 2004, 169-172.
  • Dittman, R. W., & Wolter, S. (1996). Primary nocturnal enuresis and desmopressin treatment: Do psychosocial factors affect outcome? : European Child & Adolescent Psychiatry Vol 5(2) Jun 1996, 101-109.
  • Dluzen, D. E., Muraoka, S., Engelmann, M., & Landgraf, R. (1998). The effects of infusion of arginine vasopressin, oxytocin, or their antagonists into the olfactory bulb upon social recognition responses in male rats: Peptides Vol 19(6) 1998, 999-1005.
  • Dobie, D. J., Miller, M. A., Urban, J. H., Raskind, M. A., & et al. (1991). Age-related decline of vasopressin mRNA in the bed nucleus of the stria terminalis: Neurobiology of Aging Vol 12(5) Sep-Oct 1991, 419-523.
  • Dobruch, J., Cudnoch-Jedrzejewska, A., & Szczepanska-Sadowska, E. (2005). Enhanced involvement of brain vasopressin V1 receptors in cardiovascular responses to stress in rats with myocardial infarction: Stress: The International Journal on the Biology of Stress Vol 8(4) Dec 2005, 273-284.
  • Dodt, C., Pietrowsky, R., Sewing, A., Zabel, A., & et al. (1994). Effects of vasopressin on event-related potential indicators of cognitive stimulus processing in young and old humans: Journals of Gerontology Vol 49(4) Jul 1994, M183-M188.
  • Donovan, B. T. (1978). The behavioural actions of the hypothalamic peptides: A review: Psychological Medicine Vol 8(2) May 1978, 305-316.
  • Dons, R. F., House, J. F., Hood, D., & Krehbiel, M. (1989). Assessment of desmopressin-enhanced cognitive function in a neurosurgical patient: Military Medicine Vol 154(2) Feb 1989, 83-85.
  • Dorsa, D. M., & Bottemiller, L. (1982). Age-related changes of vasopressin content of microdissected areas of the rat brain: Brain Research Vol 242(1) Jun 1982, 151-156.
  • Drago, F., Stanciu, M., Salehi, S., & Scapagnini, U. (1997). The block of central vasopressin V-sub-1 but not V-sub-2 receptors suppresses grooming behavior and hypothermia induced by intracerebroventricular vasopressin in male rats: Peptides Vol 18(9) 1997, 1389-1392.
  • Dreifuss, J. J., Muhlethaler, M., & Gahwiler, B. H. (1982). Electrophysiology of vasopressin in normal rats and in rats of the Brattleboro strain: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 689-702.
  • Dubrovina, N. I., Papsuyevich, O. S., & Chipens, G. I. (1991). Slowing of extinction of the conditioned reaction and the antiamnesic effect of arginine-vasopressin and des-glycine-(8-arginine)-vasopressin: Farmakologiya i Toksikologiya Vol 54(5) Sep-Oct 1991, 5-7.
  • Durso, R., & et al. (1982). Lysine vasopressin in Alzheimer disease: Neurology Vol 32(6) Jun 1982, 674-677.
  • Eames, P., & Wood, R. L. (1999). Lysine vasopressin in post-traumatic memory disorders: An uncontrolled pilot study: Brain Injury Vol 13(4) Apr 1999, 255-260.
  • Ebenezer, I. S. (1985). Atropine pretreatment does not reverse the depressant effect of arginine vasopressin on the spontaneous activity of rats: IRCS Medical Science: Psychology & Psychiatry Vol 13(3-4) Mar-Apr 1985, 344-345.
  • Ebenezer, I. S. (1985). The development of tolerance to the depressant effect of arginine-8 vasopressin on the spontaneous motor activity of rats: Neuropharmacology Vol 24(11) Nov 1985, 1073-1078.
  • Ebenezer, I. S. (1988). Can vasopressin alone act as an unconditioned stimulus to produce passive avoidance behaviour in rats in a typical memory experiment? : Neuropharmacology Vol 27(9) Sep 1988, 903-907.
  • Ebenezer, I. S. (1993). Effects of arginine-8 vasopressin and lithium chloride on an appetitively motivated task in rats: Medical Science Research Vol 21(3) Feb 1993, 97-98.
  • Ebihara, H., Kawasaki, H., Nakamura, S., Takasaki, K., & et al. (1993). Pressor response to microinjection of clonidine into the hypothalamic paraventricular nucleus in conscious rats: Brain Research Vol 624(1-2) Oct 1993, 44-52.
  • Ebner, K., Wotjak, C. T., Landgraf, R., & Engelmann, M. (2000). A single social defeat experience selectively stimulates the release of oxytocin, but not vasopressin, within the septal brain area of male rats: Brain Research Vol 872(1-2) Jul 2000, 87-92.
  • Ebner, K., Wotjak, C. T., Landgraf, R., & Engelmann, M. (2002). Forced swimming triggers vasopressin release within the amygdala to modulate stress-coping strategies in rats: European Journal of Neuroscience Vol 15(2) Jan 2002, 384-388.
  • Edelstein, E. L. (1981). Vasopressins and other neuropeptides as CNS mental modulators: A review: Israel Journal of Psychiatry and Related Sciences Vol 18(3) 1981, 229-236.
  • Egashira, N., Tanoue, A., Higashihara, F., Fuchigami, H., Sano, K., Mishima, K., et al. (2005). Disruption of the prepulse inhibition of the startle reflex in vasopressin V1b receptor knockout mice: Reversal by antipsychotic drugs: Neuropsychopharmacology Vol 30(11) Nov 2005, 1996-2005.
  • Egashira, N., Tanoue, A., Matsuda, T., Koushi, E., Harada, S., Takano, Y., et al. (2007). Impaired social interaction and reduced anxiety-related behavior in vasopressin V1a receptor knockout mice: Behavioural Brain Research Vol 178(1) Mar 2007, 123-127.
  • Ehlers, C. L., & et al. (1985). EEG effects of subcutaneous and intracerebroventricular injections of arginine vasopressin in the rat: Psychopharmacology Vol 87(4) Dec 1985, 430-433.
  • Ehrenreich, H., tom Dieck, K., Gefeller, O., Kaw, S., & et al. (1997). Sustained elevation of vasopressin plasma levels in healthy young men, but not in abstinent alcoholics, upon expectation of novelty: Psychoneuroendocrinology Vol 22(1) Jan 1997, 13-24.
  • Ehrensing, R. H., Michell, G. F., & Baker, R. P. (1982). Vasopressin's effects on acquisition and extinction of conditioned avoidance response to smoking: Peptides Vol 3(3) May-Jun 1982, 527-530.
  • Eisenberg, J., Chazan-Gologorsky, S., Hattab, J., & Belmaker, R. H. (1984). A controlled trial of vasopressin treatment of childhood learning disorder: Biological Psychiatry Vol 19(7) Jul 1984, 1137-1141.
  • Eisenhofer, G., Johnson, R. H., & Lambie, D. G. (1984). Growth hormone, vasopressin, cortisol, and catecholamine responses to insulin hypoglycemia in alcoholics: Alcoholism: Clinical and Experimental Research Vol 8(1) Jan-Feb 1984, 33-36.
  • Eisenhofer, G., Lambie, D. G., & Robinson, B. J. (1985). No improvement in ethanol-induced deficits after administration of a vasopressin analog: Life Sciences Vol 37(26) Dec 1985, 2499-2505.
  • Eisenhofer, G., Lambie, D. G., Whiteside, E. A., & Johnson, R. H. (1985). Vasopressin concentrations during alcohol withdrawal: British Journal of Addiction Vol 80(2) Jun 1985, 195-199.
  • Ekman, R., Gobom, J., Persson, R., Mecocci, P., & Nilsson, C. L. (2001). Arginine vasopressin in the cytoplasm and nuclear fraction of lymphocytes from healthy donors and patients with depression or schizophrenia: Peptides Vol 22(1) Jan 2001, 67-72.
  • Elman, I., Lukas, S., Shoaf, S. E., Rott, D., Adler, C., & Breier, A. (2003). Effects of acute metabolic stress on the peripheral vasopressinergic system in schizophrenia: Journal of Psychopharmacology Vol 17(3) Sep 2003, 317-323.
  • Emsley, R., Potgieter, A., Taljaard, F., Joubert, G., & et al. (1989). Water excretion and plasma vasopressin in psychotic disorders: American Journal of Psychiatry Vol 146(2) Feb 1989, 250-253.
  • Emsley, R. A., Roberts, M. C., Aalbers, C., Taljaard, F. J. J., Kapnias, S., Pieters, H. C., et al. (1995). Vasopressin secretion and memory impairment in alcoholic Korsakoff's syndrome: Alcohol and Alcoholism Vol 30(2) Mar 1995, 223-229.
  • Engelmann, M., Ebner, K., Landgraf, R., & Wotjak, C. T. (1998). Swim stress triggers the release of vasopressin within the suprachiasmatic nucleus of male rats: Brain Research Vol 792(2) May 1998, 343-347.
  • Engelmann, M., Ebner, K., Landgraf, R., & Wotjak, C. T. (2006). Effects of Morris water maze testing on the neuroendocrine stress response and intrahypothalamic release of vasopressin and oxytocin in the rat: Hormones and Behavior Vol 50(3) Sep 2006, 496-501.
  • Engelmann, M., & Landgraf, R. (1994). Is the hypothalamic supraoptic nucleus involved in the neuroendocrine-immune dialogue? : Psychologische Beitrage Vol 36(1-2) 1994, 119-125.
  • Engelmann, M., & Landgraf, R. (1994). Is the hypothalamic supraoptic nucleus involved in the neuroendocrinemmune dialogue? : Psychologische Beitrage Vol 36(1-2) 1994, 119-125.
  • Engelmann, M., & Landgraf, R. (1994). Microdialysis administration of vasopressin into the septum improves social recognition in Brattleboro rats: Physiology & Behavior Vol 55(1) Jan 1994, 145-149.
  • Engelmann, M., & Ludwig, M. (2004). The activity of the hypothalamo-neurohypophysial system in response to acute stressor exposure: Neuroendocrine and electrophysiological observations: Stress: The International Journal on the Biology of Stress Vol 7(2) Jun 2004, 91-96.
  • Engelmann, M., Ludwig, M., & Landgraf, R. (1992). Microdialysis administration of vasopressin and vasopressin antagonists into the septum during pole-jumping behavior in rats: Behavioral & Neural Biology Vol 58(1) Jul 1992, 51-57.
  • Englemann, M., Wotjak, C. T., Neumann, I., & Ludwig, M. (1996). Behavioral consequences of intracerebral vasopressin and oxytocin: Focus on learning and memory: Neuroscience & Biobehavioral Reviews Vol 20(3) Fal 1996, 341-358.
  • Ermisch, A., & Landgraf, R. (1984). Vasopressin, oxytocin, blood-brain barrier and stress: Activitas Nervosa Superior Vol 26(2) 1984, 141-142.
  • Ermisch, A., Landgraf, R., & Mobius, P. (1986). Vasopressin and oxytocin in brain areas of rats with high or low behavioral performance: Brain Research Vol 379(1) Jul 1986, 24-29.
  • Etienne, P. E., & et al. (1981). Adverse effects of medical and psychiatric workup in six demented geriatric patients: American Journal of Psychiatry Vol 138(4) Apr 1981, 520-521.
  • Ettenberg, A. (1984). Intracerebroventricular application of a vasopressin antagonist peptide prevents the behavioral actions of vasopressin: Behavioural Brain Research Vol 14(3) Dec 1984, 201-211.
  • Ettenberg, A., & et al. (1983). Can aversive properties of (peripherally-injected) vasopressin account for its putative role in memory? : Behavioural Brain Research Vol 7(3) Mar 1983, 331-350.
  • Ettenberg, A., le Moal, M., Koob, G. F., & Bloom, F. E. (1983). Vasopressin potentiation in the performance of a learned appetitive task: Reversal by a pressor antagonist analog of vasopressin: Pharmacology, Biochemistry and Behavior Vol 18(4) Apr 1983, 645-647.
  • Everts, H. G. J., De Ruiter, A. J. H., & Koolhaas, J. M. (1997). Differential lateral septal vasopressin in wild-type rats: Correlation with aggression: Hormones and Behavior Vol 31(2) Apr 1997, 136-144.
  • Everts, H. G. J., & Koolhaas, J. M. (1997). Lateral septal vasopressin in rats: Role in social and object recognition? : Brain Research Vol 760(1-2) Jun 1997, 1-7.
  • Everts, H. G. J., & Koolhaas, J. M. (1999). Differential modulation of lateral septal vasopressin receptor blockade in spatial learning, social recognition, and anxiety-related behaviors in rats: Behavioural Brain Research Vol 99(1) Feb 1999, 7-16.
  • Faiman, C. P., de Erausquin, G. A., & Baratti, C. M. (1987). Mecamylamine prevents the enhancement of retention induced by lysine vasopressin in mice: Behavioral & Neural Biology Vol 48(3) Nov 1987, 434-439.
  • Faiman, C. P., de Erausquin, G. A., & Baratti, C. M. (1988). Vasopressin modulates the activity of nicotinic cholinergic mechanisms during memory retrieval in mice: Behavioral & Neural Biology Vol 50(1) Jul 1988, 112-119.
  • Faiman, C. P., de Erausquin, G. A., & Baratti, C. M. (1991). The enhancement of retention induced by vasopressin in mice may be mediated by an activation of central nicotinic cholinergic mechanisms: Behavioral & Neural Biology Vol 56(2) Sep 1991, 183-199.
  • Fehm-Wolfsdorf, G., Bachholz, G., Born, J., Voigt, K., & et al. (1988). Vasopressin but not oxytocin enhances cortical arousal: An integrative hypothesis on behavioral effects of neurohypophyseal hormones: Psychopharmacology Vol 94(4) Apr 1988, 496-500.
  • Fehm-Wolfsdorf, G., & Born, J. (1991). Behavioral effects of neurohypophyseal peptides in healthy volunteers: 10 years of research: Peptides Vol 12(6) Nov-Dec 1991, 1399-1406.
  • Fehm-Wolfsdorf, G., Born, J., Voigt, K., & Fehm, H.-L. (1988). Psychological and electrophysiological evidence for vasopressin effects in human memory. Kirkland, WA: Hans Huber Publishers.
  • Fehm-Wolfsdorf, G., Born, J., Voigt, K.-H., & Fehm, H.-L. (1984). Behavioral effects of vasopressin: A single case study: Neuropsychobiology Vol 11(1) 1984, 49-53.
  • Fehm-Wolfsdorf, G., Born, J., Voigt, K.-H., & Fehm, H.-L. (1984). Human memory and neurohypophyseal hormones: Opposite effects of vasopressin and oxytocin: Psychoneuroendocrinology Vol 9(3) 1984, 285-292.
  • Fehm-Wolfsdorf, G., & et al. (1985). Vasopressin does not enhance memory processes: A study in human twins: Peptides Vol 6(2) Mar-Apr 1985, 297-300.
  • Fekete, M., Van Ree, J. M., & de Wied, D. (1986). The ACTH-(4-9) analog ORG 2766 and desglycinamide-9-(Arg-8)-vasopressin reverse the retrograde amnesia induced by disrupting circadian rhythms in rats: Peptides Vol 7(4) Jul-Aug 1986, 563-568.
  • Fernandas, L. G., Antunes, V. R., Bonagamba, L. G. H., & Machado, B. H. (2005). Pressor response to chemoreflex activation in awake rats: Role of vasopressin and adrenal medulla: Physiology & Behavior Vol 84(1) Jan 2005, 39-44.
  • Ferris, C. (1992). Role of vasopressin in aggressive and dominant/subordinate behaviors. New York, NY: New York Academy of Sciences.
  • Ferris, C. F. (1996). Serotonin diminishes aggression by suppressing the activity of the vasopressin system. New York, NY: New York Academy of Sciences.
  • Ferris, C. F., & Delville, Y. (1994). Vasopressin and serotonin interactions in the control of agonistic behavior: Psychoneuroendocrinology Vol 19(5-7) 1994, 593-601.
  • Ferris, C. F., Delville, Y., Bonigut, S., & Miller, M. A. (1999). Galanin antagonizes vasopressin-stimulated flank marking in male golden hamsters: Brain Research Vol 832(1-2) Jun 1999, 1-6.
  • Ferris, C. F., Delville, Y., Grzonka, Z., Luber-Narod, J., & et al. (1993). An iodinated vasopressin (V-sub-1) antagonist blocks flank marking and selectively labels neural binding sites in golden hamsters: Physiology & Behavior Vol 54(4) Oct 1993, 737-747.
  • Ferris, C. F., Delville, Y., Irvin, R. W., & Potegal, M. (1994). Septo-hypothalamic organization of a stereotyped behavior controlled by vasopressin in golden hamsters: Physiology & Behavior Vol 55(4) Apr 1994, 755-759.
  • Ferris, C. F., & et al. (1984). Vasopressin injected into the hypothalamus triggers a stereotypic behavior in golden hamsters: Science Vol 224(4648) May 1984, 521-523.
  • Ferris, C. F., Lu, S.-f., Messenger, T., Guillon, C. D., Heindel, N., Miller, M., et al. (2006). Orally active vasopressin V1a receptor antagonist, SRX251, selectively blocks aggressive behavior: Pharmacology, Biochemistry and Behavior Vol 83(2) Feb 2006, 169-174.
  • Ferris, C. F., Meenan, D. M., Axelson, J. F., & Albers, H. E. (1986). A vasopressin antagonist can reverse dominant/subordinate behavior in hamsters: Physiology & Behavior Vol 38(1) 1986, 135-138.
  • Ferris, C. F., Melloni, R. H., Jr., Koppel, G., Perry, K. W., & et al. (1997). Vasopressin/serotonin interactions in the anterior hypothalamus control aggressive behavior in golden hamsters: Journal of Neuroscience Vol 17(11) Jun 1997, 4331-4340.
  • Ferris, C. F., & Potegal, M. (1988). Vasopressin receptor blockade in the anterior hypothalamus suppresses aggression in hamsters: Physiology & Behavior Vol 44(2) 1988, 235-239.
  • Ferris, C. F., Stolberg, T., & Delville, Y. (1999). Serotonin regulation of aggressive behavior in male golden hamsters (Mesocricetus auratus): Behavioral Neuroscience Vol 113(4) Aug 1999, 804-815.
  • Fewtrell, W. D., & et al. (1982). Effects of vasopressin on memory and new learning in a brain-injured population: Psychological Medicine Vol 12(2) May 1982, 423-425.
  • Filipova, M., Jung, M., Filip, V., & Krejcova, H. (1989). Clinical efficacy of 1-desamino-8-D-arginine-vasopressin (DDAVP) in short-term recovery from minor head injury: Human Psychopharmacology: Clinical and Experimental Vol 4(1) Mar 1989, 47-50.
  • Finkelberg, F., Kalant, H., & le Blanc, A. E. (1978). Effect of vasopressin-like peptides on consumption of ethanol by the rat: Pharmacology, Biochemistry and Behavior Vol 9(4) Oct 1978, 453-458.
  • Fliers, E., Swaab, D. F., Pool, C. W., & Verwer, R. W. (1985). The vasopressin and oxytocin neurons in the human supraoptic and paraventricular nucleus: Changes with aging and in senile dementia: Brain Research Vol 342(1) Sep 1985, 45-53.
  • Flynn, F. W. (2002). Sodium deficiency enhances the behavioral responses to centrally administered vasopressin in rats: Peptides Vol 23(8) Aug 2002, 1427-1432.
  • Fowler, R. C., Kronfol, Z. A., & Perry, P. J. (1977). Water intoxication, psychosis, and inappropriate secretion of antidiuretic hormone: Archives of General Psychiatry Vol 34(9) Sep 1977, 1097-1099.
  • Franceschini, R., Leandri, M., Cataldi, A., Bruno, E., & et al. (1995). Raised plasma arginine vasopressin concentrations during cluster headache attacks: Journal of Neurology, Neurosurgery & Psychiatry Vol 59(4) Oct 1995, 381-383.
  • Francis, D. D., Young, L. J., Meaney, M. J., & Insel, T. R. (2002). Naturally Occurring Differences in Maternal Care are Associated with the Expression of Oxytocin and Vasopressin (V1a) Receptors: Gender Differences: Journal of Neuroendocrinology Vol 14(5) May 2002, 349-353.
  • Frank, G. K., Kaye, W. H., Altemus, M., & Greeno, C. G. (2000). CSF oxytocin and vasopressin levels after recovery from bulimia nervosa and anorexia nervosa, bulimic subtype: Biological Psychiatry Vol 48(4) Aug 2000, 315-318.
  • Frazier, C. R. M., Trainor, B. C., Cravens, C. J., Whitney, T. K., & Marler, C. A. (2006). Paternal behavior influences development of aggression and vasopressin expression in male California mouse offspring: Hormones and Behavior Vol 50(5) Dec 2006, 699-707.
  • Fricchione, G., Kelleher, S., & Ayyala, M. (1987). Coexisting central diabetes insipidus and psychogenic polydipsia: Journal of Clinical Psychiatry Vol 48(2) Feb 1987, 75-76.
  • Fujiwara, M., Ohgami, Y., Inada, K., & Iwasaki, K. (1997). Effect of active fragments of arginine-vasopressin on the disturbance of spatial cognition in rats: Behavioural Brain Research Vol 83(1-2) Feb 1997, 91-96.
  • Fujiyoshi, K., Suga, H., Okamoto, K., Nakamura, S., & et al. (1987). Reduction of arginine-vasopressin in the cerebral cortex in Alzheimer type senile dementia: Journal of Neurology, Neurosurgery & Psychiatry Vol 50(7) Jul 1987, 929-932.
  • Gadient, S. D. P. (1996). The effects of bilateral adrenalectomy and colchicine on vasopressin and corticotropin-releasing factor immunoreactivity in the paraventricular nucleus of female Syrian hamsters. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Gaffori, O. J., & de Wied, D. (1986). Time-related memory effects of vasopressin analogues in rats: Pharmacology, Biochemistry and Behavior Vol 25(6) Dec 1986, 1125-1129.
  • Gais, S., Sommer, M., Fischer, S., Perras, B., & Born, J. (2002). Post-trial administration of vasopressin in humans does not enhance memory formation (vasopressin and memory consolidation): Peptides Vol 23(3) Mar 2002, 581-583.
  • Gasanov, G. G., Telegdy, G., Ibragimov, R. S., & Kadar, T. (1986). Influence of neurohypophysis peptides on formation of food conditioned reflex in rats: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 36(5) Sep-Oct 1986, 905-912.
  • Gash, D. M., & et al. (1982). Behavioral modification in Brattleboro rats due to vasopressin administration and neural transplantation: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 672-681.
  • Gash, D. M., & Thomas, G. J. (1983). What is the importance of vasopressin in memory processes? : Trends in Neurosciences Vol 6(6) Jun 1983, 197-198.
  • Geller, B., Tillman, R., Badner, J. A., & Cook, E. H., Jr. (2005). Are the arginine vasopressin V1a receptor microsatellites related to hypersexuality in children with a prepubertal and early adolescent bipolar disorder phenotype? : Bipolar Disorders Vol 7(6) Dec 2005, 610-616.
  • Gibbs, D. M. (1986). Vasopressin and oxytocin: Hypothalamic modulators of the stress response: A review: Psychoneuroendocrinology Vol 11(2) 1986, 131-139.
  • Gibbs, M. E., de Vaus, J., & Ng, K. T. (1986). Effect of stress-related hormones on short term memory: Behavioural Brain Research Vol 19(1) Jan 1986, 1-6.
  • Gillis, B. J., & Cain, D. P. (1986). Kindling of the hippocampus and septum in vasopressin-deficient rats (brattleboro strain): Brain Research Vol 363(2) Jan 1986, 386-389.
  • Gilot, P., Crabbe, J., & Legros, J. J. (1980). Mnesic function in 5 patients suffering from central idiopathic diabetes insipidus: Acta Psychiatrica Belgica Vol 80(5) Sep-Oct 1980, 755-761.
  • Gispen-de Wied, C. C., Westenberg, H. G., Koppeschaar, H. P., Thijssen, J. H., & et al. (1992). Stimulation of the pituitary-adrenal axis with a low dose: European Neuropsychopharmacology Vol 2(4) Dec 1992, 411-419.
  • Goekoop, J. G., de Winter, R. P. F., de Rijk, R., Zwinderman, K. H., Frankhuijzen-Sierevogel, A., & Wiegant, V. M. (2006). Depression with above-normal plasma vasopressin: Validation by relations with family history of depression and mixed anxiety and retardation: Psychiatry Research Vol 141(2) Feb 2006, 201-211.
  • Gold, P. W., Kaye, W., Robertson, G. L., & Ebert, M. H. (1983). Abnormalities in plasma and cerebrospinal-fluid arginine vasopressin in patients with anorexia nervosa: New England Journal of Medicine Vol 308(19) May 1983, 1117-1123.
  • Gold, P. W., Post, R. M., Weingartner, H., & Goodwin, F. K. (1981). Central peptide function in affective illness: Arginine vasopressin as a model system: Advances in Biological Psychiatry Vol 7 1981, 42-70.
  • Goldman, M. B. (1991). Vasopressin in polydipsia: British Journal of Psychiatry Vol 158 Apr 1991, 569.
  • Goldman, M. B., & Nettles, K. W. (1996). Influence of the hippocampus/subiculum on antidiuretic hormone levels during stress: Psychoneuroendocrinology Vol 21(7) Oct 1996, 593-597.
  • Goodson, J. L., & Bass, A. H. (2001). Erratum to" "Social behavior functions and related anatomical characteristics of vasotocin/vasopressin systems in vertebrates." Brain Research Reviews Vol 36(1) Aug 2001, 91-94.
  • Goodson, J. L., & Bass, A. H. (2001). Social behavior functions and related anatomical characteristics of vasotocin/vasopressin systems in vertebrates: Brain Research Reviews Vol 35(3) Jul 2001, 246-265.
  • Goodson, J. L., & Evans, A. K. (2004). Neural responses to territorial challenge and nonsocial stress in male song sparrows: Segregation, integration, and modulation by a vasopressin V-sub-1 antagonist: Hormones and Behavior Vol 46(4) Nov 2004, 371-381.
  • Granot, R. Y., Frankel, Y., Gritsenko, V., Lerer, E., Gritsenko, I., Bachner-Melman, R., et al. (2007). Provisional evidence that the arginine vasopressin 1a receptor gene is associated with musical memory: Evolution and Human Behavior Vol 28(5) Sep 2007, 313-318.
  • Gray, P. B., Parkin, J. C., & Samms-Vaughan, M. E. (2007). Hormonal correlates of human paternal interactions: A hospital-based investigation in urban Jamaica: Hormones and Behavior Vol 52(4) Nov 2007, 499-507.
  • Greenberg, D., & Belmaker, R. H. (1985). DDAVP as a possible method to enhance positive benefit of behaviour therapy: British Journal of Psychiatry Vol 147 Dec 1985, 713-715.
  • Griffioen, H. A., Duindam, H., Van der Woude, T. P., Rietveld, W. J., & et al. (1993). Functional development of fetal suprachiasmatic nucleus grafts in suprachiasmatic nucleus-lesioned rats: Brain Research Bulletin Vol 31(1-2) 1993, 145-160.
  • Grimes, J. M., Ricci, L. A., & Melloni, R. H., Jr. (2006). Plasticity in Anterior Hypothalamic Vasopressin Correlates With Aggression During Anabolic-Androgenic Steroid Withdrawal in Hamsters: Behavioral Neuroscience Vol 120(1) Feb 2006, 115-124.
  • Grimes, J. M., Ricci, L. A., & Melloni, R. H., Jr. (2007). Alterations in anterior hypothalamic vasopressin, but not serotonin, correlate with the temporal onset of aggressive behavior during adolescent anabolic-androgenic steroid exposure in hamsters (Mesocricetus auratus): Behavioral Neuroscience Vol 121(5) Oct 2007, 941-948.
  • Grinevich, V. V., & Polenov, A. L. (1998). Morphofunctional specialization of the main and accessory magnocellular neuroendocrine nuclei of the hypothalamus: Neuroscience and Behavioral Physiology Vol 28(6) Nov-Dec 1998, 710-714.
  • Guard, O., Marchal, G., Graule, A., Dumas, R., & et al. (1986). Effects of vasopressin and desmopressin on memory: A double-blind study in 40 healthy volunteers: Neuropsychobiology Vol 15(2) Jul 1986, 80-83.
  • Gulati, K., Ray, A., & Sharma, K. K. (1991). Effects of acute and chronic morphine on food intake in rats: Modulation by oxytocin and vasopressin: Pharmacology, Biochemistry and Behavior Vol 40(1) Sep 1991, 27-32.
  • Gulati, K., Ray, A., & Sharma, K. K. (1992). Effects of acute and chronic ketocyclazocine and its modulation by oxytocin or vasopressin on food intake in rats: Pharmacology, Biochemistry and Behavior Vol 41(1) Jan 1992, 7-12.
  • Gulati, K., Ray, A., & Sharma, K. K. (1993). "Effects of acute and chronic ketocyclazocine and its modulation by oxytocin or vasopressin on food intake in rats": Erratum: Pharmacology, Biochemistry and Behavior Vol 44(3) Mar 1993, 749.
  • Gulati, K., Ray, A., & Sharma, K. K. (1993). "Effects of acute and chronic morphine on food intake in rats: Modulation by oxytocin and vasopressin": Erratum: Pharmacology, Biochemistry and Behavior Vol 44(3) Mar 1993, 749.
  • Hagan, J. J. (1982). Effects of lysine vasopressin and response prevention on avoidance responding in extinction: Behavioral & Neural Biology Vol 36(2) Oct 1982, 204-210.
  • Hagan, J. J. (1983). Post training lysine-vasopressin in injections increase conditioned suppression in rats: Physiology & Behavior Vol 31(6) Dec 1983, 765-769.
  • Hagan, J. J., & Bohus, B. (1984). Vasopressin prolongs bradycardiac response during orientation: Behavioral & Neural Biology Vol 41(1) May 1984, 77-83.
  • Hagan, J. J., Bohus, B., & de Wied, D. (1982). Post-training vasopressin injections may facilitate or delay shuttle-box avoidance extinction: Behavioral & Neural Biology Vol 36(3) Nov 1982, 211-228.
  • Hajdu, I., Szentirmai, E., Obal, F., Jr., & Krueger, J. M. (2003). Different brain structures mediate drinking and sleep suppression elicited by the somatostatin analog, octreotide, in rats: Brain Research Vol 994(1) Dec 2003, 115-123.
  • Hamburger, R., Sela, A., & Belmaker, R. H. (1985). Differences in learning and extinction in response to vasopressin in six inbred mouse strains: Psychopharmacology Vol 87(1) Sep 1985, 124-125.
  • Hamburger-Bar, R., Ebstein, R. P., & Belmaker, R. H. (1984). Vasopressin effect on learning in 6-hydroxydopamine-pretreated rats: Correlation with caudate vasopressin levels: Biological Psychiatry Vol 19(5) May 1984, 735-743.
  • Hamburger-Bar, R., Klein, A., & Belmaker, R. H. (1985). The effect of chronic vs. acute injection of vasopressin on animal learning and memory: Peptides Vol 6(1) Jan-Feb 1985, 23-25.
  • Hamburger-Bar, R., & Newman, M. E. (1985). Effects of vasopressin on noradrenaline-induced cyclic AMP accumulation in rat brain slices: Pharmacology, Biochemistry and Behavior Vol 22(2) Feb 1985, 183-187.
  • Hammock, E. A. D., Lim, M. M., Nair, H. P., & Young, L. J. (2005). Association of vasopressin 1a receptor levels with a regulatory microsatellite and behavior: Genes, Brain & Behavior Vol 4(5) Jul 2005, 289-301.
  • Hammock, E. A. D., & Young, L. J. (2002). Variation in the vasopressin V1a receptor promoter and expression: Implications for inter- and intraspecific variation in social behaviour: European Journal of Neuroscience Vol 16(3) Aug 2002, 399-402.
  • Hannon, K. M. (1976). Effects of ADH on drinking behavior in food deprived gerbils: Journal of Undergraduate Psychological Research Vol 3(1) Jul 1976, 50-56.
  • Hayes, U. L. (2003). The interaction between the aversive properties of arginine vasopressin and its modulation of extinction of a lithium chloride-induced conditioned taste avoidance. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Hayes, U. L., & Chambers, K. C. (2002). Central infusion of vasopressin in male rats accelerates extinction of conditioned taste avoidance induced by LiCl: Brain Research Bulletin Vol 57(5) Mar 2002, 727-733.
  • Hayes, U. L., & Chambers, K. C. (2005). High doses of vasopressin delay the onset of extinction and strengthen acquisition of LiCl-induced conditioned taste avoidance: Physiology & Behavior Vol 84(4) Mar 2005, 625-633.
  • Hayes, U. L., & Chambers, K. C. (2005). Peripheral vasopressin accelerates extinction of conditioned taste avoidance: Physiology & Behavior Vol 84(1) Jan 2005, 147-156.
  • Heath, J., Hanson, D., Long, R., & Crowell, N. A. (2005). Critical care providers' perceptions of the use of vasopressin in cardiac arrest: American Journal of Critical Care Vol 14(6) Nov 2005, 481-493.
  • Hennessey, A. C., Huhman, K. L., & Albers, H. E. (1994). Vasopressin and sex differences in hamster flank marking: Physiology & Behavior Vol 55(5) May 1994, 905-911.
  • Hennessey, A. C., Whitman, D. C., & Albers, H. E. (1992). Microinjection of arginine-vasopressin into the periaqueductal gray stimulates flank marking in Syrian hamsters (Mesocricetus auratus): Brain Research Vol 569(1) Jan 1992, 136-140.
  • Hernandez, L. L. (1985). Vasopressin and ACTH analogs affect orienting but not activity in rabbits: Peptides Vol 6(Suppl 2) 1985, 97-101.
  • Hernandez, L. L., & Powell, D. A. (1983). Vasopressin analog delays extinction of classically conditioned bradycardia: Peptides Vol 4(1) Jan-Feb 1983, 37-41.
  • Hess, J., Lesser, D., & Landgraf, R. (1992). Vasopressin and oxytocin in brain areas of rats selectively bred for differences in behavioral performance: Brain Research Vol 569(1) Jan 1992, 106-111.
  • Hijman, R., Jolles, J., Verhoeven, W. M., Van Ree, J. M., & et al. (1992). Desglycinamide-(Arg-8)-vasopressin in five trials with memory-disturbed patients: Human Psychopharmacology: Clinical and Experimental Vol 7(1) Jan-Feb 1992, 7-23.
  • Hiller, J. (2004). Speculations on the links between feelings, emotions and sexual behaviour: Are vasopressin and oxytocin involved? : Sexual and Relationship Therapy Vol 19(4) Nov 2004, 393-429.
  • Hillhouse, E. W., & Milton, N. G. N. (1989). Neurotransmitter regulation of CRF secretion in vitro. Madison, CT: International Universities Press, Inc.
  • Hirate, K., Hirano, M., Nakajima, Y., Hiyama, A., & et al. (1997). No. 302, a newly synthesized: Behavioural Brain Research Vol 83(1-2) Feb 1997, 205-208.
  • Hirayama, T., Kita, T., Ogawa, Y., Ohsawa, H., Yamashita, M., Nakashima, T., et al. (2001). Effect of chronic treatment with haloperidol on vasopressin release and behavioral changes by osmotic stimulation of the supraoptic nucleus: Life Sciences Vol 69(18) Sep 2001, 2147-2156.
  • Hlavicka, P., Skopkova, J., Hrbas, P., Radil, T., & et al. (1985). Influence of des-Gly NH-sub-2 arginine-vasopressin on hippocampal theta activity in freely moving rats: Activitas Nervosa Superior Vol 27(4) Dec 1985, 286-287.
  • Hochstetler, K. J., Garland, T., Jr., Swallow, J. G., Carter, P. A., & Bult-Ito, A. (2004). Number of arginine-vasopressin neurons in the suprachiasmatic nuclei is not related to level or circadian characteristics of wheel-running activity in house mice: Behavior Genetics Vol 34(1) Jan 2004, 131-136.
  • Hoffman, P. L. (1982). Structural requirements for neurohypophyseal peptide maintenance of ethanol tolerance: Pharmacology, Biochemistry and Behavior Vol 17(4) Oct 1982, 685-690.
  • Hoffman, P. L., & Tabakoff, B. (1984). Neurohypophyseal peptides maintain tolerance to the incoordinating effects of ethanol: Pharmacology, Biochemistry and Behavior Vol 21(4) Oct 1984, 539-543.
  • Hofman, M. A., & Swaab, D. F. (1993). Diurnal and seasonal rhythms of neuronal activity in the suprachiasmatic nucleus of humans: Journal of Biological Rhythms Vol 8(4) Win 1993, 283-295.
  • Hofman, M. A., & Swaab, D. F. (1994). Alterations in circadian rhythmicity of the vasopressin-producing neurons of the human suprachiasmatic nucleus (SCN) with aging: Brain Research Vol 651(1-2) Jul 1994, 134-142.
  • Hofman, M. A., & Swaab, D. F. (1995). Influence of aging on the seasonal rhythm of the vasopressin-expressing neurons in the human suprachiasmatic nucleus: Neurobiology of Aging Vol 16(6) Nov-Dec 1995, 965-971.
  • Hogarty, D. C., Speakman, E. A., Puig, V., & Phillips, M. I. (1992). The role of angiotensin, AT-sub-1 and AT-sub-2 receptors in the pressor, drinking and vasopressin responses to central angiotensin: Brain Research Vol 586(2) Jul 1992, 289-294.
  • Hoglund, A. U., & Meyerson, B. J. (1982). Effects of lysine-vasopressin in an exploratory behaviour test situation: Physiology & Behavior Vol 29(2) Aug 1982, 189-193.
  • Hoglund, A. U., & Meyerson, B. J. (1984). Facilitatory effects of monoamine synthesis inhibitors on lysine-vasopressin induced changes in the exploratory behaviour pattern of male rats: Pharmacology, Biochemistry and Behavior Vol 21(6) Dec 1984, 859-863.
  • Hoorneman, E. M., & Buijs, R. M. (1982). Vasopressin fiber pathways in the rat brain following suprachiasmatic nucleus lesioning: Brain Research Vol 243(2) Jul 1982, 235-241.
  • Hori, E., Uwano, T., Tamura, R., Miyake, N., Nishijo, H., & Ono, T. (2002). Effects of a novel arginine-vasopressin derivative, NC-1900, on the spatial memory impairment of rats with transient forebrain lischemia: Cognitive Brain Research Vol 13(1) Feb 2002, 1-15.
  • Hostetter, G., Jubb, S. L., & Kozlowski, G. P. (1977). Vasopressin affects the behavior of rats in a positively-rewarded discrimination task: Life Sciences Vol 21(9) Nov 1977, 1323-1328.
  • Houpt, K. A., Thornton, S. N., & Allen, W. R. (1989). Vasopressin in dehydrated and rehydrated ponies: Physiology & Behavior Vol 45(3) Mar 1989, 659-661.
  • Howe, H. E., Somponpun, S. J., & Sladek, C. D. (2004). Role of Neurokinin 3 Receptors in Supraoptic Vasopressin and Oxytocin Neurons: Journal of Neuroscience Vol 24(45) 2004, 10103-10110.
  • Hugin-Flores, M. E., Steimer, T., Schulz, P., Vallotton, M. B., & Aubert, M. L. (2003). Chronic corticotropin-releasing hormone and vasopressin regulate corticosteroid receptors in rat hippocampus and anterior pituitary: Brain Research Vol 976(2) Jun 2003, 159-170.
  • Huhman, K. L., & Albers, H. E. (1993). Estradiol increases the behavioral response to arginine vasopressin (AVP) in the medial preoptic-anterior hypothalamus: Peptides Vol 14(5) Sep-Oct 1993, 1049-1054.
  • Hwang, B. H., Froehlich, J. C., Hwang, W. S., Lumeng, L., & Li, T.-K. (1998). More vasopressin mRNA in the paraventricular nucleus of alcohol-preferring rats and high alcohol-drinking rats selectively bred for alcohol preference: Alcoholism: Clinical and Experimental Research Vol 22(3) May 1998, 664-669.
  • Hwang, B. H., & Guntz, J. M. (1997). Downregulation of corticotropin-releasing factor mRNA, but not vasopressin mRNA, in the paraventricular hypothalamic nucleus of rats following nutritional stress: Brain Research Bulletin Vol 43(5) 1997, 509-514.
  • Iager, A.-C., Kirch, D. G., Bigelow, L. B., & Karson, C. N. (1986). Treatment of schizophrenia with a vasopressin analogue: American Journal of Psychiatry Vol 143(3) Mar 1986, 375-377.
  • Ibragimov, R. S. (1989). The effect of neurohypophyseal peptides on the formation of conditioned behaviour of active avoidance: Fiziologicheskii Zhurnal SSSR im I M Sechenova Vol 75(1) Jan 1989, 8-12.
  • Ibragimov, R. S. (1990). Influence of neurohypophyseal peptides on the formation of active avoidance conditioned reflex behavior: Neuroscience and Behavioral Physiology Vol 20(3) May-Jun 1990, 189-193.
  • Ibragimov, R. S., Bairamova, F. M., & Dadashev, F. M. (1989). The effect of oxytocin and vasopressin upon individual behavior and the EEG correlates during "open field" test in drug-dependent rats: Fiziologicheskii Zhurnal SSSR im I M Sechenova Vol 75(4) Apr 1989, 441-446.
  • Iijima, M., & Chaki, S. (2007). An arginine vasopressin V-sub(1b) antagonist SSR149415 elicits antidepressant-like effects in an olfactory bulbectomy model: Progress in Neuro-Psychopharmacology & Biological Psychiatry Vol 31(3) Apr 2007, 622-627.
  • Inder, W. J., Donald, R. A., Prickett, T. C. R., Frampton, C. M., Sullivan, P. F., Mulder, R. T., et al. (1997). Arginine vasopressin is associated with hypercortisolemia and suicide attempts in depression: Biological Psychiatry Vol 42(8) Oct 1997, 744-747.
  • Inder, W. J., Prickett, T. C. R., Mulder, R. T., Donald, R. A., & Joyce, P. R. (2001). Reduction in basal afternoon plasma ACTH during early treatment of depression with fluoxetine: Psychopharmacology Vol 156(1) 2001, 73-78.
  • Insel, T. R. (1997). A neurobiological basis of social attachment: American Journal of Psychiatry Vol 154(6) Jun 1997, 726-735.
  • Insel, T. R., & Hulihan, T. J. (1995). A gender-specific mechanism for pair bonding: Oxytocin and partner preference formation in monogamous voles: Behavioral Neuroscience Vol 109(4) Aug 1995, 782-789.
  • Insel, T. R., O'Brien, D. J., & Leckman, J. F. (1999). Oxytocin, vasopressin, and autism: Is there a connection? : Biological Psychiatry Vol 45(2) Jan 1999, 145-157.
  • Insel, T. R., Wang, Z.-X., & Ferris, C. F. (1994). Patterns of brain vasopressin receptor distribution associated with social organization in microtine rodents: Journal of Neuroscience Vol 14(9) Sep 1994, 5381-5392.
  • Iovino, M., Poenaru, S., & Annunziato, L. (1983). Basal and thirst-evoked vasopressin secretion in rats with electrolytic lesion of the medio-ventral septal area: Brain Research Vol 258(1) Jan 1983, 123-126.
  • Irvin, R. W., Szot, P., Dorsa, D. M., Potegal, M., & et al. (1990). Vasopressin in the septal area of the golden hamster controls scent marking and grooming: Physiology & Behavior Vol 48(5) Nov 1990, 693-699.
  • Isobe, Y., & Isobe, M. (1998). Circadiann rhythm of Arg-vasopressin contents in the suprachiasmatic nucleus in relation to corticosterone: Brain Research Vol 800(1) Jul 1998, 78-85.
  • Isobe, Y., & Nishihara, K. (2002). Serotonin-stimulated glutamate release from an SCN explant culture was higher during light period: Brain Research Bulletin Vol 58(4) Aug 2002, 401-404.
  • Isobe, Y., Torii, T., Kawaguchi, T., & Nishino, H. (2004). Dexamethasone induces different wheel running activity than corticosterone through vasopressin release from the suprachiasmatic nucleus: Brain Research Vol 1028(2) Dec 2004, 219-224.
  • Ivanyi, T., Wiegant, V. M., & de Wied, D. (1991). Differential effects of emotional and physical stress on the central and peripheral secretion of neurohypophysial hormones in male rats: Life Sciences Vol 48(13) 1991, 1309-1316.
  • Izquierdo, I., Dalmaz, C., Dias, R. D., & Godoy, M. G. (1988). Memory facilitation by posttraining and pretest ACTH, epinephrine, and vasopressin administration: Two separate effects: Behavioral Neuroscience Vol 102(5) Oct 1988, 803-806.
  • Izquierdo, I., & Pereira, M. E. (1989). Post-training memory facilitation blocks extinction but not retroactive interference: Behavioral & Neural Biology Vol 51(1) Jan 1989, 108-113.
  • Izquierdo, L. A., Schroder, N., Ardenghi, P., Quevedo, J., Netto, C. A., Medina, J. H., et al. (1997). Systemic administration of ACTH or vasopressin reverses the amnestic effect of posttraining beta -endorphin or electroconvulsive shock but not that of intrahippocampal infusion of protein kinase inhibitors: Neurobiology of Learning and Memory Vol 68(2) Sep 1997, 197-202.
  • Jachimowicz, A., Holy, Z., & Wisniewski, K. (1998). The participation of nitric oxide in the facilitator effect of arginine vasopressin on memory: Acta Neurobiologiae Experimentalis Vol 58(1) 1998, 37-45.
  • Jansen, K., Van der Zee, E. A., & Gerkema, M. P. (2000). Being circadian or not: Vaspressin release in cultured SCN mirrors behavior in adult voles: Neuroreport: For Rapid Communication of Neuroscience Research Vol 11(16) Nov 2000, 3555-3558.
  • Jeffries, J. J., & Al-jeshi, A. (1996). Desmopressin for enuresis in psychiatric patients: The Canadian Journal of Psychiatry / La Revue canadienne de psychiatrie Vol 41(5) Jun 1996, 317-318.
  • Jenkins, J. S., Mather, H. M., & Coughlan, A. K. (1982). Effect of desmopressin on normal and impaired memory: Journal of Neurology, Neurosurgery & Psychiatry Vol 45(9) Sep 1982, 830-831.
  • Jennekens-Schinkel, A., Wintzen, A. R., & Lanser, J. B. (1985). A clinical trial with desglycinamide arginine vasopressin for the treatment of memory disorders in man: Progress in Neuro-Psychopharmacology & Biological Psychiatry Vol 9(3) 1985, 273-284.
  • Jennings, J. R., Nebes, R. D., & Reynolds, C. F. (1986). Vasopressin peptide (DDAVP) may narrow the focus of attention in normal elderly: Psychiatry Research Vol 17(1) Jan 1986, 31-39.
  • Jentsch, J. D. (2003). Genetic Vasopressin Deficiency Facilitates Performance of a Lateralized Reaction-Time Task: Altered Attention and Motor Processes: Journal of Neuroscience Vol 23(3) Feb 2003, 1066-1071.
  • Jentsch, J. D., Arguello, P. A., & Anzivino, L. A. (2003). Null Mutation of the Arginine-Vasopressin Gene in Rats Slows Attentional Engagement and Facilitates Response Accuracy in a Lateralized Reaction Time Task: Neuropsychopharmacology Vol 28(9) Sep 2003, 1597-1605.
  • Jezova, D., Skultetyova, I., Tokarev, D. I., Bakos, P., & Vigas, M. (1995). Vasopressin and oxytocin in stress. New York, NY: New York Academy of Sciences.
  • Jia, J., & Jia, J. (1995). Ischemic-induced irreversible deficit of memory function in Wistar rats: Acta Psychologica Sinica Vol 27(1) 1995, 69-77.
  • Johnstone, L. E., Srisawat, R., Kumarnsit, E., & Leng, G. (2005). Hypothalamic expression of NPY mRNA, vasopressin mRNA and CRF mRNA in response to food restriction and central administration of the orexigenic peptide GHRP-6: Stress: The International Journal on the Biology of Stress Vol 8(1) Mar 2005, 59-67.
  • Jolkkonen, J., Helkala, E. L., Kutvonen, R., Lehtinen, M., & et al. (1989). Vasopressin levels in CSF of Alzheimer patients: Correlations with monoamine metabolites and neuropsychological test performance: Psychoneuroendocrinology Vol 14(1-2) 1989, 89-95.
  • Jorgensen, H., Kjaer, A., Knigge, U., Moller, M., & Warberg, J. (2003). Serotonin Stimulates Hypothalamic mRNA Expression and Local Release of Neurohypophysial Peptides: Journal of Neuroendocrinology Vol 15(6) Jun 2003, 564-571.
  • Jorgensen, H., Riis, M., Knigge, U., Kjaer, A., & Warberg, J. (2003). Serotonin Receptors Involved in Vasopressin and Oxytocin Secretion: Journal of Neuroendocrinology Vol 15(3) Mar 2003, 242-249.
  • Judge, M. E., & Quartermain, D. (1982). Alleviation of anisomycin-induced amnesia by pre-test treatment with lysine-vasopressin: Pharmacology, Biochemistry and Behavior Vol 16(3) Mar 1982, 463-466.
  • Kalin, N. H., & et al. (1985). Behavioral stress decreases plasma oxytocin concentrations in primates: Life Sciences Vol 36(13) Apr 1985, 1275-1280.
  • Kalsbeek, A., Buijs, R. M., Van Heerikhuize, J. J., Arts, M., & et al. (1992). Vasopressin-containing neurons of the suprachiasmatic nuclei inhibit corticosterone release: Brain Research Vol 580(1-2) May 1992, 62-67.
  • Kalsbeek, A., van Heerikhuize, J. J., Wortel, J., & Buijs, R. M. (1998). Restricted daytime feeding modifies suprachiasmatic nucleus vasopressin release in rats: Journal of Biological Rhythms Vol 13(1) Feb 1998, 18-29.
  • Kasting, N. W., Veale, W. L., & Cooper, K. E. (1982). Vasopressin: A homeostatic effector in the febrile process: Neuroscience & Biobehavioral Reviews Vol 6(2) Sum 1982, 215-222.
  • Kasting, N. W., Veale, W. L., Cooper, K. E., & Lederis, K. (1981). Vasopressin may mediate febrile convulsions: Brain Research Vol 213(2) Jun 1981, 327-333.
  • Kathol, R. G., Jaeckle, R. S., Lopez, J. F., & Meller, W. H. (1989). Consistent reduction of ACTH responses to stimulation with CRH, vasopressin and hypoglycaemia in patients with major depression: British Journal of Psychiatry Vol 155 Oct 1989, 468-478.
  • Katz, G., Spivak, B., Mester, R., Grinshpoon, A., & Weizman, A. (1997). Desmopressin (DDAVP) treatment in adult sleep-related enuresis: Human Psychopharmacology: Clinical and Experimental Vol 12(5) Sep-Oct 1997, 505-507.
  • Kaye, W. H., Gwirtsman, H. E., & George, D. T. (1989). The effect of bingeing and vomiting on hormonal secretion: Biological Psychiatry Vol 25(6) Mar 1989, 768-780.
  • Keck, M. E., Sillaber, I., Ebner, K., Welt, T., Toschi, N., Kaehler, S. T., et al. (2000). Acute transcranial magnetic stimulation of frontal brain regions selectively modulates the release of vasopressin, biogenic amines and amino acids in the rat brain: European Journal of Neuroscience Vol 12(10) Oct 2000, 3713-3720.
  • Keck, M. E., Welt, T., Erhardt, A., Muller, M. B., & Sillaber, I. (2003). Neuroendocrinological changes induced by transcranial magnetic stimulation {rTMS) - A focus on dopamine and vasopressin: Nervenheilkunde: Zeitschrift fur interdisziplinaere Fortbildung Vol 22(7) 2003, 346-349.
  • Keck, M. E., Welt, T., Muller, M. B., Uhr, M., Ohl, F., Wigger, A., et al. (2003). Reduction of hypothalamic vasopressinergic hyperdrive contributes to clinically relevant behavioral and neuroendocrine effects of chronic paroxetine treatment in a psychopathological rat model: Neuropsychopharmacology Vol 28(2) Feb 2003, 235-243.
  • Kellner, M., Herzog, L., Holsboer, F., & Wiedemann, K. (1995). Circadian changes in the sensitivity of the corticotropin-releasing hormone-stimulated HPA system after arginine vasopressin and atrial natriuretic hormones in human male controls: Psychoneuroendocrinology Vol 20(5) 1995, 515-524.
  • Kessler, M. S., Murgatroyd, C., Bunck, M., Czibere, L., Frank, E., Jacob, W., et al. (2007). Diabetes insipidus and, partially, low anxiety-related behaviour are linked to a SNP-associated vasopressin deficit in LAB mice: European Journal of Neuroscience Vol 26(10) Nov 2007, 2857-2864.
  • Keverne, E. B., & Curley, J. P. (2004). Vasopressin, oxytocin and social behaviour: Current Opinion in Neurobiology Vol 14(6) Dec 2004, 777-783.
  • Kim, S. J., Young, L. J., Gonen, D., Veenstra-VanderWeele, J., Courchesne, R., Courchesne, E., et al. (2002). Transmission disequilibrium testing of arginine vasopressin receptor 1A (AVPR1A) polymorphisms in autism: Molecular Psychiatry Vol 7(5) 2002, 503-507.
  • Kimura, T., Okanoya, K., & Wada, M. (1999). Effect of testosterone on the distribution of vasotocin immunoreactivity in the brain of the zebra finch, taeniopygia guttata castanotis: Life Sciences Vol 65(16) Sep 1999, 1663-1670.
  • King, A. R., & de Wied, D. (1974). Localized behavioral effects of vasopressin on maintenance of an active avoidance response in rats: Journal of Comparative and Physiological Psychology Vol 86(6) Jun 1974, 1008-1018.
  • Kiss, A., Jezova, D., & Aguilera, G. (1994). Activity of the hypothalamic pituitary adrenal axis and sympathoadrenal system during food and water deprivation in the rat: Brain Research Vol 663(1) Nov 1994, 84-92.
  • Klement'ev, B. I., Ryzhova, L. Y., Ignat'eva, T. V., Konopistseva, L. A., & et al. (1997). Population profile of brain asymmetry in rats after intra-amniotic administration of vasopressin: Neuroscience and Behavioral Physiology Vol 27(3) May-Jun 1997, 283-287.
  • Klementiev, B. I., Ryzhova, L. Y., Ignatieva, T. V., & Konopistseva, L. A. (1995). The effect of intraamniotic administration of vasopressin on the type of brain asymmetry in rats: Fiziologicheskii Zhurnal SSSR im I M Sechenova Vol 81(8) Aug 1995, 104-109.
  • Klimkiewicz, T. (2001). Memory effects of arginine vasopressin (AVP) and: Acta Neurobiologiae Experimentalis Vol 61(4) 2001, 267-276.
  • Knutson, K. K. (1988). Vasopressin's effect on sex differences in cognitive functions: Verbal and spatial abilities and verbal-interference tasks: Dissertation Abstracts International.
  • Koizumi, H. M., Rowe, M., & Clark, R. (1981). Vasopressin (anti-diuretic hormone) for post encephalitic memory loss: A pilot study: Journal of Clinical Psychiatry Vol 42(5) May 1981, 217.
  • Kolbanov, V. V., & et al. (1984). Action of synthetic pituitary neuropeptides on human visual function: Human Physiology Vol 10(3) May-Jun 1984, 169-174.
  • Koob, G. F., & Bissette, G. (1989). Measurement and function of neuropeptides: Focus on corticotropin-releasing factor and arginine vasopressin. New York, NY: Plenum Press.
  • Koob, G. F., & Bloom, F. E. (1982). Behavioral effects of neuropeptides: Endorphins and vasopressin: Annual Review of Physiology Vol 44 1982, 571-582.
  • Koob, G. F., Dantzer, R., Bluthe, R.-M., Lebrun, C., & et al. (1986). Central injections of arginine vasopressin prolong extinction of active avoidance: Peptides Vol 7(2) Mar-Apr 1986, 213-218.
  • Koob, G. F., & et al. (1985). Arginine vasopressin, stress, and memory: Annals of the New York Academy of Sciences Vol 444 1985, 194-202.
  • Koob, G. F., & et al. (1985). Osmotic stress mimics effects of vasopressin on learned behaviour: Nature Vol 315(6022) Jun-Jul 1985, 750-752.
  • Koob, G. F., Lebrun, C., Bluthe, R.-M., Dantzer, R., Dorsa, D. M., & Le Moal, M. (1991). Vasopressin and learning: Peripheral and central mechanisms. Ashland, OH: Hogrefe & Huber Publishers.
  • Koob, G. F., Lebrun, C., Bluthe, R.-M., Dantzer, R., & et al. (1989). Role of neuropeptides in learning versus performance: Focus on vasopressin: Brain Research Bulletin Vol 23(4-5) Oct-Nov 1989, 359-364.
  • Koolhaas, J. M., Van den Brink, T. H., Roozendaal, B., & Boorsma, F. (1990). Medial amygdala and aggressive behavior: Interaction between testosterone and vasopressin: Aggressive Behavior Vol 16(3-4) 1990, 223-229.
  • Kordower, J. H. (1985). Vasopressin analgesia: Specificity of action and non-opioid effects: Dissertation Abstracts International.
  • Kordower, J. H., & Bodnar, R. J. (1984). Vasopressin analgesia: Specificity of action and non-opioid effects: Peptides Vol 5(4) Jul-Aug 1984, 747-756.
  • Kordower, J. H., Sikorszky, V., & Bodnar, R. J. (1982). Central antinociceptive effects of lysine-vasopressin and an analogue: Peptides Vol 3(4) Jul-Aug 1982, 613-617.
  • Kornet, M., Goosen, C., Ribbens, L. G., & Van Ree, J. M. (1991). The effect of desglycinamide-(ARG-8)-vasopressin (DGAVP) on the acquisition of free-choice alcohol drinking in rhesus monkeys: Alcoholism: Clinical and Experimental Research Vol 15(1) Feb 1991, 72-79.
  • Kornet, M., Goosen, C., Thyssen, J. H., & Van Ree, J. M. (1992). Endocrine profile during acquisition of free-choice alcohol drinking in rhesus monkeys: Treatment with desglycinamide-(ARG-8)-vasopressin: Alcohol and Alcoholism Vol 27(4) Jul 1992, 403-410.
  • Korsgaard, S., & et al. (1981). Vasopressin in anergic schizophrenia: A cross-over study with lysine-8-vasopressin and placebo: Psychopharmacology Vol 74(4) Sep 1981, 379-382.
  • Korting, C., van Zwieten, E. J., Boer, G. J., Ravid, R., & et al. (1988). Increase in vasopressin binding sites in the human choroid plexus in Alzheimer's disease: Brain Research Vol 464 1988, 151-154.
  • Kosinski, S. (1986). Effects of intracerebroventricular administration of vasopressin and oxytocin on the extinction of hippocampal theta rhythm in rabbits: Acta Neurobiologiae Experimentalis Vol 46(1) 1986, 27-35.
  • Koupilova, M., Herink, J., Hrdina, V., & Barth, T. (1989). Effects of the synthetic analogue of vasopressin (DGAVP) at systemic and local application on the behaviour of the laboratory rat: Activitas Nervosa Superior Vol 31(3) Oct 1989, 224-225.
  • Koupilova, M., Hrdina, V., Barth, T., & Jost, K. (1986). Our experience with the effects of a vasopressin analogue on the behaviour of laboratory rats: Activitas Nervosa Superior Vol 28(4) Dec 1986, 323-324.
  • Kovacs, G. L., Bohus, B., & Versteeg, D. H. (1979). Facilitation of memory consolidation by vasopressin: Mediation by terminals of the dorsal noradrenergic bundle? : Brain Research Vol 172(1) Aug 1979, 73-85.
  • Kovacs, G. L., & et al. (1979). Effect of oxytocin and vasopressin on memory consolidation: Sites of action and catecholaminergic correlates after local microinjection into limbic-midbrain structures: Brain Research Vol 175(2) Oct 1979, 303-314.
  • Kovacs, G. L., & et al. (1982). Microinjection of arginine-8-vasopressin antiserum into the dorsal hippocampus attenuates passive avoidance behavior in rats: Physiology & Behavior Vol 28(1) Jan 1982, 45-48.
  • Kovacs, G. L., Vecsei, L., & Telegdy, G. (1978). Opposite action of oxytocin to vasopressin in passive avoidance behavior in rats: Physiology & Behavior Vol 20(6) Jun 1978, 801-802.
  • Kovacs, G. L., Veldhuis, H. D., Versteeg, D. H., & de Wied, D. (1986). Facilitation of avoidance behavior by vasopressin fragments microinjected into limbic-midbrain structures: Brain Research Vol 371(1) Apr 1986, 17-24.
  • Kovacs, K. J., Foldes, A., & Sawchenko, P. E. (2000). Glucocorticoid negative feedback selectively targets vasopressin transcription in parvocellular neurosecretory neurons: Journal of Neuroscience Vol 20(10) May 2000, 3843-3852.
  • Kozorovitskiy, Y. (2007). Experience-dependent plasticity in the brains of biparental mammals. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Krahn, D. D., Meller, W. H., Shafer, R. B., & Morley, J. E. (1985). Cortisol response to vasopressin in depression: Biological Psychiatry Vol 20(8) Aug 1985, 918-921.
  • Kruisbrink, J., Mirmiran, M., Van der Woude, T. P., & Boer, G. J. (1987). Effects of enhanced cerebrospinal fluid levels of vasopressin, vasopressin antagonist or vasoactive intestinal polypeptide on circadian sleep-wake rhythm in the rat: Brain Research Vol 419(1-2) Sep 1987, 76-86.
  • Kruse, H., Van Wimersma Greidanus, T. B., & de Wied, D. (1977). Barrel rotation induced by vasopressin and related peptides in rats: Pharmacology, Biochemistry and Behavior Vol 7(4) Oct 1977, 311-313.
  • Kuang, P., Chen, S., Guan, L., Sui, N., Kuang, P., & Zhang, F. (1997). The correlation between arginine respression and somatastation in brain and monocular learning in day-old chicks: Acta Psychologica Sinica Vol 29(Suppl) 1997, 49-52.
  • Kudoh, A., Kudo, M., Ishihara, H., & Matsuki, A. (1998). Increased plasma vasopressin and atrial natriuretic peptide in chronic schizophrenia patients during abdominal surgery: Neuropsychobiology Vol 37(4) Jun 1998, 169-174.
  • Kudryashova, I. V., & Kruglikov, R. I. (1990). Influence of vasopressin analogue on reactions of snail command neurones of defensive behaviour under stimulation of nerve: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 40(4) Jul-Aug 1990, 754-761.
  • Kudryashova, I. V., & Kruglikov, R. I. (1991). Influence of an analog of vasopressin on the reaction of command neurons of defensive behavior of the edible snail during the stimulation of nerves: Neuroscience and Behavioral Physiology Vol 21(6) Nov-Dec 1991, 513-519.
  • Kudryashova, I. V., & Kudryashov, I. E. (1999). The effects of vasopressin on hippocampal slices from trained rats: Neuroscience and Behavioral Physiology Vol 29(3) May-Jun 1999, 289-293.
  • Kuehl-Kovarik, M. C., Iqbal, J., & Jacobson, C. D. (1997). Autoradiographic localization of arginine vasopressin binding sites in the brain of adult and developing Brazilian opossums: Brain, Behavior and Evolution Vol 49(5) May 1997, 261-275.
  • Kumar, K. B., & Karanth, K. S. (1995). Effects of central administration of arginine-vasopressin on aversive memory retrieval: Brain Research Vol 699(2) Nov 1995, 293-296.
  • Labudova, O., Fang-Fircher, S., Cairns, N., Moenkemann, H., Yeghiazaryan, K., & Lubec, G. (1998). Brain vasopressin levels in Down Syndrome and Alzheimer's Disease: Brain Research Vol 806(1) Sep 1998, 55-59.
  • Laczi, F., Burbach, J. P., Van der Kleij, A. A., de Wied, D., & et al. (1991). Vasopressin (1-8) (des-glycinamide-9-[Arg-8]vasopressin) is an endogenous peptide present in rat plasma: Peptides Vol 12(2) Mar-Apr 1991, 329-332.
  • Laczi, F., & et al. (1982). Effects of lysine-vasopressin and 1-deamino-8-{d}-arginine-vasopressin on memory in healthy individuals and diabetes insipidus patients: Psychoneuroendocrinology Vol 7(2-3) Jun-Sep 1982, 185-193.
  • Laczi, F., & et al. (1984). Levels of arginine-vasopressin in cerebrospinal fluid during passive avoidance behavior in rats: Life Sciences Vol 34(24) Jun 1984, 2385-2391.
  • Laczi, F., Gaffori, O., de Kloet, E. R., & de Wied, D. (1983). Arginine-vasopressin content of hippocampus and amygdala during passive avoidance behavior in rats: Brain Research Vol 280(2) Dec 1983, 309-315.
  • Laczi, F., Gaffori, O., de Kloet, E. R., & de Wied, D. (1983). Differential responses in immunoreactive arginine-vasopressin content of microdissected brain regions during passive avoidance behavior: Brain Research Vol 260(2) Feb 1983, 342-346.
  • Lado-Abeal, J., Clapper, J. A., & Norman, R. L. (2001). Antagonism of Central Vasopressin Receptors Blocks Hypoglycemic Stress Induced Inhibition of Luteinizing Hormone Release in Male Rhesus Macaques: Journal of Neuroendocrinology Vol 13(7) Jul 2001, 650-655.
  • Lado-Abeal, J., Clapper, J. A., Zhu, B. C., Hough, C. M., Syapin, P. J., & Norman, R. L. (2002). Hypoglycemia-induced suppression of luteinizing hormone (LH) secretion in intact female rhesus macaques: Role of vasopressin and endogenous opioids: Stress: The International Journal on the Biology of Stress Vol 5(2) 2002, 113-119.
  • Laguna-Abreu, M. T. C., Margatho, L., Germano, C. M. R., Antunes-Rodrigues, J., Elias, L. L. K., & de Castro, M. (2007). The effect of adrenalectomy on Fos expression in vasopressinergic and oxytocinergic neurons in response to stress in the rat: Stress: The International Journal on the Biology of Stress Vol 10(4) Nov 2007, 332-341.
  • Lallemand, F., Ward, R. J., Dravolina, O., & De Witte, P. (2006). Nicotine-induced changes of glutamate and arginine in naive and chronically alcoholized rats: An in vivo microdialysis study: Brain Research Vol 1111(1) Sep 2006, 48-60.
  • Landgraf, R. (2003). Neurobiology and genetics of anxiety in an animal model: Nervenarzt Vol 74(3) 2003, 274-278.
  • Landgraf, R., Frank, E., Aldag, J. M., Neumann, I. D., Sharer, C. A., Ren, X., et al. (2003). Viral vector-mediated gene transfer of the vole V1a vasopressin receptor in the rat septum: Improved social discrimination and active social behaviour: European Journal of Neuroscience Vol 18(2) Jul 2003, 403-411.
  • Landgraf, R., Gerstberger, R., Montkowsi, A., Probst, J. C., & et al. (1995). V1 vasopressin receptor antisense oligodeoxynucleotide into septum reduces vasopressin binding, social discrimination abilities, and anxiety-related behavior in rats: Journal of Neuroscience Vol 15(6) Jun 1995, 4250-4258.
  • Landgraf, R., Kessler, M. S., Bunck, M., Murgatroyd, C., Spengler, D., Zimbelmann, M., et al. (2007). Candidate genes of anxiety-related behavior in HAB/LAB rats and mice: Focus on vasopressin and glyoxalase-I: Neuroscience & Biobehavioral Reviews Vol 31(1) 2007, 89-102.
  • Langhans, W., Delprete, E., & Scharrer, E. (1991). Mechanisms of vasopressin's anorectic effect: Physiology & Behavior Vol 49(1) Jan 1991, 169-176.
  • Laruelle, M., Seghers, A., Goffinet, S., Bouchez, S., & et al. (1990). Plasmatic vasopressin neurophysin in depression: Basic levels and relations with HPA axis: Biological Psychiatry Vol 27(11) Jun 1990, 1249-1263.
  • Laycock, J. F., Chatterji, U., Seckl, J. R., & Gartside, I. B. (1994). The abnormal quinine drinking aversion in the Brattleboro rat with diabetes insipidus is reversed by the vasopressin agonist DDAVP: A possible role for vasopressin in the motivation to drink: Physiology & Behavior Vol 55(3) Mar 1994, 407-412.
  • Laycock, J. F., & Gartside, I. B. (1985). Lack of effect of pitressin on the learning ability of Brattleboro rats with diabetes insipidus using positively reinforced operant conditioning: Physiology & Behavior Vol 35(2) Aug 1985, 243-248.
  • Laycock, J. F., Walter, S. J., Gartside, I. B., & Jones, A. M. (1982). Membrane resting potentials and extracellular potassium ion concentrations in the Brattleboro rat: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 209-216.
  • Le, D. A. (1982). The role of serotonin, catecholamines and vasopressin in ethanol tolerance: Dissertation Abstracts International.
  • le Moal, M., & et al. (1981). Vasopressor receptor antagonist prevents behavioural effects of vasopressin: Nature Vol 291(5815) Jun 1981, 491-493.
  • Leal, A. M. O., Forsling, M. L., & Moreira, A. C. (1994). Diurnal variation of the pituitary-adrenal and AVP responses to stress in rats under food restriction: Life Sciences Vol 56(3) 1994, 191-198.
  • Lebrun, C., le Moal, M., Dantzer, R., Bloom, F. E., & et al. (1987). Hypertonic saline mimics the effects of vasopressin on inhibitory avoidance in the rat: Behavioral & Neural Biology Vol 47(2) Mar 1987, 130-137.
  • LeBrun, C. J., & et al. (1984). Antagonism of effects of vasopressin (AVP) on inhibitory avoidance by a vasopressin antagonist peptide: Life Sciences Vol 35(14) Oct 1984, 1505-1512.
  • Leccese, A. P. (1983). Vasopressin mediation of facilitation of retention by d-amphetamine, strychnine sulfate and physostigmine: Dissertation Abstracts International.
  • Leccese, A. P., & Isenhour, J. L. (1983). Intraventricular administration of antivasopressin serum inhibits retention in mice: Peptides Vol 4(2) Mar-Apr 1983, 265-267.
  • Leckman, J. F., Goodman, W. K., North, W. G., Chappell, P. B., & et al. (1994). Elevated cerebrospinal fluid levels of oxytocin in obsessive-compulsive disorder: Comparison with Tourette's syndrome and healthy controls: Archives of General Psychiatry Vol 51(10) Oct 1994, 782-792.
  • Lee, R., Garcia, F., van de Kar, L. D., Hauger, R. D., & Coccaro, E. F. (2003). Plasma oxytocin in response to pharmaco-challenge to D-fenfluramine and placebo in healthy men: Psychiatry Research Vol 118(2) May 2003, 129-136.
  • Lee, R. J., & Lomax, P. (1983). Thermoregulatory, behavioral and seizure modulatory effects of AVP in the gerbil: Peptides Vol 4(6) Nov-Dec 1983, 801-805.
  • Legros, J. J., & et al. (1983). Neurophysins, vasopressin and cognitive functions in aging: Acta Psychiatrica Belgica Vol 83(4) Jul 1983, 332-348.
  • Legros, J. J., Gazzotti, C., Carvelli, T., Franchimont, P., & et al. (1992). Apomorphine stimulation of vasopressin- and oxytocin-neurophysins: Evidence for increased oxytocinergic and decreased vasopressinergic function in schizophrenics: Psychoneuroendocrinology Vol 17(6) Nov 1992, 611-617.
  • Legros, J.-J., & Ansseau, M. (1986). Vasopressin-neurophysin and bipolar depression: Biological Psychiatry Vol 21(12) Oct 1986, 1212-1216.
  • Legros, J.-J., & Timsit-Berthier, M. (1988). Vasopressin and vasopressin analogues for treatment of memory disorders in clinical practice: Progress in Neuro-Psychopharmacology & Biological Psychiatry Vol 12(Suppl) 1988, 71-86.
  • Lenzinger, E., Meszaros, K., Hornik, K., & Parzer, P. (1996). Correlation between vasopressin baseline and TSH-blunting in depressives: Biological Psychiatry Vol 39(5) Mar 1996, 341-345.
  • Lerer, B., Zabow, T., Egnal, N., & Belmaker, R. H. (1983). Effect of vasopressin on memory following electroconvulsive therapy: Biological Psychiatry Vol 18(7) Jul 1983, 821-824.
  • Leshner, A. I., Hofstein, R., & Samuel, D. (1978). Intraventricular injection of antivasopressin serum blocks learned helplessness in rats: Pharmacology, Biochemistry and Behavior Vol 9(6) Dec 1978, 889-892.
  • Leshner, A. I., & Roche, K. E. (1977). Comparison of the effects of ACTH and lysine vasopressin on avoidance-of-attack in mice: Physiology & Behavior Vol 18(5) May 1977, 879-883.
  • Levy, F., Kendrick, K. M., Goode, J. A., Guevara-Guzman, R., & et al. (1995). Oxytocin and vasopressin release in the olfactory bulb of parturient ewes: Changes with maternal experience and effects on acetylcholine, !g-aminobutyric acid, glutamate and noradrenaline release: Brain Research Vol 669(2) Jan 1995, 197-206.
  • Lim, M. M., Hammock, E. A. D., & Young, L. J. (2004). The Role of Vasopressin in the Genetic and Neural Regulation of Monogamy: Journal of Neuroendocrinology Vol 16(4) Apr 2004, 325-332.
  • Lim, M. M., Wang, Z., Olazabal, D. E., Ren, X., Terwilliger, E. F., & Young, L. J. (2004). Enhanced partner preference in a promiscuous species by manipulating the expression of a single gene: Nature Vol 429(6993) Jun 2004, 754-757.
  • Lin, L., Wu, F., & Xiao, X. (1986). A study of relations between the facilitated effect of DGAVP on memory consolidation processes and cerebral protein synthesis in mice: Acta Psychologica Sinica Vol 18(4) 1986, 396-402.
  • Lissak, K., & Bohus, B. (1972). Pituitary hormones and avoidance behavior of the rat: International Journal of Psychobiology Vol 2(2) Aug 1972, 103-115.
  • Liu, Y., Curtis, J. T., Fowler, C. D., Spencer, C., Houpt, T., & Wang, Z. X. (2001). Differential expression of vasopressin, oxytocin and corticotrophin-releasing hormone messenger RNA in the paraventricular nucleus of the prairie vole brain following stress: Journal of Neuroendocrinology Vol 13(12) Dec 2001, 1059-1065.
  • Liu, Y., Curtis, J. T., & Wang, Z. (2001). Vasopressin in the lateral septum regulates pair bond formation in male prairie voles (Microtus ochrogaster): Behavioral Neuroscience Vol 115(4) Aug 2001, 910-919.
  • Lolait, S. J., Stewart, L. Q., Roper, J. A., Harrison, G., Jessop, D. S., Young, W. S., III, et al. (2007). Attenuated stress response to acute lipopolysaccharide challenge and ethanol administration in vasopressin V1b receptor knockout mice: Journal of Neuroendocrinology Vol 19(7) Jul 2007, 543-551.
  • Lonstein, J. S., & De Vries, G. J. (1999). Sex Differences in the Parental Behaviour of Adult Virgin Prairie Voles: Independence From Gonadal Hormones and Vasopressin: Journal of Neuroendocrinology Vol 11(6) Jun 1999, 441-449.
  • Lopez Ramirez, M., & de Blas Calleja, M. R. (1984). Conduct effects of neuropeptides on learning and memory mechanisms: A theoretical revision: Informes de Psicologia Vol 3(3) 1984, 245-257.
  • Lorenzini, C. A., Bucherelli, C., Giachetti, A., & Tassoni, G. (1988). Aversive conditioning of homozygous and heterozygous D.I. Brattleboro rats in the light-dark box: Physiology & Behavior Vol 42(5) 1988, 439-445.
  • Louis, C., Cohen, C., Depoortere, R., & Griebel, G. (2006). Antidepressant-Like Effects of the Corticotropin-Releasing Factor 1 Receptor Antagonist, SSR125543, and the Vasopressin 1b Receptor Antagonist, SSR1494I5, in a DRL-72 s Schedule in the Rat: Neuropsychopharmacology Vol 31(10) Oct 2006, 2180-2187.
  • Lucassen, P. J., Van Heerikhuize, J. J., Guldenaar, S. E. F., Pool, C. W., Hofman, M. A., & Swaab, D. F. (1997). Unchanged Amounts of Vasopressin mRNA in the Supraoptic and Paraventricular Nucleus during Aging and in Alzheimer's Disease: Journal of Neuroendocrinology Vol 9(4) Apr 1997, 297-305.
  • Lumley, L. A., Robison, C. L., Chen, W. K., Mark, B., & Meyerhoff, J. L. (2001). Vasopressin into the preoptic area increases grooming behavior in mice: Physiology & Behavior Vol 73(4) Jul 2001, 451-455.
  • Lutz-Bucher, B., & Koch, B. (1982). Influence of posterior pituitary hormones on the pituitary-adrenocortical response to neurogenic stress in the Brattleboro rat: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 634-638.
  • Maegawa, H., Katsube, N., Okegawa, T., Aishita, H., & et al. (1992). Arginine-vasopressin fragment 4-9 stimulates the acetylcholine release in hippocampus of freely-moving rats: Life Sciences Vol 51(4) 1992, 285-293.
  • Magnusson, K., Wall, A., & Meyerson, B. J. (1996). Difference in testosterone sensitivity in male spontaneously hypertensive (SHR) and Wistar-Kyoto rats (WKY): Physiology & Behavior Vol 60(3) Sep 1996, 907-912.
  • Maione, S., Berrino, L., Vitagliano, S., Leyva, J., & et al. (1992). Interactive role of L-glutamate and vasopressin, at the level of the PAG area, for cardiovascular tone and stereotyped behaviour: Brain Research Vol 597(1) Nov 1992, 166-169.
  • Mair, R. G., Langlais, P. J., Mazurek, M. F., Beal, M. F., & et al. (1986). Reduced concentrations of arginine vasopressin and MHPG in lumbar CSF of patients with Korsakoff's psychosis: Life Sciences Vol 38(25) Jun 1986, 2301-2306.
  • Maiti, A., Shahid Salles, K., Grassi, S., & Abood, L. G. (1986). Barrel rotation and prostration by vasopressin and nicotine in the vestibular cerebellum: Pharmacology, Biochemistry and Behavior Vol 25(3) Sep 1986, 583-588.
  • Maney, D. L., Erwin, K. L., & Goode, C. T. (2005). Neuroendocrine correlates of behavioral polymorphism in white-throated sparrows: Hormones and Behavior Vol 48(2) Aug 2005, 196-206.
  • Mangiapane, M. L., & et al. (1984). Role for the subfornical organ in vasopressin release: Brain Research Bulletin Vol 13(1) Jul 1984, 43-47.
  • Mantanus, H., & et al. (1981). A study of psychological and endocrine variables on 14 patients treated by chronical haemodialysis: Neuropsychobiology Vol 7(6) 1981, 285-291.
  • Marciano, F. F., & Gash, D. M. (1986). Structural and functional relationships of grafted vasopressin neurons: Brain Research Vol 370(2) Apr 1986, 338-342.
  • Marcilhac, A., Dakine, N., Bourhim, N., Guillaume, V., Grino, M., Drieu, K., et al. (1998). Effect of chronic administration of ginkgo biloba extract or ginkgolide on the hypothalamic-pituitary-adrenal axis in the rat: Life Sciences Vol 62(25) May 1998, 2329-2340.
  • Martin, A., State, M., Anderson, G. M., Kaye, W. M., Hanchett, J. M., McConaha, C. W., et al. (1998). Cerebrospinal fluid levels of oxytocin in Prader-Willi syndrome: A preliminary report: Biological Psychiatry Vol 44(12) Dec 1998, 1349-1352.
  • Martin, J. T., & Van Wimersma Greidanus, T. B. (1978). Imprinting behavior: Influence of vasopressin and ACTH analogues: Psychoneuroendocrinology Vol 3(3-4) Oct 1978, 261-269.
  • Matsuoka, T., Sumiyoshi, T., Tanaka, K., Tsunoda, M., Uehara, T., Itoh, H., et al. (2005). NC-1900, an arginine-vasopressin analogue, ameliorates social behavior deficits and hyperlocomotion in MK-801-treated rats: Therapeutic implications for schizophrenia: Brain Research Vol 1053(1-2) Aug 2005, 131-136.
  • Mattes, J. A., Pettinati, H. M., Stephens, S., Robin, S. E., & et al. (1990). A placebo-controlled evaluation of vasopressin for ECT-induced memory impairment: Biological Psychiatry Vol 27(3) Feb 1990, 289-303.
  • Matthews, S. G., & Parrott, R. F. (1991). Centrally administered atriopeptin III reduces water intake and vasopressin secretion in dehydrated sheep: Peptides Vol 12(1) Jan-Feb 1991, 77-79.
  • Mazurek, M. F., Growdon, J. H., Beal, M. F., & Martin, J. B. (1986). CSF vasopressin concentration is reduced in Alzheimer's disease: Neurology Vol 36(8) Aug 1986, 1133-1137.
  • McDonald, W. M., & Krishnan, K. R. R. (1991). Vasopressin. Washington, DC: American Psychiatric Association.
  • McGivern, R. F., Henschel, D., Hutcheson, M., & Pangburn, T. (1996). Sex difference in daily water consumption of rats: Effect of housing and hormones: Physiology & Behavior Vol 59(4-5) Apr-May 1996, 653-658.
  • Meck, W. H. (1983). Selective adjustment of the speed of internal clock and memory processes: Journal of Experimental Psychology: Animal Behavior Processes Vol 9(2) Apr 1983, 171-201.
  • Meck, W. H. (1987). Vasopressin metabolite neuropeptide facilitates simultaneous temporal processing: Behavioural Brain Research Vol 23(2) Feb 1987, 147-157.
  • Meck, W. H., & Church, R. M. (1985). Arginine vasopressin inoculates against age-related changes in temporal memory: Annals of the New York Academy of Sciences Vol 444 1985, 453-456.
  • Meisenberg, G. (1982). Short-term behavioural effects of neurohypophyseal hormones: Pharmacological characteristics: Neuropharmacology Vol 21(4) Apr 1982, 309-316.
  • Meisenberg, G., & Simmons, W. H. (1982). Behavioral effects of intracerebroventricularly administered neurohypophyseal hormone analogs in mice: Pharmacology, Biochemistry and Behavior Vol 16(5) May 1982, 819-825.
  • Meisenberg, G., & Simmons, W. H. (1983). Centrally mediated effects of neurohypophyseal hormones: Neuroscience & Biobehavioral Reviews Vol 7(2) Sum 1983, 263-280.
  • Meisenberg, G., & Simmons, W. H. (1984). Amastatin potentiates the behavioral effects of vasopressin and oxytocin in mice: Peptides Vol 5(3) May-Jun 1984, 535-539.
  • Meisenberg, G., & Simmons, W. H. (1984). Factors involved in the inactivation of vasopressin after intracerebroventricular injection in mice: Life Sciences Vol 34(13) Mar 1984, 1231-1240.
  • Meisenberg, G., & Simmons, W. H. (1984). Hypothermia induced by centrally administered vasopressin in rats: A structure-activity study: Neuropharmacology Vol 23(10) Oct 1984, 1195-1200.
  • Meisenberg, G., & Simmons, W. H. (1987). Specific antagonists of the acute behavioral response to centrally-administered vasopressin in mice: Neuropharmacology Vol 26(1) Jan 1987, 79-83.
  • Meisenberg, G., Simmons, W. H., & Collins, M. A. (1984). Effects of catecholamine-related mammalian alkaloids on spontaneous and vasopressin-induced behavior in mice: Pharmacology, Biochemistry and Behavior Vol 20(3) Mar 1984, 355-360.
  • Meller, W. H., Kathol, R. C., Jaeckle, R. S., & Lopez, J. F. (1987). Stimulation of the pituitary-adrenal axis with arginine vasopressin in patients with depression: Journal of Psychiatric Research Vol 21(3) 1987, 269-277.
  • Mens, W. B., & et al. (1982). Neurohypophyseal peptide levels in CSF and plasma during passive avoidance behavior in rats: Hormones and Behavior Vol 16(4) Dec 1982, 371-382.
  • Merali, Z., Kent, P., Du, L., Hrdina, P., Palkovits, M., Faludi, G., et al. (2006). Corticotropin-Releasing Hormone, Arginine Vasopressin, Gastrin-Releasing Peptide, and Neuromedin B Alterations in Stress-Relevant Brain Regions of Suicides and Control Subjects: Biological Psychiatry Vol 59(7) Apr 2006, 594-602.
  • Messing, R. B., & Sparber, S. B. (1985). Greater task difficulty amplifies the facilitatory effect of des-glycinamide arginine vasopressin on appetitively motivated learning: Behavioral Neuroscience Vol 99(6) Dec 1985, 1114-1119.
  • Metzger, D., Alescio-Lautier, B., Bosler, O., Devigne, C., & et al. (1993). Effect of changes in the intrahippocampal vasopressin on memory retrieval and relearning: Behavioral & Neural Biology Vol 59(1) Jan 1993, 29-48.
  • Meyerson, B. J., Hoglund, U., Johansson, C., Blomqvist, A., & et al. (1988). Neonatal vasopressin antagonist treatment facilitates adult copulatory behavior in female rats and increases hypothalamic vasopressin content: Brain Research Vol 473(2) Nov 1988, 344-351.
  • Meynen, G., Unmehopa, U. A., van Heerikhuize, J. J., Hofman, M. A., Swaab, D. F., & Hoogendijk, W. J. G. (2006). Increased Arginine Vasopressin mRNA Expression in the Human Hypothalamus in Depression: A Preliminary Report: Biological Psychiatry Vol 60(8) Oct 2006, 892-895.
  • Millan, M. J., Schmauss, C., Millan, M. H., & Herz, A. (1984). Vasopressin and oxytocin in the rat spinal cord: Analysis of their role in the control of nociception: Brain Research Vol 309(2) Sep 1984, 384-388.
  • Millar, K., Jeffcoate, W. J., & Walder, C. P. (1987). Vasopressin and memory: Improvement in normal short-term recall and reduction of alcohol-induced amnesia: Psychological Medicine Vol 17(2) May 1987, 335-341.
  • Miller, M., Haroutunian, V., & Wiltshire-Clement, M. (1995). Altered alertness of vasopressin-secreting transgenic mice: Peptides Vol 16(8) 1995, 1329-1333.
  • Mimoto, T., Nishioka, T., Asaba, K., Takao, T., & Hashimoto, K. (2001). Effects of adrenomedullin on adrenocorticotropic hormone (ACTH) release in pituitary cell cultures and on ACTH and oxytocin responses to shaker stress in conscious rat: Brain Research Vol 922(2) Dec 2001, 261-266.
  • Mishima, K., Tsukikawa, H., Miura, I., Inada, K., Abe, K., Matsumoto, Y., et al. (2003). Ameliorative effect of NC-1900, a new AVP-sub(4-9 ) analog, through vasopressin V-sub(1A ) receptor on scopolamine-induced impairments of spatial memory in the eight-arm radial maze: Neuropharmacology Vol 44(4) Mar 2003, 541-552.
  • Mitchell, C. P., & Goldman, M. B. (2004). Neonatal lesions of the ventral hippocampal formation disrupt neuroendocrine responses to auditory stress in the adult rat: Psychoneuroendocrinology Vol 29(10) Nov 2004, 1317-1325.
  • Miura, N., Shibata, S., & Watanabe, S. (1997). Z-321, a prolyl endopeptidase inhibitor, augments the potentiation of synaptic transmission in rat hippocampal slices: Behavioural Brain Research Vol 83(1-2) Feb 1997, 213-216.
  • Mlynarik, M., Zelena, D., Bagdy, G., Makara, G. B., & Jezova, D. (2007). Signs of attenuated depression-like behavior in vasopressin deficient Brattleboro rats: Hormones and Behavior Vol 51(3) Mar 2007, 395-405.
  • Moltz, H. (1990). E-series prostaglandins and arginine vasopressin in the modulation of male sexual behavior: Neuroscience & Biobehavioral Reviews Vol 14(1) Spr 1990, 109-115.
  • Moore, F. L. (1992). Evolutionary precedents for behavioral actions of oxytocin and vasopressin. New York, NY: New York Academy of Sciences.
  • Moore, F. L., & Miller, L. J. (1983). Arginine vasotocin induces sexual behavior of newts by acting on cells in the brain: Peptides Vol 4(1) Jan-Feb 1983, 97-102.
  • Moore, J. E. (1983). Arginine vasopressin enhances retention of morphine tolerance: Pharmacology, Biochemistry and Behavior Vol 19(4) Oct 1983, 561-565.
  • Moratalla, R., Borrell, J., Sanchez-Franco, F., & del Rio, J. (1987). Neonatal administration of vasopressin antiserum induces long-term deficits on active and passive avoidance behaviour in rats: Behavioural Brain Research Vol 23(3) Mar 1987, 231-237.
  • Moratalla, R., Sanchez-Franco, F., & del Rio, J. (1986). Long-term hyperalgesia in rats induced by neonatal administration of vasopressin antiserum: Life Sciences Vol 38(2) Jan 1986, 109-115.
  • Morin, L. P. (2007). SCN reorganization reconsidered: Journal of Biological Rhythms Vol 22(1) Feb 2007, 3-13.
  • Mormede, P. (1983). The vasopressin receptor antagonist dPTyr(Me)AVP does not prevent stress-induced ACTH and corticosterone release: Nature Vol 302(5906) Mar 1983, 345-346.
  • Mormede, P. (1984). "No role of vasopressin in stress-induced ACTH secretion?" Reply: Nature Vol 308(5954) Mar 1984, 86.
  • Mormont, I., Gaspar, D., von Frenckell, R., & Legros, J.-J. (1983). The influence of lysine-vasopressin on the Flicker Test and on the Buschke's test of memory regarding age of patients: Acta Psychiatrica Belgica Vol 83 1983, 579-587.
  • Mucha, R. F., & Kalant, H. (1979). Effects of desglycinamide(-9)-lysine(-8)-vasopressin and prolyl-leucyl-glycinamide on oral ethanol intake in the rat: Pharmacology, Biochemistry and Behavior Vol 10(2) Feb 1979, 229-234.
  • Muhlethaler, M., & Dreifuss, J. J. (1982). Vasopressin excites hippocampal neurones: Nature Vol 296(5859) Apr 1982, 749-751.
  • Muller, M. B., Landgraf, R., & Keck, M. E. (2000). Vasopressin, major depression, and hypothalamic-pituitary-adrenocortical desensitization: Biological Psychiatry Vol 48(4) Aug 2000, 330-333.
  • Mulvey, D. J., Watt, J. M., McEwen, B. B., & Flannelly, L. M. (1988). Effect of lysine-8-vasopressin on retention and retrieval of a discrimination reward task in the rat: Behavioral Neuroscience Vol 102(4) Aug 1988, 580-585.
  • Mundy, W. R., & Iwamoto, E. T. (1987). Studies on desglycinamide arginine vasopressin and scopolamine in a modified/lever-touch autoshaping model of learning/memory in rats: Pharmacology, Biochemistry and Behavior Vol 27(2) Jun 1987, 307-315.
  • Murphy, D., & Wells, S. (2003). In Vivo Gene Transfer Studies on the Regulation and Function of the Vasopressin and Oxytocin Genes: Journal of Neuroendocrinology Vol 15(2) Feb 2003, 109-125.
  • Murphy, H. M., Babey, E. M., & Wideman, C. H. (1994). Vasopressin deficiency and blood glucose interactions on passive avoidance behavior: Peptides Vol 15(8) 1994, 1335-1341.
  • Murphy, H. M., & Wideman, C. H. (1991). Vasopressin deficiency and the modulation of consummatory behavior: Peptides Vol 12(2) Mar-Apr 1991, 319-322.
  • Murphy, H. M., & Wideman, C. H. (1992). Vasopressin, corticosterone levels, and gastric ulcers during food-restriction stress: Peptides Vol 13(2) Mar-Apr 1992, 373-376.
  • Murphy, H. M., Wideman, C. H., & Nadzam, G. R. (1993). Vasopressin deficiency and circadian rhythms during food-restriction stress: Peptides Vol 14(6) Nov-Dec 1993, 1215-1220.
  • Murphy, H. M., Wideman, C. H., & Nadzam, G. R. (1996). The interaction of vasopressin and the photic oscillator in circadian rhythms: Peptides Vol 17(3) 1996, 467-475.
  • Murphy, H. M., Wideman, C. H., & Nadzam, G. R. (1998). The role of vasopressin in modulating circadian rhythm responses to phase shifts: Peptides Vol 19(7) 1998, 1191-1208.
  • Murphy, H. M., Wideman, C. H., & Row, J. P. (1995). Vasopressin, immobilization, and the dexamethasone suppression test in rats: Peptides Vol 16(3) 1995, 437-440.
  • Myers, R. D., Critcher, E. C., & Cornwell, N. N. (1983). Effect of chronic vasopressin treatment on alcohol drinking of Brattleboro HZ and DI rats: Peptides Vol 4(3) May-Jun 1983, 359-366.
  • Nair, H. P., Gutman, A. R., Davis, M., & Young, L. J. (2005). Central Oxytocin, Vasopressin, and Corticotropin-Releasing Factor Receptor Densities in the Basal Forebrain Predict Isolation Potentiated Startle in Rats: Journal of Neuroscience Vol 25(49) Dec 2005, 11479-11488.
  • Nakase, S., Kitayama, I., Soya, H., Hamanaka, K., & Nomura, J. (1998). Increased expression of magnocellular arginine vasopressin mRNA in paraventricular nuclues of stress-induced depression-model rats: Life Sciences Vol 63(1) May 1998, 23-31.
  • Naumann, E., Bartussek, D., Kaiser, W., & Fehm-Wolfsdorf, G. (1991). Vasopressin and cognitive processes: Two event-related potential studies: Peptides Vol 12(6) Nov-Dec 1991, 1379-1384.
  • Naylor, A. M., & et al. (1985). Vasopressin-induced motor disturbances: Localization of a sensitive forebrain site in the rat: Brain Research Vol 361(1-2) Dec 1985, 242-246.
  • Nebes, R. D., Reynolds, C. F., & Horn, L. C. (1984). The effect of vasopressin on memory in the healthy elderly: Psychiatry Research Vol 11(1) Jan 1984, 49-59.
  • Nemeroff, C. B., & Prange, A. J. (1978). Peptides and psychoneuroendocrinology: A perspective: Archives of General Psychiatry Vol 35(8) Aug 1978, 999-1010.
  • Nettles, K. W., Pesold, C., & Goldman, M. B. (2000). Influence of the ventral hippocampal formation on plasma vasopressin, hypothalamic-pituitary-adrenal axis, and behavioral responses to novel acoustic stress: Brain Research Vol 858(1) Mar 2000, 181-190.
  • Newman, M. E., & Hamburger-Bar, R. (1985). Vasopressin inhibition of cyclic AMP accumulation and effects on the learned response in inbred mouse strains: Life Sciences Vol 37(21) Nov 1985, 2037-2042.
  • Newport, D. J., Heim, C., Owens, M. J., Ritchie, J. C., Ramsey, C. H., Bonsall, R., et al. (2003). Cerebrospinal fluid corticotropin-releasing factor (CRF) and vasopressin concentrations predict pituitary response in the CRF stimulation test: A multiple regression analysis: Neuropsychopharmacology Vol 28(3) Mar 2003, 569-576.
  • Nishita, J. K., Ellinwood, E. H., Rockwell, W. K., Kuhn, C. M., & et al. (1989). Abnormalities in the response of plasma arginine vasopressin during hypertonic saline infusion in patients with eating disorders: Biological Psychiatry Vol 26(1) May 1989, 73-86.
  • Norbiato, G., Bevilacqua, M., Carella, F., Chebat, E., & et al. (1988). Alterations in vasopressin regulation in Alzheimer's disease: Journal of Neurology, Neurosurgery & Psychiatry Vol 51(7) Jul 1988, 903-908.
  • North, W. G., Harbaugh, R., & Reeder, T. (1992). An evaluation of human neurophysin production in Alzheimer's disease: Preliminary observations: Neurobiology of Aging Vol 13(2) Mar-Apr 1992, 261-265.
  • O'Connor, E. F., Cheng, S. W., & North, W. G. (1987). Effects of intraperitoneal injection of lithium chloride on neurohypophyseal activity: Implications for behavioral studies: Physiology & Behavior Vol 40(1) 1987, 91-95.
  • Ogier, R., Tribollet, E., Suarez, P., & Raggenbass, M. (2006). Identified motoneurons involved in sexual and eliminative functions in the rat are powerfully excited by vasopressin and tachykinins: Journal of Neuroscience Vol 26(42) Oct 2006, 10717-10726.
  • O'Halloran, J. P., & et al. (1985). Hormonal control in a state of decreased activation: Potentiation of arginine vasopressin secretion: Physiology & Behavior Vol 35(4) Oct 1985, 591-595.
  • Ohsawa, H., Kishimoto, T., Shimayoshi, N., Matsumura, K., & et al. (1993). Atrial natriuretic peptide and arginine vasopressin secretion in schizophrenic patients: Acta Psychiatrica Scandinavica Vol 88(2) Aug 1993, 130-134.
  • Onaka, T., Kuramochi, M., Saito, J., Ueta, Y., & Yada, T. (2005). Galanin-like peptide stimulates vasopressin, oxytocin and adrenocorticotropic hormone release in rats: Neuroreport: For Rapid Communication of Neuroscience Research Vol 16(3) Feb 2005, 243-247.
  • Onaka, T., Serino, R., & Ueta, Y. (2003). Intermittent Footshock Facilitates Dendritic Vasopressin Release but Suppresses Vasopressin Synthesis within the Rat Supraoptic Nucleus: Journal of Neuroendocrinology Vol 15(7) Jul 2003, 629-632.
  • Onaka, T., & Yagi, K. (1992). A histaminergic H-sub-2-receptor antagonist, ranitidine, blocks the suppressive vasopressin response to fear-related emotional stress in the rat: Neuroscience Research Vol 15(3) Nov 1992, 199-205.
  • Onaka, T., & Yagi, K. (1992). Neurohypophysial responses to emotional stress after deafferentation of sino-aortic baroreceptors in rats: Neuroscience Research Vol 13(3) Apr 1992, 199-206.
  • Orlando, G. F., Langnaese, K., Schulz, C., Wolf, G., & Engelmann, M. (2008). Neuronal nitric oxide synthase gene inactivation reduces the expression of vasopressin in the hypothalamic paraventricular nucleus and of catecholamine biosynthetic enzymes in the adrenal gland of the mouse: Stress: The International Journal on the Biology of Stress Vol 11(1) Jan 2008, 42-51.
  • Orlowska-Majdak, M. (2004). Microdialysis of the brain structures: Application in behavioral research on vasopressin and oxytocin: Acta Neurobiologiae Experimentalis Vol 64(2) 2004, 177-188.
  • Overstreet, D. H., & Griebel, G. (2005). Antidepressant-like effects of the vasopressin Vlb receptor antagonist SSR149415 in the Flinders Sensitive Line rat: Pharmacology, Biochemistry and Behavior Vol 82(1) Sep 2005, 223-227.
  • Paban, V., Alescio-Lautier, B., Devigne, C., & Soumireu-Mourat, B. (1997). Effects of arginine-sup-8-vasopressin administered at different times in the learning of an appetitive visual discriminative task in mice: Behavioural Brain Research Vol 87(2) Sep 1997, 149-157.
  • Paban, V., Alescio-Lautier, B., Devigne, C., & Soumireu-Mourat, B. (1999). Fos protein expression induced by intracerebroventricular injection of vasopressin in unconditioned and conditioned mice: Brain Research Vol 825(1-2) Apr 1999, 115-131.
  • Parker, K. J., Kinney, L. F., Phillips, K. M., & Lee, T. M. (2001). Paternal behavior is associated with central neurohormone receptor binding patterns in meadow voles (Microtus pennsylvanicus): Behavioral Neuroscience Vol 115(6) Dec 2001, 1341-1348.
  • Parker, K. J., & Lee, T. M. (2001). Central vasopressin administration regulates the onset of facultative paternal behavior in Microtus pennsylvanicus ( meadow voles): Hormones and Behavior Vol 39(4) Jun 2001, 285-294.
  • Parrott, R. F., Ebenezer, I. S., & Forsling, M. L. (1992). The effects of intravenous administration of cholecystokinin on feeding behaviour and release of pituitary hormones in pigs are not mediated by serotonergic (5-HT-sub-3) receptors: Neuropharmacology Vol 31(9) Sep 1992, 863-867.
  • Patchev, V. K., Hassan, A. H. S., Holsboer, F., & Almeida, O. F. X. (1996). The neurosteroid tetrahydroprogesterone attenuates the endocrine response to stress and exerts glucocorticoid-like effects on vasopressin gene transcription in the rat hypothalamus: Neuropsychopharmacology Vol 15(6) Dec 1996, 533-540.
  • Peabody, C. A., Davies, H. D., Berger, P. A., & Tinklenberg, J. R. (1986). Desamino-D-arginine-vasopressin (DDAVP) in Alzheimer's disease: Neurobiology of Aging Vol 7(4) 1986, 301-303.
  • Peabody, C. A., & et al. (1985). Desglycinamide-9-arginine-8-vasopressin (DGAVP, organon 5667) in patients with dementia: Neurobiology of Aging Vol 6(2) Sum 1985, 95-100.
  • Pedersen, C. A. (2004). Biological Aspects of Social Bonding and the Roots of Human Violence. New York, NY: New York Academy of Sciences.
  • Pedersen, C. A., Ascher, J. A., Monroe, Y. L., & Prange, A. J. (1982). Oxytocin induces maternal behavior in virgin female rats: Science Vol 216(4546) May 1982, 648-650.
  • Pelton, G. H., Lee, Y., & Davis, M. (1997). Repeated stress, like vasopressin, sensitizes the excitatory effects of corticotropin releasing factor on the acoustic startle reflex: Brain Research Vol 778(2) Dec 1997, 381-387.
  • Penney, M. D., Levell, M. J., & Hullin, R. P. (1987). Arginine vasopressin in manic-depressive psychosis: Psychological Medicine Vol 17(4) Nov 1987, 861-867.
  • Perras, B., Droste, C., Born, J., Fehm, H. L., & Pietrowsky, R. (1997). Verbal memory after three months of intranasal vasopressin in healthy old humans: Psychoneuroendocrinology Vol 22(6) Aug 1997, 387-396.
  • Perras, B., Molle, M., Born, J., & Fehm, H. L. (1996). Sleep and signs of attention during 3 months of intranasal vasopressin: A pilot study in two elderly subjects: Peptides Vol 17(7) 1996, 1253-1255.
  • Perras, B., Pannenborg, H., Marshall, L., Pietrowsky, R., Born, J., & Fehm, H. L. (1999). Beneficial treatment of age-related sleep disturbances with prolonged intranasal vasopressin: Journal of Clinical Psychopharmacology Vol 19(1) Feb 1999, 28-36.
  • Perras, B., Wagner, U., Born, J., & Fehm, H. L. (2003). Improvement of sleep and pituitary-adrenal inhibition after subchronic intranasal vasopressin tretment in elderly humans: Journal of Clinical Psychopharmacology Vol 23(1) Feb 2003, 35-44.
  • Peskind, E. R., Pascualy, M., Edland, S. D., Wingerson, D., & et al. (1995). Plasma arginine vasopressin response to hypertonic saline infusion in Alzheimer disease: Alzheimer Disease & Associated Disorders Vol 9(4) Win 1995, 238-242.
  • Peskind, E. R., Radant, A., Dobie, D. J., Hughes, J., & et al. (1993). Hypertonic saline infusion increases plasma norepinephrine concentrations in normal men: Psychoneuroendocrinology Vol 18(2) 1993, 103-113.
  • Peskind, E. R., Wingerson, D., Pascualy, M., Thal, L., & et al. (1995). Oral physostigmine in Alzheimer's disease: Effects on norepinephrine and vasopressin in cerebrospinal fluid and plasma: Biological Psychiatry Vol 38(8) Oct 1995, 532-538.
  • Peterson, G. M., Watkins, W. B., & Moore, R. Y. (1980). The suprachiasmatic hypothalamic nuclei of the rat: VI. Vasopressin neurons and circadian rhythmicity: Behavioral & Neural Biology Vol 29(2) Jun 1980, 236-245.
  • Petracca, F. M. (1987). Vasopressin systems in brain development: Studies of behavior, binding site distribution, and pharmacological characterization: Dissertation Abstracts International.
  • Pfeifer, W. D., & Bookin, H. B. (1978). Vasopressin antagonizes retrograde amnesia in rats following electroconvulsive shock: Pharmacology, Biochemistry and Behavior Vol 9(2) Aug 1978, 261-263.
  • Pich, E. M., Heinrichs, S. C., Rivier, C., Miczek, K. A., & et al. (1993). Blockade of pituitary-adrenal axis activation induced by peripheral immunoneutralization of corticotropin-releasing factor does not affect the behavioral response to social defeat stress in rats: Psychoneuroendocrinology Vol 18(7) 1993, 495-507.
  • Pietrowsky, R., Born, J., Fehm-Wolfsdorf, G., & Fehm, H. L. (1989). The influence of a vasopressin-analogue (DGAVP) on event-related potentials in a stimulus-mismatch paradigm: Biological Psychology Vol 28(3) Jun 1989, 239-250.
  • Pietrowsky, R., Braun, D., Fehm, H. L., Pauschinger, P., & et al. (1991). Vasopressin and oxytocin do not influence early sensory processing but affect mood and activation in man: Peptides Vol 12(6) Nov-Dec 1991, 1385-1391.
  • Pietrowsky, R., Fehm-Wolfsdorf, G., Born, J., & Fehm, H. L. (1988). Effects of DGAVP on verbal memory: Peptides Vol 9(6) Nov-Dec 1988, 1361-1366.
  • Pinnock, S. B., & Herbert, J. (2001). Corticosterone differentially modulates expression of corticotropin releasing factor and arginine vasopressin mRNA in the hypothalamic paraventricular nucleus following either acute or repeated restraint stress: European Journal of Neuroscience Vol 13(3) Feb 2001, 576-584.
  • Pittman, Q. J., Rogers, J., & Bloom, F. E. (1982). Deficits in tolerance to ethanol in Brattleboro rats: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 764-766.
  • Pohl, J., Arnold, H., Schulz, A., Pause, B. M., & et al. (1996). Modulation of pain perception in man by a vasopressin analogue: Peptides Vol 17(4) 1996, 641-647.
  • Ponomareva, N. S., Voskresenskaya, O. G., Kamenskii, A. A., Golubovich, V. P., & Ashmarin, I. P. (1999). The effects of a novel analog of the C-terminal fragment of vasopressin on the behavior of white rats: Neuroscience and Behavioral Physiology Vol 29(4) Jul-Aug 1999, 365-369.
  • Popik, P., & Van Ree, J. M. (1991). Oxytocin but not vasopressin facilitates social recognition following injection into the medial preoptic area of the rat brain: European Neuropsychopharmacology Vol 1(4) Dec 1991, 555-560.
  • Popik, P., & Van Ree, J. M. (1992). Long term facilitation of social recognition in rats by vasopressin related peptides: A structure-activity study: Life Sciences Vol 50(8) 1992, 567-572.
  • Popik, P., & Van Ree, J. M. (1993). Social transmission of flavored tea preferences: Facilitation by a vasopressin analog and oxytocin: Behavioral & Neural Biology Vol 59(1) Jan 1993, 63-68.
  • Popik, P., Vos, P. E., & Van Ree, J. M. (1992). Neurohypophyseal hormone receptors in the septum are implicated in social recognition in the rat: Behavioural Pharmacology Vol 3(4) Aug 1992, 351-358.
  • Popik, P., Wolterink, G., de Brabander, H., & Van Ree, J. M. (1991). Neuropeptides related to: Physiology & Behavior Vol 49(6) Jun 1991, 1031-1035.
  • Potegal, M., & Ferris, C. F. (1989). Intraspecific aggression in male hamsters is inhibited by intrahypothalamic vasopressin-receptor antagonist: Aggressive Behavior Vol 15(4) 1989, 311-320.
  • Purba, J. S., Hoogendijk, W. J. G., Hofman, M. A., & Swaab, D. F. (1996). Increased number of vasopressin- and oxytocin-expressing neurons in the paraventricular nucleus of the hypothalamus in depression: Archives of General Psychiatry Vol 53(2) Feb 1996, 137-143.
  • Rabinstein, A. A. (2006). Vasopressin antagonism: Potential impact on neurologic disease: Clinical Neuropharmacology Vol 29(2) Mar-Apr 2006, 87-93.
  • Ramaekers, F., Rigter, H., & Leonard, B. E. (1977). Parallel changes in behaviour and hippocampal serotonin metabolism in rats following treatment with desglycinamide lysine vasopressin: Brain Research Vol 120(3) 1977, 485-492.
  • Ramaswamy, S., Shewade, D. G., Tyagi, M. G., & Bapna, J. S. (1991). Influence of arginine vasopressin on prolactin-induced analgesia in mice: Medical Science Research Vol 19(24) Dec 1991, 871-872.
  • Rao, P. D. P., & Kanwal, J. S. (2004). Oxytocin and Vasopressin Immunoreactivity within the Forebrain and Limbic-Related Areas in the Mustached Bat, Pteronotus parnellii: Brain, Behavior and Evolution Vol 63(3) Mar 2004, 151-168.
  • Raskind, M. A., Courtney, N., Murburg, M. M., Backus, F. I., & et al. (1987). Antipsychotic drugs and plasma vasopressin in normals and acute schizophrenic patients: Biological Psychiatry Vol 22(4) Apr 1987, 453-462.
  • Raskind, M. A., & et al. (1986). Cerebrospinal fluid vasopressin, oxytocin, somatostatin, and !b-endorphin in Alzheimer's disease: Archives of General Psychiatry Vol 43(4) Apr 1986, 382-388.
  • Raskind, M. A., Peskind, E. R., Veith, R. C., Risse, S. C., & et al. (1989). Neuroendocrine responses to physostigmine in Alzheimer's disease: Archives of General Psychiatry Vol 46(6) Jun 1989, 535-540.
  • Ravid, R., Swaab, D. F., Fliers, E., & Hoogendijk, J. E. (1986). Increased vasopressin production in senescence and dementia: Tijdschrift voor Gerontologie en Geriatrie Vol 17(4) Aug 1986, 136-140.
  • Rees, H. D., Dunn, A. J., & Iuvone, P. M. (1976). Behavioral and biochemical responses of mice to the intraventricular administration of ACTH analogs and lysine vasopressin: Life Sciences Vol 18(1) Jun 1976, 1333-1340.
  • Reghunandanan, V., Badgaiyan, R. D., Marya, R. K., & Maini, B. K. (1987). Suprachiasmatic injection of a vasopressin antagonist modifies the circadian rhythm of food intake: Behavioral & Neural Biology Vol 48(3) Nov 1987, 344-351.
  • Reghunandanan, V., Reghunandanan, R., & Kumar Marya, R. (1991). Vasopressin: Its possible role in circadian time keeping: Chronobiologia Vol 18(1) Jan-Mar 1991, 39-47.
  • Reijmers, L. G. J. E., Baars, A. M., Burbach, J. P. H., Spruijt, B. M., & van Ree, J. M. (2001). Delayed effect of the vasopressin metabolite VP4-8 on the social memory of sexually naive male rats: Psychopharmacology Vol 154(4) Apr 2001, 408-414.
  • Renaud, L. P., Day, T. A., & Ferguson, A. V. (1984). CNS regulation of reproduction: Peptidergic mechanisms: Brain Research Bulletin Vol 12(2) Feb 1984, 181-186.
  • Reppert, S. M., Artman, H. G., Swaminathan, S., & Fisher, D. A. (1981). Vasopressin exhibits a rhythmic daily pattern in cerebrospinal fluid but not in blood: Science Vol 213(4513) Sep 1981, 1256-1257.
  • Rigter, H. (1982). Vasopressin and memory: The influence of prior experience with the training situation: Behavioral & Neural Biology Vol 34(4) Apr 1982, 337-351.
  • Rigter, H., & Crabbe, J. C. (1982). Ethanol preference in homozygous diabetes insipidus (Brattleboro) rats: Effect of vasopressin fragments: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 663-671.
  • Rigter, H., & Crabbe, J. C. (1985). Vasopressin and ethanol preference: I. Effects of vasopressin and the fragment DGAVP on altered ethanol preference in Brattleboro diabetes insipidus rats: Peptides Vol 6(4) Jul-Aug 1985, 669-676.
  • Rigter, H., Van Riezen, H., & de Wied, D. (1974). The effects of ACTH- and Vasopressin-analogues on CO2-induced retrograde amnesia in rats: Physiology & Behavior Vol 13(3) Sep 1974, 381-388.
  • Rivier, C. (1989). Involvement of endogenous corticotropin-releasing factor (CRF) in modulating ACTH and LH secretion function during exposure to stress, alcohol or cocaine in the rat. New York, NY: Alan R Liss.
  • Rivier, C. (2003). Role of nitric oxide in regulating the rat hypothalamic-pituitary-adrenal axis response to endotoxemia. New York, NY: New York Academy of Sciences.
  • Rivier, C., & Lee, S. (1996). Acute alcohol administration stimulates the activity of hypothalamic neurons that express corticotropin-releasing factor and vasopressin: Brain Research Vol 726(1-2) Jul 1996, 1-10.
  • Rivier, C., & Vale, W. (1983). Modulation of stress-induced ACTH release by corticotropin-releasing factor, catecholamines and vasopressin: Nature Vol 305(5932) Sep 1983, 325-327.
  • Roche, K. E., & Leshner, A. I. (1979). ACTH and vasopressin treatments immediately after a defeat increase future submissiveness in male mice: Science Vol 204(4399) Jun 1979, 1343-1344.
  • Rodriguez-Sierra, J. F., Crowley, W. R., & Komisaruk, B. R. (1977). Induction of lordosis responsiveness by vaginal stimulation in rats is independent of anterior or posterior pituitary hormones: Hormones and Behavior Vol 8(3) Jun 1977, 348-355.
  • Romero, L. M., Levine, S., & Sapolsky, R. M. (1995). Patterns of adrenocorticotropin secretagog release in response to social interactions and various degrees of novelty: Psychoneuroendocrinology Vol 20(2) 1995, 183-191.
  • Roozendaal, B., Schoorlemmer, G. H., Koolhaas, J. M., & Bohus, B. (1993). Cardiac, neuroendocrine, and behavioral effects of central amygdaloid vasopressinergic and oxytocinergic mechanisms under stress-free conditions in rats: Brain Research Bulletin Vol 32(6) 1993, 573-579.
  • Roozendaal, B., Wiersma, A., Driscoll, P., Koolhaas, J. M., & et al. (1992). Vasopressinergic modulation of stress responses in the central amygdala of the Roman high-avoidance and low-avoidance rat: Brain Research Vol 596(1-2) Nov 1992, 35-40.
  • Rossi, R., & Scharrer, E. (1994). Vasopressin inhibits food intake in pygmy goats by activation of !a-sub-1-adrenergic receptors: Pharmacology, Biochemistry and Behavior Vol 49(4) Dec 1994, 897-900.
  • Rossor, M. N., & et al. (1981). Extrahypothalamic vasopressin in human brain: Brain Research Vol 214(2) Jun 1981, 349-355.
  • Rubin, R. T., Abbasi, S. A., Rhodes, M. E., & Czambel, R. K. (2003). Growth hormone responses to low-dose physostigmine administration: Functional sex differences (sexual diergism) between major depressives and matched controls: Psychological Medicine Vol 33(4) May 2003, 655-665.
  • Rubin, R. T., O'Toole, S. M., Rhodes, M. E., Sekula, L. K., & Czambel, R. K. (2000). Hypothalamo-pituitary-adrenal cortical responses to low-dose physostigmine and arginine vasopressin administration: Sex differences between major depressives and matched control subjects: Psychiatry Research Vol 89(1) Dec 2000, 1-20.
  • Rubin, R. T., Poland, R. E., Gouin, P. R., & Tower, B. B. (1978). Secretion of hormones influencing water and electrolyte balance (antidiuretic hormone, aldosterone, prolactin) during sleep in normal adult men: Psychosomatic Medicine Vol 40(1) Feb 1978, 44-59.
  • Rubin, R. T., Rhodes, M. E., & Czambel, R. K. (2002). Sexual diergism of baseline plasma leptin and leptin suppression by arginine vasopressin in major depressives and matched controls: Psychiatry Research Vol 113(3) Dec 2002, 255-268.
  • Rubin, R. T., Sekula, K., O'Toole, S., Rhodes, M. E., & Czambel, K. (1999). Pituitary-adrenal cortical responses to low-dose physostigmine and arginine vasopressin administration in normal women and men: Neuropsychopharmacology Vol 20(5) May 1999, 434-446.
  • Ruscio, M. G., Sweeny, T., Hazelton, J., Suppatkul, P., & Carter, C. S. (2007). Social environment regulates corticotropin releasing factor, corticosterone and vasopressin in juvenile prairie voles: Hormones and Behavior Vol 51(1) Jan 2007, 54-61.
  • Ruwe, W. D., Flemons, W. W., Veale, W. L., & Pittman, Q. J. (1985). The role of arginine vasopressin in alcohol dependence and withdrawal: Peptides Vol 6(6) Nov-Dec 1985, 1043-1049.
  • Ryan, M. C. M., Sharifi, N., Condren, R., & Thakore, J. H. (2004). Evidence of basal pituitary-adrenal overactivity in first episode, drug naive patients with schizophrenia: Psychoneuroendocrinology Vol 29(8) Sep 2004, 1065-1070.
  • Sadile, A. G. (1991). Vasopressin and habituation to spatial novelty in two genetic models of vasopressin-deficiency in rats. Ashland, OH: Hogrefe & Huber Publishers.
  • Sahgal, A. (1984). A critique of the vasopressin-memory hypothesis: Psychopharmacology Vol 83(3) 1984, 215-228.
  • Sahgal, A. (1986). Effects of vasopressin, des-glycinamide vasopressin and amphetamine on a combined passive and active avoidance task: Psychopharmacology Vol 90(4) Nov 1986, 494-498.
  • Sahgal, A. (1987). Contrasting effects of vasopressin, desglycinamide-vasopressin and amphetamine on a delayed matching to position task in rats: Psychopharmacology Vol 93(2) Oct 1987, 243-249.
  • Sahgal, A. (1988). Vasopressin and amphetamine, but not desglycinamide vasopressin, impair positively reinforced visual attention performance in rats: Behavioural Brain Research Vol 29(1-2) Jul 1988, 35-42.
  • Sahgal, A., Keith, A. B., & Lloyd, S. (1990). Opposing effects of vasopressin on matching versus non-matching to position: Further evidence for response, not memory, modulation: Psychopharmacology Vol 102(1) Sep 1990, 130-135.
  • Sahgal, A., Wright, C., & Ferrier, I. N. (1986). Desamino-{d}-arg-8-vasopressin (DDAVP), unlike ethanol, has no effect on a boring visual vigilance task in humans: Psychopharmacology Vol 90(1) Aug 1986, 58-63.
  • Salek, S. J., Sullivan, C. V., & Godwin, J. (2002). Arginine vasotocin effects on courtship behavior in male white perch (Morone americana): Behavioural Brain Research Vol 133(2) Jul 2002, 177-183.
  • Salvucci, A., & Armstead, W. M. (2000). Vasopressin impairs K-sub(ATP ) and K-sub(ca ) channel function after brain injury: Brain Research Vol 887(2) Dec 2000, 406-412.
  • Salzberg, A. D., & Swedo, S. E. (1992). Oxytocin and vasopressin in obsessive-compulsive disorder: American Journal of Psychiatry Vol 149(5) May 1992, 713-714.
  • Sara, S. J., Barnett, J., & Toussaint, P. (1982). Vasopressin accelerates appetitive discrimination learning and impairs its reversal: Behavioural Processes Vol 7(2) Jun 1982, 157-167.
  • Sarnyai, Z., Szabo, G., Kovacs, G. L., & Telegdy, G. (1992). Opposite actions of oxytocin and vasopressin in the development of cocaine-induced behavioral sensitization in mice: Pharmacology, Biochemistry and Behavior Vol 43(2) Oct 1992, 491-494.
  • Sato, T., Tanaka, K.-i., Teramoto, T., Ohnishi, Y., Hirate, K., Irifune, M., et al. (2004). Effect of pretraining administration of NC-1900, a vasopressin fragment analog, on memory performance in non- or CO-sub-2-amnesic mice: Pharmacology, Biochemistry and Behavior Vol 78(2) Jun 2004, 309-317.
  • Scaccianoce, S., Cigliana, G., Nicolai, R., Navarra, D., & et al. (1992). Pituitary-adrenocortical response following repeated adrenocorticotropin secretagogue administration in the rat: Stress Medicine Vol 8(4) Oct 1992, 207-211.
  • Scattoni, M. L., McFarlane, H. G., Zhodzishsky, V., Caldwell, H. K., Young, W. S., Ricceri, L., et al. (2008). Reduced ultrasonic vocalizations in vasopressin 1b knockout mice: Behavioural Brain Research Vol 187(2) Mar 2008, 371-378.
  • Schiml, P. A., & Rissman, E. F. (2000). Effects of gonadotropin-releasing hormones, corticotropin-releasing hormone, and vasopressin on female sexual behavior: Hormones and Behavior Vol 37(3) May 2000, 212-220.
  • Schmidt, W. K., Holaday, J. W., Loh, H. H., & Way, E. L. (1978). Failure of vasopressin and oxytocin to antagonize acute morphine antinociception or facilitate narcotic tolerance development: Life Sciences Vol 23(2) Jul 1978, 151-158.
  • Schulz, K. M., Menard, T. A., Smith, D. A., Albers, H. E., & Sisk, C. L. (2006). Testicular hormone exposure during adolescence organizes flank-marking behavior and vasopressin receptor binding in the lateral septum: Hormones and Behavior Vol 50(3) Sep 2006, 477-483.
  • Schwartz, W. J., Coleman, R. J., & Reppert, S. M. (1983). A daily vasopressin rhythm in rat cerebrospinal fluid: Brain Research Vol 263(1) Mar 1983, 105-112.
  • Scordalakes, E. M., & Rissman, E. F. (2004). Aggression and arginine vasopressin immunoreactivity regulation by androgen receptor and estrogen receptor alpha: Genes, Brain & Behavior Vol 3(1) Feb 2004, 20-26.
  • Scott, A. I., Shering, P. A., Lightman, S. L., Legros, J.-J., & et al. (1991). The release of oxytocin, vasopressin and associated neurophysins after electroconvulsive therapy: Human Psychopharmacology: Clinical and Experimental Vol 6(2) Jun 1991, 161-164.
  • Scott, L. V., & Dinan, T. G. (2002). Vasopressin as a target for antidepressant development: An assessment of the available evidence: Journal of Affective Disorders Vol 72(2) Nov 2002, 113-124.
  • Scott, L. V., & Dinnan, T. G. (1998). Vasopressin and the regulation of hypothalamic-pituitary-adrenal axis function: Implications for the pathophysiology of depression: Life Sciences Vol 62(22) Apr 1998, 1985-1998.
  • Scott, L. V., Medbak, S., & Dinan, T. G. (1999). Desmopressin augments pituitary-adrenal responsivity to corticotropin-releasing hormone in subjects with chronic fatigue syndrome and in healthy volunteers: Biological Psychiatry Vol 45(11) Jun 1999, 1447-1454.
  • Seckl, J. R., Lightman, S. L., & Guiloff, R. J. (1987). Elevated cerebrospinal fluid vasopressin in motor neuron disease: Journal of Neurology, Neurosurgery & Psychiatry Vol 50(6) Jun 1987, 795-797.
  • Sekiguchi, R., Wolterink, G., & Van Ree, J. M. (1991). Analysis of the influence of vasopressin neuropeptides on social recognition of rats: European Neuropsychopharmacology Vol 1(2) May 1991, 123-126.
  • Semsar, K., Kandel, F. L. M., & Godwin, J. (2001). Manipulations of the AVT system shift social status and related courtship and aggressive behavior in the bluehead wrasse: Hormones and Behavior Vol 40(1) Aug 2001, 21-31.
  • Serradeil-Le Gal, C., Wagnon, J., Tonnerre, B., Roux, R., Garcia, G., Griebel, G., et al. (2005). An Overview of SSR 149415, a Selective Nonpeptide Vasopressin V-sub(1b) Receptor Antagonist for the Treatment of Stress-Related Disorders: CNS Drug Reviews Vol 11(1) Spr 2005, 53-68.
  • Shanas, U., & Haim, A. (2004). Diet salinity and vasopressin as reproduction modulators in the desert-dwelling golden spiny mouse (Atomys russatus): Physiology & Behavior Vol 81(4) Jun 2004, 645-650.
  • Shibasaki, T., Hotta, M., Sugihara, H., & Wakabayashi, I. (1998). Brain vasopressin is involved in stress-induced suppression of immune function in the rat: Brain Research Vol 808(1) Oct 1998, 84-92.
  • Shih, Y. H., & Pugsley, T. A. (1985). The effects of various cognition-enhancing drugs on in vitro rat hippocampal synaptosomal sodium dependent high affinity choline uptake: Life Sciences Vol 36(22) Jun 1985, 2145-2152.
  • Siegfried, B., Frischknecht, H.-R., & Waser, P. G. (1984). Vasopressin impairs or enhances retention of learned submissive behavior in mice depending on the time of application: Behavioural Brain Research Vol 11(3) Mar 1984, 259-269.
  • Skopkova, J., Croiset, G., & de Wied, D. (1991). Differential effects of DGAVP on acquisition and extinction of active avoidance behavior: Peptides Vol 12(3) May-Jun 1991, 471-475.
  • Skopkova, J., Lat, J., Dvorska, I., Hrbas, P., & et al. (1987). The effect of AVP and DGAVP on the exploratory activity of rats: Peptides Vol 8(5) Sep-Oct 1987, 785-790.
  • Sladek, C. D. (2004). Vasopressin response to osmotic and hemodynamic stress: Neurotransmitter involvement: Stress: The International Journal on the Biology of Stress Vol 7(2) Jun 2004, 85-90.
  • Sladek, C. D., & Olschowka, J. A. (1988). Regulation of vasopressin and oxytocin release in vitro. New York, NY: Plenum Press.
  • Sluchevsky, F. I., Tikhomirov, S. M., & Bakharev, V. D. (1986). Neuropeptides in the therapy of alcoholism and alcoholic psychoses: Zhurnal Nevropatologii i Psikhiatrii imeni S S Korsakova Vol 86(2) 1986, 244-247.
  • Smith, J. E., Williams, K., Burkett, S., Nicholson, H., & et al. (1990). Oxytocin and vasopressin responses to ECT: Psychiatry Research Vol 32(2) May 1990, 201-202.
  • Smith, R. F., French, N. P., Sappier, P. W., Lowry, P. J., Veldhuis, J. D., & Dobson, H. (2003). Identification of Stimulatory and Inhibitory Inputs to the Hypothalamic-Pituitary-Adrenal Axis During Hypoglycaemia or Transport In Ewes: Journal of Neuroendocrinology Vol 15(6) Jun 2003, 572-585.
  • Smitz, S., Waucquez, J. L., Louis, F., & Legros, J. J. (1980). Hypothalamoneuropituitary activation during vasodilatator perfusion in normal individuals: Acta Psychiatrica Belgica Vol 80(5) Sep-Oct 1980, 762-774.
  • Smock, T., Albeck, D., & McMechen, P. (1990). Contrasting actions of vasopressin and beta-endorphin on rat hippocampal field potentials. New York, NY: New York Academy of Sciences.
  • Snel, J., Taylor, J., & Wegman, M. (1987). Does DGAVP influence memory, attention and mood in young healthy men? : Psychopharmacology Vol 92(2) Jun 1987, 224-228.
  • Snyder, L. (1998). Four related neuropeptides in autism. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Soares, C. N., & Papakostas, G. I. (2007). Neuroendocrine-based pharmacotherapy for depression: Directions in Psychiatry Vol 27(2) 2007, 83-97.
  • Sodersten, P., Henning, M., Melin, P., & Ludin, S. (1983). Vasopressin alters female sexual behaviour by acting on the brain independently of alterations in blood pressure: Nature Vol 301(5901) Feb 1983, 608-610.
  • Soelberg Sorensen, P., Hammer, M., & Bolwig, T. G. (1982). Vasopressin release during electroconvulsive therapy: Psychoneuroendocrinology Vol 7(4) Dec 1982, 303-308.
  • Sollertinskaya, T. N. (1997). Comparative physiological features of the regulatory effect of vasopressin on higher nervous activity in an ascending series of mammals: Neuroscience and Behavioral Physiology Vol 27(6) Nov-Dec 1997, 734-742.
  • Sollertinskaya, T. N., & Korinkina, N. N. (2000). The effects of vasopressin on memory processes in Java monkeys: Neuroscience and Behavioral Physiology Vol 30(4) Jul-Aug 2000, 399-406.
  • Son, M. C., & Brinton, R. D. (2001). Regulation and mechanism of L-type calcium channel activation via V1a vasopressin receptor activation in cultured cortical neurons: Neurobiology of Learning and Memory Vol 76(3) Nov 2001, 388-402.
  • Sorensen, P. S. (1986). Studies of vasopressin in the human cerebrospinal fluid: Acta Neurologica Scandinavica Vol 74(2) Aug 1986, 81-102.
  • Sorensen, P. S., Gjerris, A., & Hammer, M. (1985). Cerebrospinal fluid vasopressin in neurological and psychiatric disorders: Journal of Neurology, Neurosurgery & Psychiatry Vol 48(1) Jan 1985, 50-57.
  • Sorensen, P. S., Hammer, M., Vorstrup, S., & Gjerris, F. (1983). CSF and plasma vasopressin concentrations in dementia: Journal of Neurology, Neurosurgery & Psychiatry Vol 46(10) Oct 1983, 911-916.
  • Sousa, N., Madeira, M. D., Paula-Barbosa, M. M., & Buijs, R. (1994). The vasopressinergic innervation of the lateral septum of the rat after chronic alcohol consumption and withdrawal: Brain Research Vol 648(1) Jun 1994, 53-58.
  • Sparber, S. B., Cohen, C. A., & Messing, R. B. (1988). Reversal of a trimethyltin-induced learning deficit by desglycinamide-8-arginine vasopressin: Life Sciences Vol 42(2) 1988, 171-177.
  • Speisky, M. B., & Kalant, H. (1985). Site of interaction of serotonin and desglycinamide-arginine-vasopressin in maintenance of ethanol tolerance: Brain Research Vol 326(2) Feb 1985, 281-290.
  • Speisky, M. B., & Kalant, H. (1986). Vasopressin-like peptides retain ethanol tolerance in the absence of changes in serotonin synthesis in limbic structures: Pharmacology, Biochemistry and Behavior Vol 25(4) Oct 1986, 797-803.
  • Stein, D., & et al. (1984). Ineffectiveness of vasopressin in the treatment of memory impairment in chronic schizophrenia: Psychopharmacology Vol 84(4) Dec 1984, 566-568.
  • Stein, G., & et al. (1984). Vasopressin and mood during the puerperium: Biological Psychiatry Vol 19(12) Dec 1984, 1711-1717.
  • Steingard, S. (1994). Use of desmopressin to treat clozapine-induced nocturnal enuresis: Journal of Clinical Psychiatry Vol 55(7) Jul 1994, 315-316.
  • Stemmelin, J., Lukovic, L., Salome, N., & Griebel, G. (2005). Evidence that the Lateral Septum is Involved in the Antidepressant-Like Effects of the Vasopressin V-sub-1-sub(b) Receptor Antagonist, SSR149415: Neuropsychopharmacology Vol 30(1) Jan 2005, 35-42.
  • Stoehr, J. D. (1993). The neuromodulatory influences of vasopressin on fear conditioning and spatial learning: Dissertation Abstracts International.
  • Stoehr, J. D., Cramer, C. P., & North, W. G. (1992). Oxytocin and vasopressin hexapeptide fragments have opposing influences on conditioned freezing behavior: Psychoneuroendocrinology Vol 17(2-3) May-Jul 1992, 267-271.
  • Stoehr, J. D., Cramer, C. P., & North, W. G. (1993). "Oxytocin and vasopressin hexapeptide fragments have opposing influences on conditioned freezing behavior": Erratum: Psychoneuroendocrinology Vol 18(3) 1993, 249.
  • Stopa, E. G., King, J. C., Lydic, R., & Schoene, W. C. (1984). Human brain contains vasopressin and vasoactive intestinal polypeptide neuronal subpopulations in the suprachiasmatic region: Brain Research Vol 297(1) Apr 1984, 159-163.
  • Stribley, J. M. (1999). The role of arginine vasopressin in the development of prairie vole social behaviors. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Stricker, E. M., & Hoffmann, M. L. (2007). Presystemic signals in the control of thirst, salt appetite, and vasopressin secretion: Physiology & Behavior Vol 91(4) Jul 2007, 404-412.
  • Stricker, E. M., & Sved, A. F. (2002). Controls of vasopressin secretion and thirst: Similarities and dissimilarities in signals: Physiology & Behavior Vol 77(4-5) Dec 2002, 731-736.
  • Stricker, E. M., & Verbalis, J. G. (1987). Central inhibitory control of sodium appetite in rats: Correlation with pituitary oxytocin secretion: Behavioral Neuroscience Vol 101(4) Aug 1987, 560-567.
  • Strupp, B. J. (1989). Improvement of memory by a vasopressin fragment: Importance on individual differences in mnemonic function: Behavioral Neuroscience Vol 103(4) Aug 1989, 743-754.
  • Strupp, B. J., Bunsey, M., Bertsche, B., Levitsky, D. A., & Kesler, M. (1990). Enhancement and impairment of memory retrieval by a vasopressin metabolite: An interaction with the accessibility of the memory: Behavioral Neuroscience Vol 104(2) Apr 1990, 268-276.
  • Strupp, B. J., & Levitsky, D. A. (1985). A mnemonic role for vasopressin: The evidence for and against: Neuroscience & Biobehavioral Reviews Vol 9(3) Fal 1985, 399-411.
  • Sudakov, K. V. (1981). Vasoactive peptides in the structure of defensive motivational excitation: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 31(6) 1981, 1190-1197.
  • Sullivan, M. J., Cunningham, J. T., Mazzella, D., Allen, A. M., Nissen, R., & Renaud, L. P. (2003). Lesions of the Diagonal Band of Broca Enhance Drinking in the Rat: Journal of Neuroendocrinology Vol 15(10) Oct 2003, 907-915.
  • Summy-Long, J. Y., Rosella, L. M., & Keil, L. C. (1981). Effects of centrally administered endogenous opioid peptides on drinking behavior, increased plasma vasopressin concentration and pressor response to hypertonic sodium chloride: Brain Research Vol 221(2) Sep 1981, 343-357.
  • Sundblom, D. M., Heikman, P., Naukkarinen, H., & Fyhrquist, F. (1999). Blood concentrations of vasopressin, neuropeptide FF and prolactin are increased by high-dose right unilateral ECT: Peptides Vol 20(3) 1999, 319-326.
  • Swaab, D. F., Slob, A. K., Houtsmuller, E. J., Brand, T., & et al. (1995). Increased number of vasopressin neurons in the suprachiasmatic nucleus (SCN) of "bisexual" adult male rats following perinatal treatment with the aromatase blocker ATD: Developmental Brain Research Vol 85(2) Apr 1995, 273-279.
  • Swenson, R. R. (1993). The effects of DDAVP on speed of accessing long-term memory and incidental learning in healthy male and female volunteers: Dissertation Abstracts International.
  • Swenson, R. R., Beckwith, B. E., Lamberty, K. J., Krebs, S. J., & et al. (1990). Prenatal exposure to AVP or caffeine but not oxytocin alters learning in female rats: Peptides Vol 11(5) Sep-Oct 1990, 927-932.
  • Syvalahti, E. (1985). Dexamethasone suppression test and the levels of serum growth hormone, plasma vasopressin and plasma homovanillic acid in depressed in- and outpatients: Acta Psychiatrica Scandinavica Vol 71(2) Feb 1985, 105-110.
  • Szabo, G., Kovacs, G. L., Szekeli, S., & Telegdy, G. (1985). The effects of neurohypophyseal hormones on tolerance to the hypothermic effect of ethanol: Alcohol Vol 2(4) Jul-Aug 1985, 567-574.
  • Szczepanska-Sadowska, E., Sobocinska, J., & Kozlowski, S. (1987). Thirst impairment elicited by intraventricular administration of vasopressin antagonists: Peptides Vol 8(6) Nov-Dec 1987, 1003-1009.
  • Tabakoff, B., & Hoffman, P. L. (1988). Tolerance and the etiology of alcoholism: Hypothesis and mechanism: Alcoholism: Clinical and Experimental Research Vol 12(1) Feb 1988, 184-186.
  • Tam, F. W., Chen, C., Alpert, J. E., & Iversen, S. D. (1985). Aversive effects of subcutaneously injected vasopressin in the rat: Independence of the ascending dorsal noradrenergic bundle: Brain Research Vol 337(1) Jun 1985, 133-137.
  • Tanabe, S., Shishido, Y., Furushiro, M., Kado, K., Hashimoto, S., Yokokura, T., et al. (1997). Facilitation of passive avoidance response by newly synthesized cationized arginine vasopressin fragment 4-9 in rats: Pharmacology, Biochemistry and Behavior Vol 57(1-2) May-Jun 1997, 251-256.
  • Tanaka, K., Suzuki, M., Sumiyoshi, T., Murata, M., Tsunoda, M., & Kurachi, M. (2003). Subchronic phencyclidine administration alters central vasopressin receptor binding and social interaction in the rat: Brain Research Vol 992(2) Dec 2003, 239-245.
  • Teal, J. J., & Evans, H. L. (1982). Effects of DDAVP, a vasopressin analog, on delayed matching behavior in the pigeon: Pharmacology, Biochemistry and Behavior Vol 17(6) Dec 1982, 1123-1127.
  • Telegdy, G., & Kovacs, G. L. (1981). The effect of vasopressin and oxytocin on behavioral processes and brain neurotransmitter metabolism in rats: Neuroscience and Behavioral Physiology Vol 11(5) Sep-Oct 1981, 429-433.
  • Terlouw, E. M. C., Kent, S., Cremona, S., & Dantzer, R. (1996). Effect of intracerebroventricular administration of vasopressin on stress-induced hyperthermia in rats: Physiology & Behavior Vol 60(2) Aug 1996, 417-424.
  • Teruyama, R., & Armstrong, W. E. (2007). Calcium-dependent fast depolarizing afterpotentials in vasopressin neurons in the rat supraoptic nucleus: Journal of Neurophysiology Vol 98(5) Nov 2007, 2612-2621.
  • Thompson, R., Gupta, S., Miller, K., Mills, S., & Orr, S. (2004). The effects of vasopressin on human facial responses related to social communication: Psychoneuroendocrinology Vol 29(1) Jan 2004, 35-80.
  • Thompson, R. R., George, K., Walton, J. C., Orr, S. P., Benson, J., & Raichle, M. E. (2006). Sex-specific influences of vasopressin on human social communication: PNAS Proceedings of the National Academy of Sciences of the United States of America Vol 103(20) May 2006, 7889-7894.
  • Thompson, R. R., & Walton, J. C. (2004). Peptide Effects on Social Behavior: Effects of Vasotocin and Isotocin on Social Approach Behavior in Male Goldfish (Carassius auratus): Behavioral Neuroscience Vol 118(3) Jun 2004, 620-626.
  • Thornton, S. N., Baldwin, B. A., & Forsling, M. L. (1989). The influence of central hyperosmotic solutions on drinking and vasopressin release following peripheral hyperosmotic NaCl in the minipig: Brain Research Vol 488(1-2) May 1989, 297-303.
  • Thurston, C. L., Campbell, I. G., Culhane, E. S., Carstens, E., & et al. (1992). Characterization of intrathecal vasopressin-induced antinociception, scratching behavior, and motor suppression: Peptides Vol 13(1) Jan-Feb 1992, 17-25.
  • Thurston, C. L., Culhane, E. S., Suberg, S. N., Carstens, E., & et al. (1988). Antinociception vs motor effects of intrathecal vasopressin as measured by four pain tests: Brain Research Vol 463(1) Oct 1988, 1-11.
  • Till, R. E., & Beckwith, B. E. (1985). Sentence memory affected by vasopressin analog (DDAVP) in cross-over experiment: Peptides Vol 6(3) May-Jun 1985, 397-402.
  • Timsit-Berthier, M., Audibert, A., & Moeglen, J. M. (1978). Influence of lysine vasopressin on the EEG in man: Neuropsychobiology Vol 4(3) 1978, 129-139.
  • Timsit-Berthier, M., Mantanus, H., Devos, J. E., & Spiegel, R. (1982). Action of lysine-vasopressin on human electroencephalographic activity: Night sleep pattern, auditory evoked potential, contingent negative variation: Neuropsychobiology Vol 8(5) Sep-Oct 1982, 248-258.
  • Timsit-Berthier, M., Mantanus, H., Jacques, M. C., & Legros, J. J. (1980). Use of lysine-vasopressine in the treatment of post-traumatic amnesia: Acta Psychiatrica Belgica Vol 80(5) Sep-Oct 1980, 728-747.
  • Tinius, T. P. (1991). Effects of vasopressin on the comprehension and recall of prose passages: Dissertation Abstracts International.
  • Tinius, T. P., Beckwith, B. E., & Oltmanns, D. (1989). Arginine vasopressin facilitates reversal learning in albino, but not hooded rats: Peptides Vol 10(1) Jan-Feb 1989, 237-239.
  • Tinius, T. P., Beckwith, B. E., Preussler, D. W., & Lee, K. J. (1987). Prenatal administration of arginine vasopressin impairs memory retrieval in adult rats: Peptides Vol 8(3) May-Jun 1987, 493-499.
  • Tinius, T. P., Beckwith, B. E., Wagner, N., Tinius, K. A., & et al. (1986). Differential actions of arginine vasopressin and alpha-melanocyte-stimulating hormone on reactivation of memory after hypothermia-induced amnesia: Physiological Psychology Vol 14(1-2) Mar & Jun 1986, 15-22.
  • Titov, S. A., & Nikonova, A. B. (1987). Estimation of arginil-vasopressin effect on formation of conditioned active avoidance reaction in rats: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 37(5) Sep-Oct 1987, 922-928.
  • Titov, S. A., Usenko, A. B., & Ashmarin, I. P. (1989). Vasopressin effect on changes of behavioural reactions in rats elicited by psychotropic drugs: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 39(2) Mar-Apr 1989, 292-295.
  • Toloczko, D. M. (2008). Localization of central vasopressin V1A receptors in rhesus monkeys (Macaca mulatta). Dissertation Abstracts International Section A: Humanities and Social Sciences.
  • Toufexis, D., Davis, C., Hammond, A., & Davis, M. (2005). Sex Differences in Hormonal Modulation of Anxiety Measured with Light-Enhanced Startle: Possible Role for Arginine Vasopressin in the Male: Journal of Neuroscience Vol 25(39) Sep 2005, 9010-9016.
  • Toufexis, D. J., Tesolin, S., Huang, N., & Walker, C. D. (1999). Altered Pituitary Sensitivity to Corticotropin-Releasing Factor and Arginine Vasopressin Participates in the Stress Hyporesponsiveness of Lactation in the Rat: Journal of Neuroendocrinology Vol 11(10) Oct 1999, 757-764.
  • Trabert, W., Caspari, D., Bernhard, P., & Biro, G. (1992). Inappropriate vasopressin secretion in severe alcohol withdrawal: Acta Psychiatrica Scandinavica Vol 85(5) May 1992, 376-379.
  • Tsikunov, S. G., & Belokoskova, S. G. (2007). Psychophysiological analysis of the influence of vasopressin on speech in patients with post-stroke aphasias: The Spanish Journal of Psychology Vol 10(1) May 2007, 178-188.
  • Tushmalova, N. A., Ashapkin, V. V., & Kvekveskiri, N. L. (1986). Peptide correction of rats' memory disturbed by food deprivation: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 36(5) Sep-Oct 1986, 925-929.
  • Urban, I., & de Wied, D. (1978). Neuropeptides: Effects on paradoxical sleep and theta rhythm in rats: Pharmacology, Biochemistry and Behavior Vol 8(1) Jan 1978, 51-59.
  • Van Beek-Verbeek, G., Fraenkel, H. M., & Van Ree, J. M. (1983). Des-gly-9-[arg-8]-vasopressin may facilitate methadone detoxification of heroin addicts: Substance & Alcohol Actions/Misuse Vol 4(5) 1983, 375-382.
  • Van der Veen, D. R., Castillo, M. R., Van der Zee, E. A., Jansen, K., Gerkema, M. P., & Bult-Ito, A. (2005). Circadian dynamics of vasopressin in mouse selection lines: translation and release in the SCN: Brain Research Vol 1060(1-2) Oct 2005, 16-25.
  • Van Haaren, F., Heinsbroek, R. P., Louwerse, A., & Van de Poll, N. E. (1986). Vasopressin has general rate-decreasing effects on schedules maintaining either high or low response rates: Psychopharmacology Vol 89(1) May 1986, 69-72.
  • Van Haaren, F., Van de Poll, N. E., & Van Oyen, H. G. (1985). Age effects on passive avoidance behavior of vasopressin-deficient Brattleboros: Physiology & Behavior Vol 34(1) Jan 1985, 115-117.
  • Van Haaren, F., Van Zanten, S., & Van de Poll, N. E. (1986). Vasopressin disrupts radial-maze performance in rats: Behavioral & Neural Biology Vol 45(3) May 1986, 350-357.
  • Van Heuven-Nolsen, D., & Versteeg, D. H. (1985). Interaction of vasopressin with the nigro-striatal dopamine system: Site and mechanism of action: Brain Research Vol 337(2) Jul 1985, 269-276.
  • van Londen, L., Goekoop, J. G., Kerkhof, G. A., Zwinderman, K. H., Wiegant, V. M., & De Wied, D. (2001). Weak 24-h periodicity of body temperature and increased plasma vasopressin in melancholic depression: European Neuropsychopharmacology Vol 11(2) Feb 2001, 7-14.
  • van Londen, L., Goekoop, J. G., van Kempen, G. M. J., Frankhuijzen-Sierevogel, A. C., Wiegant, V. M., van der Velde, E. A., et al. (1997). Plasma levels of arginine vasopressin elevated in patients with major depression: Neuropsychopharmacology Vol 17(4) Oct 1997, 284-292.
  • Van Londen, L., Goekoop, J. G., Zwinderman, A. H., Lanser, J. B. K., Wiegant, V. M., & De Wied, D. (1998). Neuropsychological performance and plasma cortisol, arginine vasopressin and oxytocin in patients with major depression: Psychological Medicine Vol 28(2) Mar 1998, 275-284.
  • van Londen, L., Kerkhof, G. A., van den Berg, F., Goekoop, J. G., Zwinderman, K. H., Frankhuijzen-Sierevogel, A. C., et al. (1998). Plasma arginine vasopressin and motor activity in major depression: Biological Psychiatry Vol 43(3) Feb 1998, 196-204.
  • Van Ree, J. M., & de Wied, D. (1977). Effect of neurohypophyseal hormones on morphine dependence: Psychoneuroendocrinology Vol 2(1) Jan 1977, 35-41.
  • van Ree, J. M., & de Wied, D. (1977). Heroin self-administration is under control of vasopressin: Life Sciences Vol 21(3) Aug 1977, 315-320.
  • Van Ree, J. M., & de Wied, D. (1977). Modulation of heroin self-administration by neurohypophyseal principles: European Journal of Pharmacology Vol 43(2) May 1977, 199-202.
  • Van Ree, J. M., Hijman, R., Jolles, J., & de Wied, D. (1985). Vasopressin and related peptides: Animal and human studies: Progress in Neuro-Psychopharmacology & Biological Psychiatry Vol 9(5-6) 1985, 551-559.
  • van West, D., Del-Favero, J., Aulchenko, Y., Oswald, P., Souery, D., Forsgren, T., et al. (2004). A major SNP haplotype of the arginine vasopressin 1B receptor protects against recurrent major depression: Molecular Psychiatry Vol 9(3) Mar 2004, 287-292.
  • Van Wimersma Greidanus, T. B. (1982). Disturbed behavior and memory of the Brattleboro rat: Annals of the New York Academy of Sciences Vol 394 Oct 1982, 655-662.
  • Van Wimersma Greidanus, T. B., Croiset, G., Goedemans, H., & Dogterom, J. (1979). Vasopressin levels in peripheral blood and in cerebrospinal fluid during passive and active avoidance behavior in rats: Hormones and Behavior Vol 12(2) Apr 1979, 103-111.
  • Van Wimersma Greidanus, T. B., & de Wied, D. (1976). Modulation of passive-avoidance behavior of rats by intracerebroventricular administration of antivasopressin serum: Behavioral Biology Vol 18(3) Nov 1976, 325-333.
  • Van Wimersma Greidanus, T. B., & de Wied, D. (1980). Physiological significance of neurohypophyseal hormones in memory processes: Acta Psychiatrica Belgica Vol 80(5) Sep-Oct 1980, 721-727.
  • van Wimersma Greidanus, T. B., & Maigret, C. (1996). The role of limbic vasopressin and oxytocin in social recognition: Brain Research Vol 713(1-2) Mar 1996, 153-159.
  • Van Wimersma Greidanus, T. B., & Veldhuis, H. D. (1985). Vasopressin: Site of behavioral action and role in human mental performance: Peptides Vol 6(Suppl 2) 1985, 177-180.
  • van Zwieten, E. J., Ravid, R., & Swaab, D. F. (1996). Differential vasopressin and oxytocin innervation of the human parabrachial nucleus: No changes in Alzheimer's disease: Brain Research Vol 711(1-2) Mar 1996, 146-152.
  • Varlinskaya, E. I., Petrov, E. S., Robinson, S. R., & Smotherman, W. P. (1994). Behavioral effects of centrally administered arginine vasopressin in the rat fetus: Behavioral Neuroscience Vol 108(2) Apr 1994, 395-409.
  • Varlinskaya, E. I., Petrov, E. S., & Smotherman, W. P. (1996). Endogenous AVP systems regulate oral behavior in the rat fetus: Neuropeptide systems as ontogenetic adaptations: Behavioral Neuroscience Vol 110(5) Oct 1996, 1148-1157.
  • Vartanyan, G. A., Makarova, T. M., Lebedev, A. A., Varlinskaya, E. I., & et al. (1989). Lateralized influence of arginine-vasopressin on hypothalamic self-stimulation in rats: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 39(6) 1989, 1155-1156.
  • Vawter, M. P., & Green, K. F. (1980). Effects of desglycinamide-lysine vasopressin on a conditioned taste aversion in rats: Physiology & Behavior Vol 25(6) Dec 1980, 851-854.
  • Vawter, M. P., & van Ree, J. M. (1995). Effects of des-glycinamide-9-[arginine-8] vasopressin upon spatial memory in the hole-board search task: Psychobiology Vol 23(1) Mar 1995, 45-51.
  • Veenema, A. H., Blume, A., Niederle, D., Buwalda, B., & Neumann, I. D. (2006). Effects of early life stress on adult male aggression and hypothalamic vasopressin and serotonin: European Journal of Neuroscience Vol 24(6) Sep 2006, 1711-1720.
  • Veenema, A. H., Bredewold, R., & Neumann, I. D. (2007). Opposite effects of maternal separation on intermale and maternal aggression in C57BL/6 mice: Link to hypothalamic vasopressin and oxytocin immunoreactivity: Psychoneuroendocrinology Vol 32(5) Jun 2007, 437-450.
  • Verbalis, J. G., McHale, C. M., Gardiner, T. W., & Stricker, E. M. (1986). Oxytocin and vasopressin secretion in response to stimuli producing learned taste aversions in rats: Behavioral Neuroscience Vol 100(4) Aug 1986, 466-475.
  • Verevkina, S. V. (1987). The effects of vasopressin on behaviour of animals: Fiziologicheskii Zhurnal SSSR im I M Sechenova Vol 73(5) May 1987, 590-594.
  • Verevkina, S. V. (1988). Some mechanisms of action of vasopressin on animal behavior: Neuroscience and Behavioral Physiology Vol 18(4) Jul-Aug 1988, 306-310.
  • Verevkina, S. V. (1991). The effect of vasopressin microinjections into cerebral inhibitory centres on the rat behaviour: Fiziologicheskii Zhurnal SSSR im I M Sechenova Vol 77(8) Aug 1991, 33-38.
  • Versteeg, C. A., Bohus, B., & de Jong, W. (1982). Inhibition of centrally-evoked pressor responses by neurohypophyseal peptides and their fragments: Neuropharmacology Vol 21(12) Dec 1982, 1359-1364.
  • Vieweg, V., Veldhuis, J., Leadbetter, R., & Hundley, P. (1991). Cigarette use and hyponatremia in schizophrenic patients: American Journal of Psychiatry Vol 148(5) May 1991, 688-689.
  • Vieweg, W. V., David, J. J., Rowe, W. T., Peach, M. J., & et al. (1986). Correlation of cigarette-induced increase in serum nicotine levels with arginine vasopressin concentrations in the syndrome of self-induced water intoxication and psychosis (SIWIP): The Canadian Journal of Psychiatry / La Revue canadienne de psychiatrie Vol 31(2) Mar 1986, 108-111.
  • Vieweg, W. V., Robertson, G. L., Godleski, L. S., & Yank, G. R. (1988). Diurnal variation in water homeostasis among schizophrenic patients subject to water intoxication: Schizophrenia Research Vol 1(5) Sep-Oct 1988, 351-357.
  • Vojtechovsky, M., Neumann, J., & Krejci, I. (1981). Effect of a vasopressin analogue in amnesia: Activitas Nervosa Superior Vol 23(3) Sep 1981, 230-232.
  • Volpi, S., Rabadan-Diehl, C., & Aguilera, G. (2004). Vasopressinergic regulation of the hypothalamic pituitary adrenal axis and stress adaptation: Stress: The International Journal on the Biology of Stress Vol 7(2) Jun 2004, 75-83.
  • von Bardeleben, U., Holsboer, F., Stalla, G. K., & Muller, O. A. (1985). Combined administration of human corticotropin-releasing factor and lysine vasopressin induces cortisol escape from dexamethasone suppression in healthy subjects: Life Sciences Vol 37(17) Oct 1985, 1613-1618.
  • Wade, C. E. (1984). Response, regulation, and actions of vasopressin during exercise: A review: Medicine & Science in Sports & Exercise Vol 16(5) Oct 1984, 506-511.
  • Wade, C. E., & Hunt, M. M. (1986). Drinking and subsequent suppression of vasopressin is unaltered by naloxone in dogs: Pharmacology, Biochemistry and Behavior Vol 24(4) Apr 1986, 1129-1132.
  • Wahlbeck, K., Sundblom, M., Kalso, E., Tigerstedt, I., & et al. (1996). Elevated plasma vasopressin and normal cerebrospinal fluid angiotensin-converting enzyme in chronic pain disorder: Biological Psychiatry Vol 40(10) Nov 1996, 994-999.
  • Waller, D. G., Albano, J. D., & Edwards, J. G. (1987). Urinary cyclic AMP response to bovine parathyroid hormone during treatment with neuroleptics: Human Psychopharmacology: Clinical and Experimental Vol 2(2) Jun 1987, 105-107.
  • Waller, D. G., Campbell, S. K., & Albano, J. D. (1988). Urinary kallikrein excretion after DDAVP during lithium treatment: Human Psychopharmacology: Clinical and Experimental Vol 3(1) Mar 1988, 53-56.
  • Walsh, P., Spelman, L., Sharifi, N., & Thakore, J. H. (2005). Male patients with paranoid schizophrenia have greater ACTH and cortisol secretion in response to metoclopramide-induced AVP release: Psychoneuroendocrinology Vol 30(5) Jun 2005, 431-437.
  • Walter, R., & et al. (1982). The cyclized C-terminal dipeptide of arginine vasopressin: Metabolic stability and antagonism of puromycin-induced amnesia: Hormones and Behavior Vol 16(2) Jun 1982, 234-244.
  • Wan, R., Du, K., Ji, X., & Xiao, X. (1986). The effect of vasopressin on memory-consolidation processes: III. The effect of GABA-ergic drugs on passive-avoidance behavior in vasopressin-treated rats: Acta Psychologica Sinica Vol 18(2) 1986, 210-214.
  • Wang, H.-H. (1998). Between self and others: A qualitative study of the career construction process of college-track students in Taiwan. Dissertation Abstracts International Section A: Humanities and Social Sciences.
  • Wang, Z. (1995). Species differences in the vasopressin-immunoreactive pathways in the bed nucleus of the stria terminalis and medial amygdaloid nucleus in prairie voles (Microtus ochrogaster) and meadow voles (Microtus pennsylvanicus): Behavioral Neuroscience Vol 109(2) Apr 1995, 305-311.
  • Wang, Z., & De Vries, G. J. (1993). Testosterone effects on paternal behavior and vasopressin immunoreactive projections in prairie voles (Microtus ochrogaster): Brain Research Vol 631(1) Dec 1993, 156-160.
  • Wang, Z., Smith, W., Major, D. E., & de Vries, G. J. (1994). Sex and species differences in the effects of cohabitation on vasopressin messenger RNA expression in the bed nucleus of the stria terminalis in prairie voles (Microtus ochrogaster) and meadow voles (Microtus pennsylvanicus): Brain Research Vol 650(2) Jul 1994, 212-218.
  • Wang, Z. X., Liu, Y., Young, L. J., & Insel, T. R. (2000). Hypothalamic Vasopressin Gene Expression Increases in Both Males and Females Postpartum in a Biparental Rodent: Journal of Neuroendocrinology Vol 12(2) Feb 2000, 111-120.
  • Warren, P. H., & Gash, D. M. (1983). Hyperreflexive behavior in Brattleboro rats: Peptides Vol 4(4) Jul-Aug 1983, 421-424.
  • Wassink, T. H., Piven, J., Vieland, V. J., Pietila, J., Goedken, R. J., Folstein, S. E., et al. (2004). Examination of AVPR1a as an autism susceptibility gene: Molecular Psychiatry Vol 9(10) Oct 2004, 968-972.
  • Watkins, L. R., Suberg, S. N., Thurston, C. L., & Chulhane, E. S. (1986). Role of spinal cord neuropeptides in pain sensitivity and analgesia: Thyrotropin releasing hormone and vasopressin: Brain Research Vol 362(2) Jan 1986, 308-317.
  • Watson, S., Gallagher, P., Ferrier, I. N., & Young, A. H. (2006). Post-dexamethasone arginine vasopressin levels in patients with severe mood disorders: Journal of Psychiatric Research Vol 40(4) Jun 2006, 353-359.
  • Watson, S., Gallagher, P., Smith, M. S., Young, A. H., & Ferrier, I. N. (2007). Lithium, arginine vasopressin and the dex/CRH test in mood disordered patients: Psychoneuroendocrinology Vol 32(5) Jun 2007, 464-469.
  • Watters, J. J., Swank, M. W., Wilkinson, C. W., & Dorsa, D. M. (1996). Evidence for glucocorticoid regulation of the rat vasopressin V-sub(1a ) receptor gene: Peptides Vol 17(1) 1996, 67-73.
  • Webb, A. C., Ebenezer, I. S., & Burns, B. D. (1986). The effects of arginine-8 vasopressin on the cerebral cortex of rats anaesthetised with urethane: Neuropharmacology Vol 25(4) Apr 1986, 425-431.
  • Weingartner, H., & et al. (1981). Effects of vasopressin on human memory functions: Science Vol 211(4482) Feb 1981, 601-603.
  • Welt, T., Engelmann, M., Renner, U., Erhardt, A., Muller, M. B., Landgraf, R., et al. (2006). Temazepam Triggers the Release of Vasopressin into the Rat Hypothalamic Paraventricular Nucleus: Novel Insight into Benzodiazepine Action on Hypothalamic-Pituitary-Adrenocortical System Activity During Stress: Neuropsychopharmacology Vol 31(12) Dec 2006, 2573-2579.
  • Wersinger, S. R., Caldwell, H. K., Christiansen, M., & Young, W. S., III. (2007). Disruption of the vasopressin 1b receptor gene impairs the attack component of aggressive behavior in mice: Genes, Brain & Behavior Vol 6(7) Oct 2007, 653-660.
  • Wersinger, S. R., Caldwell, H. K., Martinez, L., Gold, P., Hu, S. B., & Young, W. S., III. (2007). Vasopressin 1a receptor knockout mice have a subtle olfactory deficit but normal aggression: Genes, Brain & Behavior Vol 6(6) Aug 2007, 540-551.
  • Wersinger, S. R., Ginns, E. l., O'Carroll, A. M., Lolait, S. J., & Young, W. S., III. (2002). Vasopressin V1b receptor knockout reduces aggressive behavior in male mice: Molecular Psychiatry Vol 7(9) 2002, 975-984.
  • Wersinger, S. R., Kelliher, K. R., Zufall, F., Lolait, S. J., O'Carroll, A.-M., & Young, W. S., III. (2004). Social motivation is reduced in vasopressin 1b receptor null mice despite normal performance in an olfactory discrimination task: Hormones and Behavior Vol 46(5) Dec 2004, 638-645.
  • Whitnall, M. H. (1988). Is there a "final common pathway" in the regulation of ACTH release? New York, NY: Plenum Press.
  • Wideman, C. H., & Murphy, H. M. (1985). Effects of vasopressin deficiency, age, and stress on stomach ulcer induction in rats: Peptides Vol 6(Suppl 1) 1985, 63-67.
  • Wideman, C. H., & Murphy, H. M. (1986). The pathological effects of limited feeding in vasopressin-deficient animals: Bulletin of the Psychonomic Society Vol 24(3) May 1986, 225-228.
  • Wideman, C. H., & Murphy, H. M. (1990). Vasopressin, maternal behavior, and pup well-being: Current Psychology: Research & Reviews Vol 9(3) Fal 1990, 285-295.
  • Wideman, C. H., & Murphy, H. M. (1991). Effects of vasopressin replacement during food-restriction stress: Peptides Vol 12(2) Mar-Apr 1991, 285-288.
  • Wideman, C. H., & Murphy, H. M. (1993). Modulatory effects of vasopressin on glucose and protein metabolism during food-restriction stress: Peptides Vol 14(2) Mar-Apr 1993, 259-261.
  • Wideman, C. H., Murphy, H. M., & McCartney, S. B. (1996). Interactions between vasopressin and food restriction on stress-induced analgesia: Peptides Vol 17(1) 1996, 63-66.
  • Willcox, B. J., Poulin, P., Veale, W. L., & Pittman, Q. J. (1992). Vasopressin-induced motor effects: Localization of a sensitive site in the amygdala: Brain Research Vol 596(1-2) Nov 1992, 58-64.
  • Williams, A. R., Carey, R. J., & Miller, M. (1983). Behavioral differences between vasopressin-deficient (Brattleboro) and normal Long-Evans rats: Peptides Vol 4(5) Sep-Oct 1983, 711-716.
  • Williams, A. R., Carey, R. J., & Miller, M. (1983). Effect of vasopressin on open field and activity behavior of the vasopressin-deficient (Brattleboro) rat: Peptides Vol 4(5) Sep-Oct 1983, 717-720.
  • Williams, A. R., Carey, R. J., & Miller, M. (1985). Altered emotionality of the vasopressin-deficient Brattleboro rat: Peptides Vol 6(Suppl 1) 1985, 69-76.
  • Winnicka, M. M. (1996). 6-OHDA bilateral lesions to the central amygdala do not affect vasopressin improvement of recall in rats: Acta Neurobiologiae Experimentalis Vol 56(4) 1996, 943-948.
  • Winslow, J. T., Hastings, N., Carter, C. S., Harbaugh, C. R., & et al. (1993). A role for central vasopressin in pair bonding in monogamous prairie voles: Nature Vol 365(6446) Oct 1993, 545-548.
  • Witt, D. M. (1995). Oxytocin and rodent sociosexual responses: From behavior to gene expression: Neuroscience & Biobehavioral Reviews Vol 19(2) Sum 1995, 315-324.
  • Wolff, K., Tsapakis, E. M., Winstock, A. R., Hartley, D., Holt, D., Forsling, M. L., et al. (2006). Vasopressin and oxytocin secretion in response to the consumption of ecstasy in a clubbing population: Journal of Psychopharmacology Vol 20(3) May 2006, 400-410.
  • Wolters, E. C., Riekkinen, P., Lowenthal, A., Van der Plaats, J. J., & et al. (1990). DGAVP (Org 5667) in early Alzheimer's disease patients: An international double-blind, placebo-controlled, multicenter trial: Neurology Vol 40(7) Jul 1990, 1099-1101.
  • Wotjak, C. T., Kubota, M., Kohl, G., & Landgraf, R. (1996). Release of vasopressin from supraoptic neurons within the median eminence in vivo: A combined microdialysis and push-pull perfusion study in the rat: Brain Research Vol 726(1-2) Jul 1996, 237-241.
  • Wotjak, C. T., Kubota, M., Liebsch, G., Montkowski, A., & et al. (1996). Release of vasopressin within the rat paraventricular nucleus in response to emotional stress: A novel mechanism of regulating adrenocorticotropic hormone secretion? : Journal of Neuroscience Vol 16(23) Dec 1996, 7725-7732.
  • Wright, D. M., & Lincoln, D. W. (1985). Stress-induced analgesia evoked by intraperitoneal injection of hypertonic saline: Evidence for its occurrence in vasopressin deficient rats: Physiology & Behavior Vol 34(5) May 1985, 691-695.
  • Wright, W. A., & Kutscher, C. L. (1977). Vasopressin administration in the first month of life: Effects on growth and water metabolism in hypothalamic diabetes insipidus rats: Pharmacology, Biochemistry and Behavior Vol 6(5) May 1977, 505-509.
  • Wu, P. H., Liu, J. F., Lanca, A. J., & Kalant, H. (1994). Selective involvement of central 5-HT-sub-2 receptors in the maintenance of tolerance to ethanol by arginine-8-vasopressin: Journal of Pharmacology and Experimental Therapeutics Vol 270(2) Aug 1994, 802-808.
  • Wu, P. H., Liu, J. F., Mihic, S. J., & Kalant, H. (1992). Arginine-8-vasopressin potentiates acute ethanol intoxication: Pharmacology, Biochemistry and Behavior Vol 41(2) Feb 1992, 409-414.
  • Wurpel, J. N., & et al. (1986). Barrel rotation by evoked intracerebroventricular vasopressin injections in conscious rats: I. Description and general pharmacology: Brain Research Vol 365(1) Feb 1986, 21-29.
  • Wurpel, J. N., & et al. (1986). Barrel rotation evoked by intracerebroventricular vasopressin injections in conscious rats: II. Visual/vestibular interactions and efficacy of antiseizure drugs: Brain Research Vol 365(1) Feb 1986, 30-41.
  • Wysham, C., Pfohl, B., & Kathol, R. G. (1986). Arginine vasopressin stimulation and imipramine: Biological Psychiatry Vol 21(13) Nov 1986, 1353-1355.
  • Xie, Y.-L., Lu, W., & Jiang, X.-G. (2006). Improvement of cationic albumin conjugated pegylated nanoparticles holding NC-1900, a vasopressin fragment analog, in memory deficits induced by scopolamine in mice: Behavioural Brain Research Vol 173(1) Oct 2006, 76-84.
  • Yagi, K. (1994). Effects of a histamine H2-receptor antagonist, ranitidine on the vasopressin and oxytocin responses to novelty stress in the rat: Neuroscience Research Vol 19(4) Jun 1994, 357-364.
  • Yagi, K., & Onaka, T. (1999). Does the pineal gland play a role in neuroendocrine fear responses? : Neuroreport: For Rapid Communication of Neuroscience Research Vol 10(4) Mar 1999, 771-774.
  • Yamaguchi, K. i., & Watanabe, K. (2004). Pursuit of roles for metabotropic glutamate receptors in the anteroventral third ventricular region in regulating vasopressin secretion and cardiovascular function in conscious rats: Brain Research Bulletin Vol 63(4) May 2004, 321-329.
  • Yang, J., Chen, J.-m., Song, C.-Y., Liu, W.-Y., Wang, G., Wang, C.-h., et al. (2006). Through the central V2, not V1 receptors influencing the endogenous opiate peptide system, arginine vasopressin, not oxytocin in the hypothalamic paraventricular nucleus involves in the antinociception in the rat: Brain Research Vol 1069(1) Jan 2006, 127-138.
  • Yang, J., Lin, B.-c., Wang, C.-h., Song, C.-y., & et al. (1989). The effect of psychological stress on human blood pressure, heart rate, respiratory frequency and the contents of ir-AVP in plasma and cerebrospinal fluid: Acta Psychologica Sinica Vol 21(2) 1989, 191-194.
  • Yang, J., Liu, W.-y., Song, C.-y., & Lin, B.-c. (2006). Only arginine vasopressin, not oxytocin and endogenous opiate peptides, in hypothalamic paraventricular nucleus play a role in acupuncture analgesia in the rat: Brain Research Bulletin Vol 68(6) Feb 2006, 453-458.
  • Yang, J., Yang, Y., Chen, J.-M., Wang, G., Xu, H.-T., Liu, W.-Y., et al. (2007). Periaqueductal gray knockdown of V-sub-2, not V-sub(1a) and V-sub(1b) receptor influences nociception in the rat: Neuroscience Research Vol 57(1) Jan 2007, 104-111.
  • Yayou, K., Sato, Y., Ito, S., & Nakamura, M. (2008). Comparison between the central effects of CRH and AVP in steers: Physiology & Behavior Vol 93(3) Feb 2008, 537-545.
  • Yayou, K., Seo, T., Uetake, K., Ito, S., & Nakamura, M. (2007). Effects of intracerebroventricular infusions of arginine vasopressin in sheep: Physiology & Behavior Vol 90(2-3) Feb 2007, 376-381.
  • Yirmiya, N., Rosenberg, C., Levi, S., Salomon, S., Shulman, C., Nemanov, L., et al. (2006). Association between the arginine vasopressin 1a receptor (AVPR1a) gene and autism in a family-based study: Mediation by socialization skills: Molecular Psychiatry Vol 11(5) May 2006, 488-494.
  • Yirmiya, R., Ben-Eliyahu, S., Shavit, Y., Marek, P., & et al. (1990). Stimulation of the hypothalamic paraventricular nucleus produces analgesia not mediated by vasopressin or endogenous opioids: Brain Research Vol 537(1-2) Dec 1990, 169-174.
  • Yirmiya, R., & Holder, M. D. (1987). Effects of naloxone and cholecystokinin on food and water intake in vasopressin-deficient rats (Brattleboro strain): Peptides Vol 8(5) Sep-Oct 1987, 763-767.
  • Yirmiya, R., Holder, M. D., & Garcia, J. (1987). Conditioned taste aversion in vasopressin-deficient rats (Brattleboro strain): Physiology & Behavior Vol 39(4) 1987, 489-493.
  • Young, L. J. (1999). Oxytocin and vasopressin receptors and species-typical social behaviors: Hormones and Behavior Vol 36(3) Dec 1999, 212-221.
  • Young, L. J. (2002). The neurobiology of social recognition: Approach, and avoidance: Biological Psychiatry Vol 51(1) Jan 2002, 18-26.
  • Young, L. J., Lim, M. M., Gingrich, B., & Insel, T. R. (2001). Cellular mechanisms of social attachment: Hormones and Behavior Vol 40(2) Sep 2001, 133-138.
  • Young, L. J., Nilsen, R., Waymire, K. G., MacGregor, G. R., & Insel, T. R. (1999). Increased affiliative response to vasopressin in mice expressing the V-sub(1a ) receptor from a monogamous vole: Nature Vol 400(6746) Aug 1999, 766-768.
  • Young, L. J., & Wang, Z. (2004). The neurobiology of pair bonding: Nature Neuroscience Vol 7(10) Oct 2004, 1048-1054.
  • Young, L. J., Wang, Z., Cooper, T. T., & Albers, H. E. (2000). Vasopressin (V-sub(1a)) Receptor Binding, mRNA Expression and Transcriptional Regulation by Androgen in the Syrian Hamster Brain: Journal of Neuroendocrinology Vol 12(12) Dec 2000, 1179-1185.
  • Young, L. J., Wang, Z., & Insel, T. R. (1998). Neuroendocrine bases of monogamy: Trends in Neurosciences Vol 21(2) Feb 1998, 71-75.
  • Young, L. J., Winslow, J. T., Nilsen, R., & Insel, T. R. (1997). Species differences in V-sub-1a receptor gene expression in monogamous and nonmonogamous voles: Behavioral consequences: Behavioral Neuroscience Vol 111(3) Jun 1997, 599-605.
  • Zelena, D., Foldes, A., Mergl, Z., Barn, I., Kovacs, K. J., & Makara, G. B. (2004). Effects of repeated restraint stress on hypothalamo-pituitary-adrenocortical function in vasopressin deficient Brattleboro rats: Brain Research Bulletin Vol 63(6) Jul 2004, 521-530.
  • Zelena, D., Mergl, Z., & Makara, G. B. (2003). Maternal Genotype Influences Stress Reactivity Vasopressin-Deficient Brattleboro Rats: Journal of Neuroendocrinology Vol 15(12) Dec 2003, 1105-1110.
  • Zhang, Y., Zhang, S., Zhang, M., Sun, H., & et al. (1991). The behavioral effect of a monoclonal antibody to: Acta Psychologica Sinica Vol 23(1) 1991, 88-93.
  • Zhou, J. N., Hofman, M. A., & Swaab, D. F. (1995). No changes in the number of vasoactive intestinal polypeptide (VIP)-expressing neurons in the suprachiasmatic nucleus of homosexual men; comparison with vasopressin-expressing neurons: Brain Research Vol 672(1-2) Feb 1995, 285-288.
  • Zhou, J.-N., Riemersma, R. F., Unmehopa, U. A., Hoogendijk, W. J. G., van Heerikhuize, J. J., Hofman, M. A., et al. (2001). Alterations in arginine vasopressin neurons in the suprachiasmatic nucleus in depression: Archives of General Psychiatry Vol 58(7) Jul 2001, 655-662.
  • Zhou, Y., Leri, F., Cummins, E., Hoeschele, M., & Kreek, M. J. (2008). Involvement of arginine vasopressin and VIb receptor in heroin withdrawal and heroin seeking precipitated by stress and by heroin: Neuropsychopharmacology Vol 33(2) Jan 2008, 226-236.
  • Zhukov, D. A. (1993). Enhanced plasma vasopressin and the dexamethasone nonsuppression in rats exposed to inescapable shock: Fiziologicheskii Zhurnal SSSR im I M Sechenova Vol 79(12) Dec 1993, 35-38.
  • Ziedonis, D. M., Severs, W. B., Brennan, R. W., & Page, R. B. (1986). Blood flow and functional responses correlate in the ovine neural lobe: Brain Research Vol 373(1-2) May 1986, 27-34.
  • Zimmerman, M. B., Blaine, E. H., & Stricker, E. M. (1981). Water intake in hypovolemic sheep: Effects of crushing the left atrial appendage: Science Vol 211(4481) Jan 1981, 489-491.
  • Zimmermann, U., Spring, K., Wittchen, H. U., Himmerich, H., Landgraf, R., Uhr, M., et al. (2004). Arginine vasopressin and adrenocorticotropin secretion in response to psychosocial stress is attenuated by ethanol in sons of alcohol-dependent fathers: Journal of Psychiatric Research Vol 38(4) Jul-Aug 2004, 385-393.
  • Zohar, J., & et al. (1985). Effect of lysine vasopressin in depressed patients on mood and 24-hour rhythm of growth hormone, cortisol, melatonin and prolactin: Psychoneuroendocrinology Vol 10(3) 1985, 273-279.
  • Zubenko, G. S., Altesman, R. I., Cassidy, J. W., & Barreira, P. J. (1984). Disturbances of thirst and water homeostasis in patients with affective illness: American Journal of Psychiatry Vol 141(3) Mar 1984, 436-437.
  • Zubrzycka, M., & Janecka, A. (2005). Effects of centrally administered vasopressin on orofacial pain perception in rats: Brain Research Vol 1051(1-2) Jul 2005, 112-116.


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Target-derived NGF, BDNF, NT-3

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