Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0030567 (Parkinson's disease)
63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent findings of impaired mitochondrial function, altered iron metabolism and increased lipid peroxidation in the substantia nigra in Parkinson's disease emphasize the significance of oxidative stress and free radical formation in the pathogenesis of the disease. Future research will focus on improvements in neuroprotective therapy to prevent or slow the rate of progression of Parkinson's disease. Possible neuroprotective strategies include free radical scavengers, monoamine oxidase-B inhibitors, iron chelators and glutamate antagonists.
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PMID:Neurotoxicity and neuroprotection in Parkinson's disease. 149 Dec 47

(-)Deprenyl (Selegiline, Jumex, Eldepryl, Movergan), a close structural relative to phenylethylamine (PEA), is a drug of a unique pharmacological spectrum. (a) It is highly potent and selective irreversible inhibitor of B-type monoamine oxidase (MAO), a predominantly glial enzyme in the brain, the activity of which significantly increases with age. (-)Deprenyl was the first selective inhibitor of MAO-B described in literature, became the worldwide research tool used for blocking selectively B-type MAO, and is still the only MAO-B inhibitor in clinical use. (b) (-)Deprenyl interferes with the uptake of catecholamines and indirectly acting sympathomimetics because it is handled by the catecholaminergic neuron similarly 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 push the transmitter from the storage places, i.e., it is not a releaser. The net result is that (-)deprenyl inhibits the releasing effect of tyramine and is presently the only safe MAO inhibitor which can be administered without dietary restrictions. (c) Maintenance on (-)deprenyl enhances selectively superoxide dismutase (SOD) and catalase activity in the striatum. This effect is unrelated to the MAO and uptake inhibitory effects of the drug. (d) Maintenance on (-)deprenyl facilitates the activity of the nigrostriatal dopaminergic neurons with remarkable selectivity. This effect is also unrelated to either the MAO or the uptake inhibitory effects of the drug. All in all, (-)deprenyl maintains the activity of the nigrostriatal dopaminergic machinery on a higher activity level and slows down its age-related decline. Male rats maintained on (-)deprenyl lost their capacity to ejaculate later, retained their learning ability longer, and lived longer than their saline-treated peers. Parkinsonians on levodopa plus (-)deprenyl (10 mg daily) lived significantly longer than those on levodopa alone. (-)Deprenyl is the first drug which retards the progress of Parkinson's disease. Freshly diagnosed parkinsonians maintained on (-)deprenyl did not require levodopa until significantly later than their placebo-treated peers. Maintenance on (-)deprenyl significantly improved the performance of patients with Alzheimer's disease. It is concluded that in Parkinson's disease and Alzheimer's disease patients need to be treated daily with 10 mg (-)deprenyl from diagnosis until death, irrespective of other medication.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pharmacological basis of the therapeutic effect of (-)deprenyl in age-related neurological diseases. 151 86

Parkinson's disease has been modeled in humans, lower primates, and to a lesser extent in some other vertebrates by administration of the potent neurotoxin MPTP (1-methyl-4-phenyl-1,2,3,6 tetrahydropyridine). The MPTP model has thus drawn considerable attention as a system to search for anti-Parkinson's disease drugs, although the cost and scarcity of primates has limited extensive applications. We now report that a parkinsonian syndrome can be elicited in the common goldfish (Carassius auratus) by a single dose of MPTP. The syndrome is characterized by profound bradykinesia (slow movement), the full extent of which is reached 3 days after MPTP administration. The reduction in movement is paralleled by loss of dopamine and norepinephrine from the forebrain and midbrain and in other brain regions as well. The toxic oxidative product of MPTP, MPP+, is also accumulated predominantly in forebrain and midbrain, and pretreatment with the monoamine oxidase blocker tranylcypromine substantially reduces accumulation of the toxic metabolite. A barely perceptible coarseness in balance adjustment also occurs in treated animals. The MPTP-treated goldfish recover normal movement and normal brain monoamine levels within 10-13 days after administration of the drug. We interpret these and other data to indicate that MPTP can induce a Parkinson's disease-like syndrome in the goldfish that is similar in many aspects to the syndrome induced by MPTP in humans and other primates. This remarkable parallel may permit the goldfish to supplement expensive and scarce primates for the purpose of searching and screening neuroprotective drugs with specific relevance to Parkinson's disease.
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PMID:A parkinsonian syndrome induced in the goldfish by the neurotoxin MPTP. 152 41

Deprenyl is a synthetic, selective inhibitor of the monoamine oxidase-B enzyme system. The mechanism of its beneficial effect in early and advanced Parkinson's disease is not settled. Increased striatal dopamine accumulation, sensitization of surviving dopamine neurons with increased dopamine production and reduced nigro-striatal toxicity may all contribute. The standard daily dose of deprenyl is 10 mg. Selectivity may be lost at higher doses. Deprenyl is especially indicated in untreated patients, improving up to 50 percent of patients with mild motor fluctuations. Major symptomatic benefit also occurs in occasional levodopa treated patients. Adverse effects are common, however. Increase dyskinesias, confusion and hallucinations, nausea and postural hypotension may necessitate drug withdrawal or the use of low dose regimens. Caution should be exercised with older patients, those with ulcer disease, which may be worsened by deprenyl, and individuals with active ischemic heart disease where the safety of this drug is not yet clear.
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PMID:Deprenyl in Parkinson's disease: mechanisms, neuroprotective effect, indications and adverse effects. 157 60

Selegiline (10 mg per day) selectively inhibits monoamine oxidase type B and thus thwarts the metabolism of dopamine by this enzyme. Selegiline has been used in the therapy of Parkinson's disease since 1986. It enhances the efficacy of levodopa, allows a reduction of the levodopa dose, and improves fluctuations in disability. It also interacts with mechanisms suspected of playing a role in the progression of the disease. Animal studies have shown that selegiline prevents the development of a Parkinson-like syndrome induced by the neurotoxin MPTP. It decreases oxidative stress resulting from the metabolism of dopamine via MAO-B. Clinical studies have shown that selegiline is effective in the therapy of untreated de novo patients: the progression of symptoms demanding the introduction of levodopa into the therapy was delayed, and the risk of needing levodopa treatment within one year was reduced by 57% with selegiline. The mode of action of this drug in the treatment of early Parkinson's disease is still under discussion. There is strong evidence that selegiline may slow the progression of the disease, but a direct symptomatic effect cannot be excluded.
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PMID:Selegiline--an overview of its role in the treatment of Parkinson's disease. 160 Mar 60

Irreversible and unspecific inhibitors of MAO were the first modern antidepressants, but after an initial success they fell into discredit due to adverse side effects. In the past two decades interest in MAO inhibitors has been renewed because of progress in basic research, a milestone being the finding that there are two subtypes of MAO, MAO-A and MAO-B. These are distinct proteins with high amino acid homology, coded by separate genes both located on the short arm of the human chromosome X. The enzyme subforms show different substrate specificities in vitro and different distributions within the central nervous system and in peripheral organs. In the central nervous system of man MAO-A seems to be mainly involved in the metabolism of 5 HT and noradrenaline, whereas 2-phenylethylamine and probably dopamine are predominantly deaminated by MAO-B. In the intestinal tract tyramine is mainly metabolized by MAO-A. These characteristics indicate distinct physiological functions of the two MAO-subforms. Several irreversible and reversible non-hydrazine inhibitors with relative selectivities for one of the MAO-subforms have been developed. They belong to various chemical classes with different modes of enzyme inhibition. These range from covalent mechanism based interaction (e.g. by propargyl- and allylamine derivatives) to pseudosubstrate inhibition (e.g. by 2-aminoethyl-carboxamides) and non-covalent interaction (e.g. by brofaromine, toloxatone and possibly moclobemide). The most important pharmacological effects of the new types of MAO inhibitors are those observed in neuropsychiatric disorders. The inhibitors of MAO-A show a favorable action in various forms of mental depression. The drugs seem to have about the same activity as other types of antidepressants, including tricyclic and related compounds as well as classical MAO inhibitors. The onset of action of the MAO-A inhibitors is claimed to be relatively fast. Other possible indications of these drugs include disorders with cognitive impairment, e.g. dementia of the Alzheimer type. In subjects with Parkinson's disease the MAO-B inhibitor L-deprenyl exerts a L-dopa-sparing effect, prolongs L-dopa action and seems to have a favorable influence regarding on-off disabilities. The action is in general transitory (months to several years). In addition L-deprenyl has been shown to delay the necessity for L-dopa treatment in patients with early parkinsonism. Whether the drug influence the progression of the disease is still a matter of debate. L-deprenyl also appears to have some antidepressant effect (especially in higher doses) and to exert a beneficial influence in other disorders, e.g. dementia of the Alzheimer type.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The new generation of monoamine oxidase inhibitors. 160 14

Although the effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in mice have been reported to increase with age, they have not been characterized in the full spectrum of ages. Thus, in spite of a considerable body of scientific literature on the subject, previous reports leave unanswered the question of whether or not the increased susceptibility of fully mature mice is part of the aging process or simply a consequence of maturation. In the present study, the age-related effects of MPTP on striatal dopamine were studied in groups of C57BL/6 mice from young maturity to old age. The major increase in the effects of MPTP occurred between 2 and 10 months of age (equivalent to adolescence and young adulthood in humans). A slight additional increase was observed between 10 and 16 months (young adulthood and middle age) and the dopamine-depleting effects of MPTP significantly declined in truly aged animals (24 months). Of note also is the fact that normal concentrations of striatal dopamine did not decline in the later ages. Additional studies indicated that while neuronal sensitivity to the effects of 1-methyl-4-phenylpyridinium (MPP+; the putative toxic metabolite of MPTP) appears to remain constant, age-related changes in the activity of striatal monoamine oxidase type B (MAO B) paralleled the dopamine-depleting effects of MPTP in the 4 age groups. Indeed, MAO B activity increased between 2 and 16 months and declined slightly, but significantly, between 16 and 24 months. This pattern of age-related changes in MAO B, striatal dopamine and the sensitivity of the nigrostriatal system to toxic insult may provide insights into factors which have been implicated in age-related neurodegeneration and idiopathic Parkinson's disease.
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PMID:The relationships between aging, monoamine oxidase, striatal dopamine and the effects of MPTP in C57BL/6 mice: a critical reassessment. 161 16

(-)Deprenyl (Selegiline, Jumex, Eldepryl, Movergan), a close structural relative to phenylethylamine (PEA), is a drug with a unique pharmacological spectrum. (1) 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 MAO-B inhibitor in clinical use. (2) (-)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. (3) 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. (4) Maintenance on (-)deprenyl facilitates the activity of the nigrostriatal dopaminergic neurons with remarkable selectivity, and this effect, too, is unrelated to either its effects on MAO or on neurotransmitter uptake. (5) Maintenance on (-)deprenyl prevents the characteristic age-related morphological changes in the neuromelanin granules of the neurocytes in the substantia nigra. All in all, (-)deprenyl increases the activity of the nigrostriatal dopaminergic system and slows its age-related decline. Maintenance of male rats on (-)deprenyl delays the loss of the capacity to ejaculate, slows the decline of learning and memory, and significantly lengthens the life-span as compared with saline-treated rats. Parkinson's disease patients on levodopa plus (-)deprenyl (10 mg daily) live significantly longer than those on levodopa alone. (-)Deprenyl is the first drug that retards the progress of Parkinson's disease. Newly diagnosed Parkinson's disease patients maintained on (-)deprenyl need levodopa significantly later than their placebo-treated peers. Maintenance on (-)deprenyl improves significantly the performance of patients with Alzheimer's disease. It is concluded that Parkinson's disease and Alzheimer's disease patients need to be treated daily with 10 mg (-)deprenyl from diagnosis until death, irrespective of other medication.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:(-)Deprenyl-medication: a strategy to modulate the age-related decline of the striatal dopaminergic system. 163 30

L-Deprenyl, the selective inhibitor of monoamine oxidase type B (MAO-B), has gained wide acceptance as a useful form of adjunct therapeutic drug in the treatment of Parkinson's disease. This review summarizes the molecular pharmacology of L-deprenyl, and the advances in our understanding of its possible mode of action in Parkinson's disease. L-Deprenyl belongs to the class of enzyme-activated irreversible inhibitors also described as 'suicide' inhibitors, because the compound acts as a substrate for the target enzyme, whose action on the compound results in irreversible inhibition. L-Deprenyl first of all forms a noncovalent complex with MAO as an initial, reversible step. The subsequent interaction of L-deprenyl with MAO leads to a reduction of the enzyme-bound flavin-adenine dinucleotide (FAD), and concomitant oxidation of the inhibitor. This oxidized inhibitor then reacts with FAD at the N-5-position in a covalent manner. The observed in vitro selectivity of L-deprenyl for MAO-B may be accounted for by differences in the affinities of the two MAO subtypes for reversible interaction with L-deprenyl, differences in the rates of reaction within the noncovalent complexes to form the irreversibly inhibited adduct, or a combination of both these factors. However, if selective inhibition is to be maintained in vivo, correct dosage schedules are critically important, since all selective MAO inhibitors described up to now lack selectivity at high doses. In experimental animals L-deprenyl is protective against the damaging effects of several neurotoxins, including the dopaminergic agents 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and 6-hydroxydopamine (6-OHDA) and the noradrenergic neurotoxin N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP-4). Beside MAO-B inhibition, which above all explains the prevention of neurotoxic action of MPTP by preventing its metabolism, L-deprenyl appears to exhibit other mechanisms of action which are independent of its action on MAO-B.
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PMID:The molecular pharmacology of L-deprenyl. 163 15

Recent evidence of functional interactions between D1 and D2 dopamine receptor subtypes has led to the concept that many of the behavioural effects of dopamine agonists occur only with activation of both receptor subtypes. Thus, combined treatment with dopamine agonists selective for each of the D1 and D2 receptors may be an effective therapy for Parkinson's disease, chiefly characterized by loss of central dopamine-containing neurons. In addition, recent hypotheses of the possible pathogenesis of this disorder have suggested that metabolism of dopamine by monoamine oxidase in the presynaptic terminal may contribute to the loss of dopaminergic cells, through the production of reactive by-products. Therefore, the effects of chronic (15 day) treatment of rats with different doses of (+)-4-propyl-9-hydroxynaphthoxazine (PHNO, a D2 receptor agonist), SKF 38393 (a D1 receptor partial agonist) or combinations of both drugs on levels of brain monoamines and some of their acidic metabolites were investigated. Little or no effects of the drugs were observed on measures of dopamine or noradrenaline when given separately, while each selective agonist dose-dependently reduced serotonin levels. Combined treatment with the two agonists produced profound effects on the catecholamines, but with no effect on 3,4-dihydroxyphenylacetic acid, the metabolite of dopamine produced by monoamine oxidase. In addition, the effects of combined treatment on serotonin levels were opposite of those of the drugs given independently. Concomitant treatment of animals with both D1 and D2 receptor agonists can therefore increase tissue levels of dopamine without increasing the potentially harmful metabolism of dopamine by monoamine oxidase.
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PMID:Chronic treatment with D1 and D2 dopamine receptor agonists: combined treatments interact to differentially affect brain levels of monoamines. 168 87


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