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Levodopa chemical structure
Levodopa

(S)-2-amino-3-(3,4-dihydroxyphenyl)
propanoic acid
IUPAC name
CAS number
59-92-7
ATC code

N04BA01

PubChem
6047
DrugBank
APRD00055
Chemical formula C9H11NO4
Molecular weight 197.19 g/mol
Bioavailability 30%
Metabolism Aromatic-L-amino-acid decarboxylase
Elimination half-life 0.75–1.5 hours
Excretion renal 70–80%
Pregnancy category
Legal status Rx-only
Routes of administration oral

Levodopa (INN) or L-DOPA (3,4-dihydroxy-L-phenylalanine) is an intermediate in dopamine biosynthesis. Clinically, levodopa is used in the management of Parkinson's disease. Biologically, it is a component in marine adhesives used by pelagic life.

Therapeutic useEdit

L-Dopa is used to increase dopamine levels for the treatment of Parkinson's disease and Dopa-Responsive Dystonia, since it is able to cross the blood-brain barrier, whereas dopamine itself cannot. Once levodopa has entered the central nervous system (CNS), it is metabolized to dopamine by aromatic L-amino acid decarboxylase. Pyridoxal phosphate (vitamin B6) is a required cofactor for this decarboxylation, and may be administered along with levodopa, usually as pyridoxine.

Conversion to dopamine also occurs in the peripheral tissues, i.e. outside the brain. This may be the mechanism of the adverse effects of levodopa. It is standard clinical practice to co-administer a peripheral DOPA decarboxylase inhibitor—carbidopa or benserazide—and often a catechol-O-methyl transferase (COMT) inhibitor, to prevent synthesis of dopamine in peripheral tissue. Co-administration of pyridoxine without a decarboxylase inhibitor accelerates the extracerebral decarboxylation to such an extent that it cancels out the effects of levodopa administration, a circumstance which historically caused great confusion.

For those taking it as a supplement, EGCG or green tea is a natural decarboxylase inhibitor.

Levodopa, co-administered with a peripheral DOPA decarboxylase inhibitor, has been tested as a possible treatment for restless leg syndrome (RLS) and shown "no clear picture of reduced symptoms".[1]

Adverse effects Edit

Possible adverse drug reactions include:

  • Hypotension, especially if the dosage is too high
  • Arrhythmias, although these are uncommon
  • Nausea, which is often reduced by taking the drug with food, although protein interferes with drug absorption
  • Gastrointestinal bleeding
  • Disturbed respiration, which is not always harmful, and can actually benefit patients with upper airway obstruction
  • Hair loss
  • Confusion
  • Extreme emotional states, particularly anxiety, but also excessive libido
  • Vivid dreams and/or fragmented sleep
  • Visual and possibly auditory hallucinations
  • Effects on learning; there is some evidence that it improves working memory, while impairing other complex functions
  • Sleepiness and sleep attacks
  • A condition similar to amphetamine psychosis.

Although there are many adverse effects associated with levodopa, particularly psychiatric ones, it has fewer than other anti-Parkinson's drugs, including anticholinergics, amantadine, and dopamine agonists.

More serious are the effects of chronic levodopa administration, which include:

  • End-of-dose deterioration of function
  • On/off oscillations
  • Freezing during movement
  • Dose failure (drug resistance)
  • Dyskinesia at peak dose.
  • Recent studies have demonstrated that use of L-dopa without simultaneously giving proper levels of serotonin percursors depletes serotonin.

Clinicians will try to avoid these by limiting levodopa dosages as far as possible until absolutely necessary.

ToxicityEdit

Some studies suggest a cytotoxic role in the promotion and occurrence of adverse effects associated with levodopa treatment.[2] Though the drug is generally safe in humans, some researchers have reported an increase in cytotoxicity markers in rat pheochromocytoma PC12 cell lines treated with levodopa.[3] Other authors have attributed the observed toxic effects of levodopa in neural dopamine cell lines to enhanced formation of quinones through increased auto-oxidation and subsequent cell death in mesencephalic cell cultures.[4][5] Though levodopa is generally considered safe, some controversy surrounds use of the drug in Parkinson's Disease given some data indicating a deleterious effect on intracellular and neuronal tissue involved in the pathogenesis of the disease.[6]

BiosynthesisEdit

File:Catecholamines biosynthesis.svg

L-DOPA is produced from the amino acid tyrosine by the enzyme tyrosine hydroxylase. It is also the precursor molecule for the catecholamine neurotransmitters dopamine and norepinephrine (noradrenaline), and the hormone epinephrine (adrenaline). Dopamine is formed by the decarboxylation of L-DOPA.

L-DOPA can be directly metabolized by catechol-O-methyl transferase (COMT) to 3-O-methyldopa (3-OMD) and then further to vanillactic acid (VLA). This metabolic pathway is non-existent in the healthy body but becomes important after peripheral L-DOPA administration in patients with Parkinson's Disease or in the rare cases of patients with aromatic L-amino acid decarboxylase (AADC) enzyme deficiency.[7]

The prefix L- references its property of levorotation (compared with dextrorotation or D-DOPA).

HistoryEdit

In work that earned him a Nobel Prize in 2000, Swedish scientist Arvid Carlsson first showed in the 1950s that administering levodopa to animals with Parkinsonian symptoms would cause a reduction of the symptoms. The neurologist Oliver Sacks describes this treatment in human patients with encephalitis lethargica in his book Awakenings, upon which the movie of the same name is based.

The 2001 Nobel Prize in Chemistry was also related to L-DOPA: the Nobel Committee awarded one-fourth of the prize to William S. Knowles for his work on chirally-catalysed hydrogenation reactions, the most noted example of which was used for the synthesis of L-DOPA.


AdhesionEdit

DOPA is a key molecule in the formation of marine adhesive proteins, such as those found in mussels. It is believed to be responsible for the water-resistance and rapid curing abilities of these proteins. DOPA may also be used to prevent surfaces from fouling by bonding antifouling polymers to a susceptible substrate.

Melanin FormationEdit

Both levodopa and the related amino acid tyrosine are precursors to the biological pigment melanin. The enzyme tyrosinase catalyzes the oxidation of either substrate to the reactive intermediate dopaquinone, which reacts further, eventually leading to eumelanin oligomers.


Other research into the effects of LevodopaEdit

Main article: Depression and L-dopa



See alsoEdit

References & BibliographyEdit

Key textsEdit

Books=Edit

PapersEdit

  • Goodwin FK, Murphy DL, Brodie HKH, Bunney WE Jr: Levodopa: Alterations in behavior. Clin Pharmacol Ther 12:383-396, 1971.
  • Goodwin FK: Psychiatric side effects of levodopa in man. JAMA 218:1915-1920, 1971.

Additional materialEdit

BooksEdit

PapersEdit

  • Waite, J. Herbert, et al. (2005). Mussel Adhesion: Finding the Tricks Worth Mimicking. J Adhesion 81: 1-21.
  • Messersmith, Phillip B., et al. (2006). Rapid Gel Formation and Adhesion in Photocurable and Biodegradable Block Copolymers with High DOPA Content. Macromolecules 39: 1740-1748.

External linksEdit

External linksEdit

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