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)

The purpose of this study was to examine the effects of 3-O-methylation by catechol-O-methyltransferase (COMT) on the toxicity of levodopa in neuronal cultures. High concentrations of levodopa are toxic in vitro. Therefore, there is concern that long-term treatment with levodopa in patients with Parkinson's disease might accelerate the rate of degeneration of nigrostriatal neurons. However, recent studies have suggested that, while levodopa is harmful in vitro, it may not be toxic in vivo. A possible defense mechanism is by means of metabolic shunting of levodopa excess to 3-O-methyldopa by COMT in peripheral and central nervous system tissues. In this study we examine whether the use of COMT inhibitor, which reduced the levels of 3-O-methyldopa, affect levodopa toxicity. Mice cerebellar granule neurons, PC12, and neuroblastoma cells were used, and their viability following exposure to levodopa and COMT with and without tolcapone, a COMT inhibitor, was measured by neutral red staining. Auto-oxidation of levodopa was evaluated using a spectrophotometer (690 nm). We found that 3-O-methyldopa, unlike levodopa, was not toxic to all cells examined. Addition of purified COMT to levodopa prevented its auto-oxidation and markedly attenuated its cytotoxicity in vitro. Additional tolcapone reversed the protective effect of COMT. The agent 3-O-methyldopa is not toxic to cell cultures. Catechol-O-methyltransferase attenuates toxicity of levodopa in vitro by its metabolism to nontoxic 3-O-methyldopa.
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PMID:Catechol-O-methyltransferase decreases levodopa toxicity in vitro. 1129 Aug 79

Catechol-O-methyltransferase (COMT) catalyses the O-methylation of compounds having a catechol structure and its main function involves the elimination of biologically active or toxic catechols and their metabolites. By means of homologous recombination in embryonic stem cells, a strain of mice has been produced in which the gene encoding the COMT enzyme is disrupted. We report here the levels of catecholamines and their metabolites in striatal extracellular fluid in these mice as well as in homogenates from different parts of the brain, under normal conditions and after acute levodopa administration. In immunoblotting studies, COMT-knockout mice had no COMT protein in brain or kidney tissues but the amounts of catecholamine synthesizing and other metabolizing enzyme proteins were normal. Under normal conditions, COMT deficiency does not appear to affect significantly brain dopamine and noradrenaline levels in spite of relevant changes in their metabolites. This finding is consistent with previous pharmacological studies with COMT inhibitors and confirms the pivotal role of synaptic reuptake processes and monoamine oxidase-dependent metabolism in terminating the actions of catecholamines at nerve terminals. In contrast, when COMT-deficient mice are challenged with l-dihydroxyphenylalanine, they show an extensive accumulation of 3,4-dihydroxyphenylacetic acid and dihydroxyphenylglycol and even dopamine, revealing an important role for COMT under such situations. Notably, in some cases these changes appear to be Comt gene dosage-dependent, brain-region specific and sexually dimorphic. Our results may have implications for improving the treatment of Parkinson's disease and for understanding the contribution of the natural variation in COMT activity to psychiatric phenotypes.
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PMID:Brain catecholamine metabolism in catechol-O-methyltransferase (COMT)-deficient mice. 1184 92

Catechol-O-methyltransferase (COMT) inhibitors such as entacapone and tolcapone are used as adjuncts to L-DOPA ( l-3,4-dihydroxyphenylalanine, levodopa) in the treatment of Parkinson's disease. Tolcapone has been reported to associate with diarrhoea, a common reason for study withdrawal. The mechanism of this adverse effect is not yet understood. Cholera toxin causes diarrhoea by permanent activation of G(s) proteins, resulting in increased adenylyl cyclase (AC) activity. The aim of this study was to examine the effects of the COMT inhibitors entacapone and tolcapone on AC activity in membranes isolated from rat striatum, a brain structure enriched with dopaminergic G-protein-coupled receptors and AC activity. This study demonstrates differential effects of tolcapone and entacapone on Gpp(NH)p/dopamine-stimulated AC activity. Entacapone enhanced the stimulatory effect of Gpp(NH)p/dopamine, whereas tolcapone attentuated this effect, suggesting that diarrhoea associated with tolcapone treatment is not caused by permanent activation of G(s) proteins.
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PMID:Different modes of action of catecholamine-O-methyltransferase inhibitors entacapone and tolcapone on adenylyl cyclase activity in vitro. 1211 68

Catechol-O-methyltransferase (COMT; E.C. 2.1.1.6) is a ubiquitous enzyme in nature that plays an important role in the metabolism of catechol neurotransmitters and xenobiotics. In particular, inactivation of drugs such as L-3,4-dihydroxyphenylalanine (L-DOPA) via O-methylation is of relevant pharmacological importance, because L-DOPA is currently the most effective drug used in the treatment of Parkinson's disease. This justified the interest in developing COMT inhibitors as potential adjuncts to L-DOPA therapy. The kinetics of inhibition by BIA 3-335 (1-[3,4-dihydroxy-5-nitrophenyl]-3-(N-3'-trifluormethylphenyl)-piperazine-1-propanone dihydrochloride) were characterized using recombinant rat soluble COMT. BIA 3-335 was found to act as a potent, reversible, tight-binding inhibitor of COMT with a K(i) of 6.0 +/- 1.6 nM and displaying a competitive inhibition toward the substrate binding site and uncompetitive inhibition toward the S-adenosyl-L-methionine (SAM) binding site. The 2.0-A resolution crystal structure of COMT in complex with its cosubstrate SAM and a novel inhibitor BIA 3-335 shows the atomic interactions between the important residues at the active site and the inhibitor. This is the first report of a three-dimensional structure determination of COMT complexed with a potent, reversible, and tight-binding inhibitor that is expected to have therapeutic applications.
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PMID:Kinetics and crystal structure of catechol-o-methyltransferase complex with co-substrate and a novel inhibitor with potential therapeutic application. 1223 26

Catechol-O-methyltransferase (COMT, EC 2.1.1.6) plays a central role in the metabolic inactivation of neurotransmitters and neuroactive xenobiotics possessing a catechol motif. 1-(3,4-Dihydroxy-5-nitrophenyl)-2-phenyl-ethanone (BIA 3-202) is a novel nitrocatechol-type inhibitor of COMT, the potential clinical benefit of which is currently being evaluated in the treatment of Parkinson's disease. In the present work we characterize the molecular interactions of BIA 3-202 within the active site of COMT and discuss their implication on the regioselectivity of metabolic O-methylation. Unrestrained flexible-docking simulations suggest that the solution structure of this complex is better described as an ensemble of alternative binding modes, in contrast to the well defined bound configuration revealed by the X-ray structures of related nitrocatechol inhibitors, co-crystallized with COMT. The docking results wherein presented are well supported by experimental evidence, where the pattern of in vitro enzymatic O-methylation and O-demethylation reactions are analyzed. We propose a plausible explanation for the paradoxical in vivo regioselectivity of O-methylation of BIA 3-202, as well as of its related COMT inhibitor tolcapone. Both compounds undergo in vivo O-methylation by COMT at either meta or para catechol hydroxyl groups. However, results herein presented suggest that, in a subsequent step, the p-O-methyl derivatives are selectively demethylated by a microsomal enzyme system. The overall balance is the accumulation of the m-O-methylated metabolites over the para-regioisomers. The implications for the general recognition of nitrocatechol-type inhibitors by COMT and the regioselectivity of their metabolic O-methylation are discussed.
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PMID:Molecular modeling and metabolic studies of the interaction of catechol-O-methyltransferase and a new nitrocatechol inhibitor. 1258 50

Levodopa is the cornerstone of idiopathic Parkinson's disease (PD) treatment. However, after long-term use of levodopa, a significant percentage of patients experience motor fluctuations, which worsen their quality of life. Catechol-O-methyltransferase (COMT) inhibitors reduce levodopa metabolism and enhance the respective plasma levels, resulting in improvements in symptoms and overall quality of life. Tolcapone was the first drug of this class to be marketed, but was withdrawn in the European Union due to its implication in the deaths of three PD patients due to hepatic failure. Three deaths from fulminant hepatic failure in 40000 patient-years is a number that is 10-100 times higher than the expected incidence in the general population and, according to the manufacturer's own information, the number is probably underestimated due to under-reporting of cases. In the US, tolcapone was not withdrawn, but restrictive liver enzyme monitoring measures were issued by authorities, which severely limited its use. No further deaths from hepatic failure were reported since these measures were implemented. The mechanisms by which tolcapone may induce liver toxicity are still under debate. It was thought that mitochondrial uncoupling of oxidative phosphorylation by tolcapone, and consequent impairment of energy production by hepatocytes, could be responsible for the observed effects. Some experts consider that the restrictive guidelines issued in the US regarding tolcapone use may be loosened with no consequential reductions in safety. It was suggested that ongoing clinical information about safety should be considered and periodical revisions of the restrictions made accordingly. The identification of the molecular and biochemical basis of tolcapone hepatotoxicity, when completed, should also provide important indications for the clinical use of this drug. In conclusion, appropriate monitoring of liver function can ensure adequate safety in PD patients receiving tolcapone, who can therefore benefit from the symptomatic improvements obtained with this drug.
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PMID:Tolcapone-related liver dysfunction: implications for use in Parkinson's disease therapy. 1290 45

Parkinson's disease (PD) is a neurodegenerative disorder that affects an estimated 1 million people in the US and tens of millions worldwide. Medication therapy has made significant advances and improvements especially over the last 10 years. A number of new treatments and new strategies have emerged and the quality of life for the average sufferer has improved. This review will describe the rationale and strategies for current medical therapies in PD, with special emphasis on the use of antipsychotic agents. Levodopa remains the most efficacious medication for the management of PD. Long-term use of levodopa, however, is associated with the development of motor fluctuations including dyskinesia. Trials with dopamine agonists have demonstrated a delay in the onset of dyskinesia with the use of this therapy. There is also active, ongoing investigation to determine whether a neuroprotective effect may be present with agonist therapy. Anticholinergics have been successfully used to treat tremor as well as sialorrhoea and urinary urgency. Catechol-O-methyltransferase inhibitors increase 'on time', decrease 'off time,' and improve motor scores. Continuous stimulation of dopamine receptors may decrease the fluctations observed with pulsatile delivery of anti-Parkinsonian medications, but this will require more study. Monoamine oxidase-B inhibitors, specifically selegiline, may provide symptomatic improvement; the question as to whether a neuroprotective benefit is present remains unanswered. Amantadine has demonstrated both symptomatic benefit and dyskinesia benefit in some patients. Selective dopamine blockers such as clozaril and quetiapine, have been shown to be effective in the treatment of psychosis. This class of medications is particularly useful as an adjunctive to levodopa and dopamine agonists. Doses of dopaminergic drugs can be escalated to treat Parkinsonian symptoms, whereas selective dopamine blockers can be added to block psychosis. Old management strategies required a reduction in dopaminergic therapy and therefore worsened Parkinsonian symptoms. Even though there have been great advances in the medical options for symptomatic management of PD, there are still many unmet needs for this patient population.
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PMID:Rationale for current therapies in Parkinson's disease. 1452 85

Catechol-O-methyltransferase (COMT) is a crucial enzyme in dopamine and levodopa metabolism. Previously we reported that physiological concentrations of 17beta-estradiol (E2) down-regulated steady-state 1.3-kb COMT mRNA levels in MCF-7 cells. In this study, we investigated whether similar reductions occurred in a glial cell line (U138MG) and whether COMT protein and activity levels paralleled the reduction in COMT mRNA levels in MCF-7 cells. In addition, we explored the mechanism of E2 action. E2 had no effect on COMT mRNA levels in U138MG cells, but significantly reduced COMT protein and activity in MCF-7 cells (activity by 53% at 10(-7) M of E2, by 45% at 10(-8) M, and by 28% at 10(-9) M relative to non-E2-treated cells). A specific estrogen receptor antagonist (ICI 182780) blocked these estrogenic effects. Estrogen receptor in nuclear extracts of MCF-7 cells, which were pretreated with E2 (10(-9) M) for 48 h, bound to the whole proximal and distal promoter regions, as determined by electrophoretic mobility shift analysis (EMSA). We propose that E2 decreased COMT activity through down-regulation of its gene and protein expression mediated via ER interaction with response elements in the promoter region of the gene. Our findings may explain the lower of COMT activity in women compared to that in men, and, in part, the beneficial effects of E2 therapy in post-menopausal Parkinson's disease patients.
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PMID:Human catechol-O-methyltransferase down-regulation by estradiol. 1457 93

Catechol-O-methyltransferase (COMT) is an enzyme that inactivates catecholamines, including levodopa. An amino acid change (Val-108-Met) in the COMT protein has been found to result in a change from high to low enzyme activity. In the present study, we genotyped 121 Japanese patients with Parkinson's disease (PD) and 100 controls. Comparison of the allele frequencies revealed that homozygosity for the low-activity allele was significantly more common among PD patients than the controls (p = 0.047, odds ratio = 3.23). In addition, homozygosity for the low-activity allele was overrepresented in PD patients that exhibited the 'wearing-off' phenomenon (p = 0.045, odds ratio = 3.82) or dyskinesia (p = 0.030, odds ratio = 4.80) compared with controls, although these differences were not significant after Bonferroni's correction. Our results may help understand the mechanism that cause complications of levodopa therapy in PD patients.
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PMID:Association between catechol-O-methyltransferase gene polymorphisms and wearing-off and dyskinesia in Parkinson's disease. 1467 17

In this article, a particular emphasis has been placed on the conceptual development and understanding of the unique pathogenic changes that are indigenous to the striatal dopaminergic neurons as an important etiological factor in human Parkinson's disease (PD) as well as on the understanding of their clinical implications. Specifically, I have discussed the etiological roles of central nervous system dopamine oxidation in PD, along with a critical review of the available evidence in support of the proposed hypotheses. The chemically-reactive dopamine quinone/semiquinone intermediates are known to be highly neurotoxic and potentially genotoxic. There is considerable evidence for the suggestion that the long-term use of levodopa accelerates the progression of PD. In comparison, centrally-acting non-catechol dopamine receptor agonists would be an excellent alternative to levodopa for the treatment of PD (particularly for late-stage PD) because these agents would not undergo redox cycling to cause oxidative neuronal damage. Catechol-O-methyltransferase (COMT)-mediated methylation metabolism of catecholamine neurotransmitters is a crucial first-line detoxification pathway, and its role in the causation and prevention of PD is also discussed. On the basis of the modulation of COMT-mediated methylation of catecholamines, it is mechanistically explained that hyperhomocysteinemia would be a pathogenic factor in PD whereas vitamins B6, B12, and folate would be a protective factor. Lastly, according to the mechanistic understanding developed here, a novel dietary strategy is proposed that is specifically tailored toward lowering the risk of human PD, which includes eating a nutritionally-balanced diet that contains adequate (but not excessive) amounts of fruits and vegetables, along with adequate dietary supplementation of S-adenosyl-L-methionine, vitamins C, B6, B12, and folate. It is believed that these conceptual developments would also aid in our better understanding of other age-related neurodegenerative disorders, such as Alzheimer's and Huntington's diseases.
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PMID:CNS dopamine oxidation and catechol-O-methyltransferase: importance in the etiology, pharmacotherapy, and dietary prevention of Parkinson's disease. 1476 63


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