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Rationale for deprenyl (selegiline)
medication in Parkinson's disease and in prevention of age-related nigral
changes. Abstract Deprenyl (selegiline, jumex, eldepryl, movergan), a close structural relative to phenylethylamine (PEA), is a drug with a unique pharmacological spectrum. It is a highly potent and selective, irreversible inhibitor of B-type monoamine oxidase (MAO), a predominantly glial enzyme in the brain. The activity of this enzyme significantly increases with age. (-)deprenyl, the first selective inhibitor of MAO-B described in literature, has become the universally used research tool for selectively blocking B-type MAO. It is the only selective MAO-B inhibitor in clinical use. (-)Deprenyl interferes with the uptake of catecholamines and indirectly acting sympathomimetics because it is handled by the catecholaminergic neuron in a way similar to the physiological substances transported through the axonal end organ and vesicular membrane. The unique behavior of (-)deprenyl is that, in striking contrast to PEA and its relatives it does not displace the transmitter from storage, ie it is not a releaser. The net result is that (-)deprenyl inhibits the releasing effect of tyramine, and at present, is the only safe MAO inhibitor that can be administered without dietary precautions. Maintenance on (-)deprenyl selectively enhances superoxide dismutase (SOD) and catalase activity in the striatum. This effect is unrelated to its effect on MAO-B and the inhibitory effects of the drug on neurotransmitter uptake. Maintenance on (-)deprenyl facilitates the activity of the catecholaminergic system in the brain, and this effect, too, is unrelated to either its effects on MAO or on neurotransmitter uptake. (-)Deprenyl protects the nigrostriatal dopaminergic neurons against selective neurotoxins (6-hydroxydopamine, MPTP, DSP-4). Parkinson's research / abstracts 1.
Deprenyl
effect on cognitive functions in early Parkinson's |
