UMLS:C0030567 - FACTA Search

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

An endogenous dopamine-derived N-methyl(R)salsolinol has been suggested to be involved in the pathogenesis of Parkinson's disease. In Parkinson's disease, the level of N-methyl(R)salsolinol increased in cerebrospinal fluid and the high activity of a synthesizing enzyme, (R)salsolinol N-methyltransferase, was detected in lymphocytes. This isoquinoline induced apoptotic DNA damage in human dopaminergic neuroblastoma SH-SY5Y cells. Among catechol isoquinolines, only N-methylsalsolinol induced apoptosis in the cells, and the scavengers of hydroxyl radicals and antioxidants suppressed DNA damage, suggesting that reactive oxygen species initiate apoptosis. The isoquinoline activated caspase-3 like proteases and a caspase-3 inhibitor protected the cells from DNA damage. (-)Deprenyl, but neither clorgyline nor pargyline, prevented apoptotic cell death. The mechanism of the protection was due to stabilization of mitochondrial membrane potential reduced by the toxin. In Parkinson's disease apoptosis may be induced in dopamine neurons by this endogenous neurotoxin, and (-)deprenyl may protect them from apoptotic death process.
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PMID:Involvement of endogenous N-methyl(R)salsolinol in Parkinson's disease: induction of apoptosis and protection by (-)deprenyl. 1112 1

The etiology of idiopathic Parkinson's disease remains as an enigma. N-Methyl (R)salsolinol [NM (R) Sal] is a candidate of dopaminergic neurotoxins, and is synthesized from dopamine by 2 enzymes: (R) Salsolinol synthase and a neutral (R) Salsolinol N-methyltransferase (nNMT). NM (R) Sal injection in the rat striatum caused selective depletion of dopamine neurons in the substantia nigra without tissue reaction, suggesting NM (R) Sal induced apoptosis in dopamine neurons. NM (R) Sal level was found to increase significantly in the cerebrospinal fluid of parkinsonian patients, and NM (R) Sal accumulated in the nigrostriatum. By the analysis of the human brain, it was suggested nNMT is the rate-limiting step to synthesize dopamine-derived neurotoxins. The activity of nNMT was found to increase in the lymphocytes from parkinsonian patients. The mechanism of toxicity by NM (R) Sal was studied in vitro using human dopaminergic neuroblastoma SH-SY5Y cells. NM (R) Sal induced apoptosis stereo-specifically, suggesting that a molecule in mitochondria can distinguish the stereo-chemical structure of NM (R) Sal and activate intracellular signal of apoptosis. Recently, we found that propargylamines, inhibitors of type B monoamine oxidase, can prevent the apoptosis induced by NM (R) Sal. Further study on the mechanism underlying increase in nNMT activity in parkinsonian patients will clarify the involvement of genetic and environmental factors in the pathogenesis of Parkinson's disease.
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PMID:[Studies on endogenous toxins as pathogenic factors in idiopathic parkinson's disease]. 1118 1

The pathogenesis of idiopathic Parkinson's disease (PD) remains to be elucidated. The discovery of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) suggests that neurotoxins in the human brain may cause selective depletion of striatal dopamine neurons, a hallmark of PD. An endogenous isoquinoline, N-methyl(R)salsolinol is a most promising neurotoxin candidate, and it was proved to be selectively toxic to dopamine neurons in the rat brain by in vivo experiments. The level of N-methyl(R)salsolinol in the cerebrospinal fluid obtained from PD patients was significantly higher than control. N-Methyl(R)salsolinol is synthesized by 2 enzymatic reactions from dopamine; condensation of dopamine with acetaldehyde into (R)salsolinol by (R)salsolinol synthase and N-methylation of (R)salsolinol by neutral(R)salsolinol N-methyltransferase. The second enzyme, which catabolizes the N-methylation of (R)salsolinol, was found to determine the level of the neurotoxin in the brain. The activity of neutral(R)salsolinol N-methyltransferase was examined using lymphocytes prepared from PD patients, normal controls and diseased controls as enzyme source. A significant increase in the activity was confirmed in lymphocytes from PD cases compared to normal- and diseased-control. Studies to clarify the environmental and genetic factors determining the activity of the enzyme are now under the way. The cytotoxicity of N-methyl(R)salsolinol was examined using a cultured cell model. N-Methyl(R)salsolinol was found to induce apoptotic cell death in a dose-dependent way. The mechanism of apoptosis was clarified to be mediated by collapse in mitochondrial membrane potential, activation of caspase 3 and fragmentation of nuclear DNA. In addition, propargylamines protected the cells from apoptosis. It was suggested that N-methyl(R)salsolinol and propargylamines have specific binding sites in mitochondria which regulate the death signal transduction. Propargylamines might be applicable as neuroprotective drugs, which can be orally administrated to PD patients.
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PMID:[Pathogenesis of idiopathic Parkinson's disease]. 1152 60

1-Methyl-4-phenyl-pyridinium (MPP(+)) and S-adenosyl-L-methionine (SAM) cause Parkinson's disease (PD)-like changes. SAM and MPP(+) require their charged S-methyl and N-methyl groups, so the PD-like symptoms may be related to their ability to modulate the methylation process. The SAM-dependent methylation of phosphatidylethanolamine (PTE) to produce phosphatidylcholine (PTC), via phosphatidylethanolamine-N-methyltransferase (PEMT), and the hydrolysis of PTC to form lyso-PTC, a cytotoxic agent, are potential loci for the action of MPP(+). In this study, the effects of MPP(+) on the methylation of PTE to PTC and the production of lyso-PTC were determined. The results showed that SAM increased PTC and lyso-PTC. The rat striatum showed the highest PEMT activity and lyso-PTC formation, which substantiate with the fact that the striatum is the major structure that is affected in PD. MPP(+) significantly enhanced PEMT activity and the formation of lyso-PTC in the rat liver and brain. MPP(+) increased the affinity and the V(max) of PEMT for SAM. 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) effect was lesser and inhibited by deprenyl (MAO-B inhibitor). The nor-methyl analogs of MPP(+) were inactive, but some of the charged analogs of MPP(+) showed comparable effects to those of MPP(+). Lyso-PTC that can be increased by SAM and MPP(+) caused severe impairments of locomotor activities in rats. These results indicate that SAM and MPP(+) have complementary effects on phospholipid methylation. Thus, SAM-induced hypermethylation could be involved in the etiology of PD and an increase of phospholipid methylation could be one of the mechanisms by which MPP(+) causes parkinsonism.
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PMID:1-Methyl-4-phenyl-pyridinium increases S-adenosyl-L-methionine dependent phospholipid methylation. 1156 47

The objective of this study was to compare the long-term tolerability and efficacy of tolcapone and entacapone in patients with fluctuating Parkinson's disease (PD). Tolcapone and entacapone are two currently available catechol- O -methyltransferase inhibitors that have demonstrated efficacy in the treatment of advanced PD. There are little published data on long-term experience and no direct comparisons. We compared the results of two separate, simultaneous, long-term open label extensions, one for tolcapone and the other for entacapone. The inclusion/exclusion criteria were similar. Data were collected prospectively at 6, 12, 24, and 36 months. Efficacy measures included the Unified Parkinson's Disease Rating Scale (UPDRS) total score, subscores, items 32 (duration of dyskinesia) and 39 (duration of "off" time), and levodopa dose. The two groups were compared using a Mann-Whitney U test for change from baseline and analysis of variance. Tolerability was defined as the ability of patients to maintain therapy and was compared using a Kaplan-Meier analysis. Eleven patients enrolled in the entacapone study and 14 in the tolcapone study. The tolcapone group had more severe disease with significantly higher UPDRS motor score, duration of "off," and levodopa dose requirement. Tolcapone was more effective in lowering UPDRS motor and complication subscores, duration of "off" time, and levodopa doses. UPDRS motor scores and change in levodopa dose in the tolcapone group remained below baseline level for 36 months; however, they were above baseline in the entacapone group from 6 months on. Tolerability was the same for both treatments. Tolcapone appears to have greater and longer efficacy with regard to motor symptoms, "off" time, and change in levodopa requirements than entacapone. These findings indicate that tolcapone continues to have a place in the treatment of advanced PD. However, the risks associated with this drug, particularly hepatic injury, and the requirement for rigorous blood monitoring, need to be considered when choosing an appropriate treatment for patients with advanced PD.
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PMID:Long-term comparative experience with tolcapone and entacapone in advanced Parkinson's disease. 1158 15

Mammalian brain has a beta-carboline 2N-methyltransferase activity that converts beta-carbolines, such as norharman and harman, into 2N-methylated beta-carbolinium cations, which are structural and functional analogs of the Parkinsonian-inducing toxin 1-methyl-4-phenylpyridinium cation (MPP+). The identity and physiological function of this beta-carboline 2N-methylation activity was previously unknown. We report pharmacological and biochemical evidence that phenylethanolamine N-methyltransferase (EC 2.1.1.28) has beta-carboline 2N-methyltransferase activity. Specifically, purified phenylethanolamine N-methyltransferase (PNMT) catalyzes the 2N-methylation (21.1 pmol/h per unit PNMT) of 9-methylnorharman, but not the 9N-methylation of 2-methylnorharmanium cation. LY134046, a selective inhibitor of phenylethanolamine N-methyltransferase, inhibits (IC50 1.9 microM) the 2N-methylation of 9-methylnorharman, a substrate for beta-carboline 2N-methyltransferase. Substrates of phenylethanolamine N-methyltransferase also inhibit beta-carboline 2N-methyltransferase activity in a concentration-dependent manner. beta-Carboline 2N-methyltransferase activity (43.7pmol/h/mg protein) is present in human adrenal medulla, a tissue with high phenylethanolamine N-methyltransferase activity. We are investigating the potential role of N-methylated beta-carbolinium cations in the pathogenesis of idiopathic Parkinson's disease. Presuming that phenylethanolamine N-methyltransferase activity forms toxic 2N-methylated beta-carbolinium cations, we propose a novel hypothesis regarding Parkinson's disease-a hypothesis that includes a role for phenylethanolamine N-methyltransferase-catalyzed formation of MPP+ -like 2N-methylated beta-carbolinium cations.
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PMID:Phenylethanolamine N-methyltransferase has beta-carboline 2N-methyltransferase activity: hypothetical relevance to Parkinson's disease. 1190 Aug 56

The discovery of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) leads to the hypothesis that Parkinson's disease (PD) is maybe initiated or precipitated by environmental or endogenous toxins by the mechanism similar to that of MPTP in genetically-predisposed individuals. Endogenous analogs of MPTP, such as beta-carbolines (betaCs) and tetrahydroisoquinolines, have been proposed as possible causative candidates causing PD and are bioactivated into potential neurotoxins by N-methylation enzyme(s). These N-methylated betaCs and tetrahydroisoquinoline have been higher cerebrospinal levels in parkinsonian patients than age-matched controls. Thus, there is a hypotheses to influence the pathogenesis of PD, that is, the excess enzyme activity to activate neurotoxins, such as N-methyltransferase, might be higher in PDs. Indeed, simple betaCs, via N-methylation steps, induced bradykinesia with the decreased dopamine contents in the striatum and midbrain in C57/BL mice. In younger (65 years old) PD patients, the excretion amount of N(1)-methyl-nicotinamaide was significantly higher than that in younger controls. The protein amount of nicotinamide N-methyltransferase (NNMT) was also significantly higher in younger PD patients than that in younger controls. These findings described here would indicate that the excess N-methylation ability for azaheterocyclic amines, such as betaCs, before the onset had been implicated in PD pathogenesis. On the other hand, the contribution of aberrant cytochrome P450 or aldehyde oxidase activity acting on the pyridine ring, that could act as detoxification routes of endogenous neurotoxins, would be small in the etiology of PD.
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PMID:N-methylation underlying Parkinson's disease. 1220 Jan 90

A dopamine-derived alkaloid, N-methyl-(R)-salsolinol [NM(R)Sal], enantioselectively occurs in human brains and accumulates in the nigrostriatal system. It increases in the cerebrospinal fluid (CSF) of parkinsonian patients and the activity of a neutral (R)-salsolinol [(R)Sal] N-methyltransferase, a key enzyme in the biosynthesis of this toxin, increases in the lymphocytes from parkinsonian patients, suggesting its involvement in the pathogenesis of Parkinson's disease (PD). The studies of animal and cellular models of PD proved that this isoquinoline is selectively cytotoxic to dopamine neurons. Using human dopaminergic SH-SY5Y cells, NM(R)Sal induces apoptosis by the activation of the apoptotic cascade initiated in mitochondria. In this article, we review the recent advance in proving our hypothesis that the dopamine-derived neurotoxin causes the selective depletion of dopamine neurons in PD.
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PMID:Dopamine-derived endogenous N-methyl-(R)-salsolinol: its role in Parkinson's disease. 1220 Jan 89

The cause of neuronal cell death in Parkinson's disease is still an enigma. However, recent results obtained by analyses of postmortem brain suggest that a mitochondria-dependent apoptotic signal was activated. The involvement of dopamine-derived endogenous neurotoxin in the pathogenesis of PD was also indicated. N-Methyl( R)salsolinol was proved to be selectively toxic to dopamine neurons and its level increased in parkinsonian CSF. The enzyme which determines the level of N-methyl( R)salsolinol, ( R)salsolinol N-methyltransferase, was found increased in the lymphocytes prepared from PD patients. The mechanism of dopamine cell death by N-methyl( R)salsolinol was studied in vitro. N-Methyl( R)salsolinol induced apoptosis in human dopaminergic neuroblastoma cells. It was suggested that in the mitochondria there is a molecule which interacts with N-methyl( R)salsolinol and initiates an apoptotic signal.
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PMID:Cell death in Parkinson's disease. 1237 57

We describe 2 patients with Parkinson's disease who developed hepatotoxicity associated with the use of entacapone, a novel, mainly peripheral acting inhibitor of catechol-D-methyltransferase. Hepatotoxicity resolved rapidly with discontinuation of the drug. Analysis of causality in a further case initially linked to entacapone exposure was confounded by conflicting serial adverse reaction reports.
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PMID:Entacapone-induced hepatotoxicity and hepatic dysfunction. 1246 84

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