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Monoamine oxidase inhibitors (MAOIs) are a powerful class of antidepressant drugs prescribed for the treatment of depression. They are particularly effective in treating atypical depression, and have also shown efficacy in helping smokers to quit.
Due to potentially lethal dietary and drug interactions, a 24 hour urine analysis, testing levels of 5-HIAA should be done, in order to determine serotonin levels. If the analysis shows lower than average levels of serotonin, a tryptophan (found in bananas) supplement should be added (in case of deficiency). After six to eight weeks, a second 24 hour urine analysis should be done to determine if serotonin levels have increased. Again, due to potentially lethal dietary and drug interactions, MAOIs had been reserved as a last line of defense, used only when other classes of antidepressant drugs (for example selective serotonin reuptake inhibitors and tricyclic antidepressants) have been tried unsuccessfully. Recently, a patch form of the drug selegiline, called Emsam, was developed. It was approved for use by the FDA on February 28, 2006. When applied transdermally the drug does not enter the gastro-intestinal system as it does when taken orally, thereby decreasing the dangers of dietary interactions associated with MAOI pills.
Therapeutic use Edit
In the past they were prescribed for those resistant to tricyclic antidepressant therapy, but newer MAOIs are now sometimes used as first-line therapy. They are also used for treating agoraphobia and social anxiety. Currently, the availability of selegiline and moclobemide provides a safer alternative, although not always as effective as the old types.
MAO inhibitors can also be used in the treatment of Parkinson's disease (by affecting dopaminergic neurons), as well as an alternative for migraine prophylaxis.
Mode of action Edit
MAOIs act by inhibiting the activity of monoamine oxidase preventing the breakdown of monoamine neurotransmitters and so increasing the available stores. There are two isoforms of monoamine oxidase, MAO-A and MAO-B. MAO-A preferentially deaminates serotonin, melatonin, adrenaline and noradrenaline. MAO-B preferentially deaminates phenylethylamine and trace amines. Dopamine is equally deaminated by both types. Many formulations use forms of fluoride attached to assist getting past the blood-brain barrier and is suspected as a factor in pineal gland effects.
The early MAOIs inhibited monoamine oxidase irreversibly. When they react with monoamine oxidase, they permanently deactivate it, and the enzyme cannot function until it has been replaced by the body, which can take about two weeks. A few newer MAOIs, notably moclobemide, are reversible, meaning that they are able to detach from the enzyme to facilitate usual anabolism of the substrate. The level of inhibition in this way is governed by the respective concentrations of the substrate and the MAOI.
In addition to reversibility, MAOIs differ by their selectivity of the MAO receptor. Older MAOIs inhibit both MAO-A and MAO-B equally, but newer MAOIs have been developed that target one over the other. A 300 mg dose of moclobemide (Manerix, Aurorix) causes 80% inhibition of MAO-A and 20-30% inhibition of MAO-B. MAO-A inhibition increases primarily serotonin, epinephrine, and norepinephrine, and thus has a higher risk of serotonin syndrome and/or a hypertensive crisis. This leads to dietary restrictions. MAO-B inhibition increases only dopamine, thus significantly decreasing risk of serotonin syndrome and possibly hypertensive crisis. Two such drugs, selegiline and rasagiline have been approved by the FDA to not require dietary restrictions, except in high dosage treatment. 
When ingested orally, MAOIs inhibit the catabolism of dietary amines. Sufficient intestinal MAO-A inhibition can lead to hypertensive crisis, when foods containing tyramine are consumed (so-called "cheese syndrome"), or hyperserotonemia if foods containing tryptophan are consumed. The amount required to cause a reaction exhibits great individual variation and depends on the degree of inhibition, which in turn depends on dosage and selectivity.
The exact mechanism by which tyramine causes a hypertensive reaction is not well understood, but it is assumed that tyramine displaces norepinephrine from the storage vesicles. This may trigger a cascade in which excessive amounts of norepinephrine can lead to a hypertensive crisis. Another theory suggests proliferation and accumulation of catecholamines causes hypertensive crises.
Tyrosine is the precursor to catecholamines, not tyramine. Tyramine is a breakdown product of tyrosine. In the gut and during fermentation tyrosine, an amino acid, is decarboxylated to tyramine. Ordinarily, tyramine is deaminated in the liver to an inactive metabolite, but when the hepatic MAO (primarily MAO-A) is inhibited, the "first-pass" clearance of tyramine is blocked and circulating tyramine levels can climb. Elevated tyramine competes with tyrosine for transport across the blood-brain barrier (via aromatic amino acid transport) where it can then enter adrenergic nerve terminals. Once in the cytoplasmic space, tyramine will be transported via the vesicular monoamine transporter (VMAT) into synaptic vesicles thereby displacing norepinephrine. The mass transfer of norepinephrine from its vesicular storage space into the extracellular space via mass action can precipitate the hypertensive crisis. Hypertensive crises can sometimes result in stroke or cardiac arrhythmia if not treated. This risk is generally not present with RIMAs. Both kinds of intestinal MAO inhbition can cause hyperpyrexia, nausea and psychosis if foods high in levodopa are consumed.
Chronic use of MAOIs may provide some antidepressant effects that are thought to be mediated by metabolism of tyramine to octopamine, a reaction catalyzed by phenyl-N-methyl transferase that normally converts dopamine to norepinephrine. Octopamine may then act as a "false transmitter" in that it is stored and released like the endogenous transmitter norepinephrine. However, it is a poor agonist of postsynaptic adrenoceptors while retaining agonist activity at presynaptic autoreceptors. This action reduces adrenergic transmission by diminishing postsynaptic receptor activation and by a presynaptic autoinhibitory effect. Finally, octopamine may serve as an agonist at a novel "trace amine" receptor expressed at low levels throughout the brain.
Examples of foods and drinks with potentially high levels of tyramine include fermented substances, such as Chianti and other aged wines, and aged cheeses. Liver is also a well-known source. (See a list of foods containing tyramine). Examples of levodopa-containing foods include broad beans. These diet restrictions are not necessary for those taking selective MAO-B inhibitors.
When MAOIs were first introduced, these risks were not known, and over the following four decades, fewer than 100 people have died from hypertensive crisis. Presumably due to the sudden onset and violent appearance of the reaction, MAOIs gained a reputation for being so dangerous that, for a while, they were taken off the market in America entirely. It is now known that, used as directed under the care of a qualified psychiatrist, this class of drugs remains a safe alternative for intermediate- to long-term use.
The most significant risk associated with the use of MAOIs, is the potential for interactions with over-the-counter and prescription medicines, illicit drugs and certain supplements (e.g. St. John's Wort). It is vital that a doctor supervise such combinations to avoid adverse reactions. For this reason, many users carry an MAOI-card, which lets emergency medical personnel know what drugs to avoid. (E.g. adrenaline dosage should be reduced by 75%, and duration is extended)
MAOIs should not be combined with other psychoactive substances (antidepressants, illicit drugs, painkillers, stimulants, etc.) except under expert care. Certain combinations can cause lethal reactions, common examples including SSRIs, tricyclics, meperidine, tramadol and dextromethorphan. Agents with actions on epinephrine, norepinephrine or dopamine must be administered at much lower doses due to potentiation and prolonged effect. Purely opiate-acting analgesics, such as morphine and buprenorphine may be used safely with MAOIs, but may require a dosage adjustment.
- Sympathomimetics (e.g. psuedoephedrine in cold remedies)
- Risk of hypertensive crisis
- Reserpine, guanethidine, tricyclic antidepressants
- Increase in blood pressure and body temperature
- Risk of hallucination
- Antihistamines, barbiturates, ethanol, opioids
- Action of these drugs prolonged - risk of respiratory depression
- Pethidine (Demerol)
- Risk of high fever, sweating, excitement, delirium, convulsions, respiratory depression (MAO inhibitors retard metabolism of pethidine, but not its demethylation, therefore excess norpethidine is formed).
- MDMA (Ecstasy)
- Risk of hypertensive crisis
- Serotonin syndrome
- DXM (dextromethorphan)
List of MAOIs Edit
Monoamine oxidase inhibitors include:
- Iproniazid (Marsilid, Iprozid, Ipronid, Rivivol, Propilniazida)
- Isocarboxazid (Marplan)
- Moclobemide (Aurorix, Manerix, Moclodura®)
- Phenelzine (Nardil)
- Selegiline (Selegiline, Eldepryl), and Emsam
- Tranylcypromine (Parnate contents 5 mg, Jatrosom contents 10 mg)
- Many tryptamines have MAOI properties. Harmine (present in Harmal, Banisteriopsis caapi, and tobacco) is a powerful MAOI, which is often used as one of the ingredients of ayahuasca. Certain synthetic trytptamines such as AMT, 5-MeO-DMT or 5-MeO-AMT produce only minor MAO inhibition. The phenethylamine derivatives substituted with a sulfur at the 4-position, such as 2C-T-7 are quite potent MAO-A inhibitors, which makes them potentially dangerous when taken in large doses, or when combined with stimulants such as ephedrine or MDMA. Some deaths have occurred from such combinations.
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