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)

In Parkinson's disease neuroprotective therapy to rescue dopamine neurons has been proposed. Selegiline is one of neuroprotective drug candidates, as proved by in vivo and in vitro experiments. In this paper, the mechanism underlying neuroprotection by selegiline and related propargylamines was studied against apoptosis induced by an endogenous toxin, N-methyl(R)salsolinol, synthetic 6-hydroxydopamine and peroxynitrite in dopaminergic SH-SY5Y cells. Propargylamines prevented apoptotic DNA damage, through suppression of collapse in mitochondrial membrane potential and following activation of caspase 3 and signal transduction to nuclei. These results suggest that propargylamines may rescue or protect dopamine neurons in Parkinson's disease.
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PMID:Future of neuroprotection in Parkinson's disease. 1148 79

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

Clinical trials for treatment of Parkinson's disease suggest that (-)deprenyl (selegiline), an inhibitor of type B monoamine oxidase, may slow the disease progression. However, the mechanism underlying protection of nigral dopamine neurons by selegiline remains an enigma. Recently, rasagiline, (R)(+)-N-propargyl-1-aminoindan, was reported to be neuroprotective by in vivo and in vitro experiments, which is another selective irreversible inhibitor of type B monoamine oxidase and not metabolized into amphetamine-like derivatives as in the case of selegiline. In this paper, the mechanism of the neuroprotection was examined using human dopaminergic neuroblastoma SH-SY5Y cells against apoptosis induced by peroxynitrite generated from SIN-1. After treatment with SIN-1, the apoptotic DNA damage in the cells was quantified by a single cell gel electrophoresis (comet) assay and by staining with Hoechst 33342. Change in mitochondrial membrane potential, Deltapsim, was measured by use of a fluorescent indicator, JC-1. Rasagiline reduced apoptosis with much more potency than selegiline, and the protection required 20 min pre-incubation before SIN-1 treatment. The protection by rasagiline was proved to be due to stabilization of mitochondrial membrane potential against the collapse induced by SIN-1, whereas rasagiline did not scavenge peroxynitrite directly. The studies on structure-activity relationship showed that a propargylamine group and a hydrophobic group with an adequate intermediate space were required for the protection. These results suggest that rasagiline may protect declining neurons through its anti-apoptotic activity in neurodegenerative diseases.
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PMID:The anti-Parkinson drug, rasagiline, prevents apoptotic DNA damage induced by peroxynitrite in human dopaminergic neuroblastoma SH-SY5Y cells. 1195 66

The commonest mitochondrial diseases are probably those impairing the function of complex I of the respiratory electron transport chain. Such complex I impairment may contribute to various neurodegenerative disorders e.g. Parkinson's disease. In the following, using hepatocytes as a model cell, we have shown for the first time that the cytotoxicity caused by complex I inhibition by rotenone but not that caused by complex III inhibition by antimycin can be prevented by coenzyme Q (CoQ1) or menadione. Furthermore, complex I inhibitor cytotoxicity was associated with the collapse of the mitochondrial membrane potential and reactive oxygen species (ROS) formation. ROS scavengers or inhibitors of the mitochondrial permeability transition prevented cytotoxicity. The CoQ1 cytoprotective mechanism required CoQ1 reduction by DT-diaphorase (NQO1). Furthermore, the mitochondrial membrane potential and ATP levels were restored at low CoQ1 concentrations (5 microM). This suggests that the CoQ1H2 formed by NQO1 reduced complex III and acted as an electron bypass of the rotenone block. However cytoprotection still occurred at higher CoQ1 concentrations (>10 microM), which were less effective at restoring ATP levels but readily restored the cellular cytosolic redox potential (i.e. lactate: pyruvate ratio) and prevented ROS formation. This suggests that CoQ1 or menadione cytoprotection also involves the NQO1 catalysed reoxidation of NADH that accumulates as a result of complex I inhibition. The CoQ1H2 formed would then also act as a ROS scavenger.
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PMID:Coenzyme Q cytoprotective mechanisms for mitochondrial complex I cytopathies involves NAD(P)H: quinone oxidoreductase 1(NQO1). 1206 6

The neuroprotective effects of verbascoside, one of phenylpropanoid glucoside isolated from the Chinese herbal medicine Buddleja officinalis Maxim, on 1-methyl-4-phenylpyridinium ion (MPP(+)) induced apoptosis and oxidative stress in PC12 neuronal cells were investigated. Treatment of PC12 cells with MPP(+) for 48 h induced apoptotic death as determined by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay and flow cytometry, the activation of caspase-3 measured by the caspase-3 activity assay kit, the reduction in mitochondrial membrane potential with laser scanning confocal microscopy and the increase in the extracellular hydrogen peroxide level. Simultaneous treatment with verbascoside markedly attenuated MPP(+)-induced apoptotic death, increased extracellular hydrogen peroxide level, the activation of caspase-3 and the collapse of mitochondrial membrane potential. These results strongly indicate that verbascoside may provide a useful therapeutic strategy for the treatment of oxidative stress-induced neurodegenerative disease such as Parkinson's disease.
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PMID:Protective effect of verbascoside on 1-methyl-4-phenylpyridinium ion-induced neurotoxicity in PC12 cells. 1223 80

In 1891, Paul Ehrlich began investigating the possible antimalarial effects of methylene blue. His studies prompted other such studies with antimalarials, including pheno-thiazine analogues of the dye. One of these analogues, fenethazine, was found to be a potent antihistamine, and was well received by clinicians as an antiallergic drug. Homologues of fenethazine, although found to be weak antihistamines, had pronounced anticholinergic effects and were used successfully in the treatment of Parkinson's disease. Henri Laborit's search to find a drug that would be of value in preventing the traumatic consequences of shock caused by circulatory collapse during surgery led him to discover the important effects that antihistamines, particularly promethazine, had on the central nervous system. Investigations of centrally acting phenothiazines suitable to Laborit's requirements, with more sedating properties, eventually led to the development of chlorpromazine and its use as an antipsychotic drug. (c) 2002 Prous Science. All rights reserved.
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PMID:The 50th Anniversary of Chlorpromazine. 1267 84

The neurotoxin, 6-hydroxydopamine (6-OHDA) has been implicated in the neurodegenerative process of Parkinson's disease. The current study was designed to elucidate the toxicological effects of 6-OHDA on energy metabolism in neuroblastoma (N-2A) cells. The toxicity of 6-OHDA corresponds to the total collapse of anaerobic/aerobic cell function, unlike other mitochondrial toxins such as MPP+ that target specific loss of aerobic metabolism. The toxicity of 6-OHDA paralleled the loss of mitochondrial oxygen (O2) consumption (MOC), glycolytic activity, ATP, H+ ion gradients, membrane potential and accumulation of the autoxidative product, hydrogen peroxide (H2O2). Removing H2O2 with nonenzymatic stoichiometric scavengers, such as carboxylic acids, glutathione and catalase yielded partial protection. The rapid removal of H2O2 with pyruvate or catalase restored only anaerobic glycolysis, but did not reverse the loss of MOC, indicating mitochondrial impairment is independent of H2O2. The H2O2 generated by 6-OHDA contributed toward the loss of anaerobic glycolysis through lipid peroxidation and lactic acid dehydrogenase inhibition. The ability of 6-OHDA to maintain oxidized cytochrome c (CYT-C-OX) in its reduced form (CYT-C-RED), appears to play a role in mitohondrial impairment. The reduction of CYT-C by 6-OHDA, was extensive, occurred within minutes, preceded formation of H2O2 and was unaffected by catalase or superoxide dismutase. At similar concentrations, 6-OHDA readily altered the valence state of iron [Fe(III)] to Fe(II), which would also theoretically sustain CYT-C in its reduced form. In isolated mitochondria, 6-OHDA had negligible effects on complex I, inhibited complex II and interfered with complex III by maintaining the substrate, CYT-C in a reduced state. 6-OHDA caused a transient and potent surge in isolated cytochrome oxidase (complex IV) activity, with rapid recovery as a result of 6-OHDA recycling CYT-C-OX to CYT-C-RED. Typical mitochondrial toxins such as MPP+, azide and antimycin appeared to inhibit the catalytic activity of ETC enzymes. In contrast, 6-OHDA alters the redox of the cytochromes, resulting in loss of substrate availability and obstruction of oxidation-reduction events. Complete cytoprotection against 6-OHDA toxicity and restored MOC was achieved by combining catalase with CYT-C (horse heart). In summary, CYT-C reducing properties are unique to catecholamine neurotransmitters, and may play a significant role in selective vulnerability of dopaminergic neurons to mitochondrial insults.
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PMID:The role of oxidative stress, impaired glycolysis and mitochondrial respiratory redox failure in the cytotoxic effects of 6-hydroxydopamine in vitro. 1503 17

In Parkinson's disease and other neurodegenerative diseases, (-)deprenyl, an inhibitor of type B monoamine oxidase (MAO-B), has been proposed to protect or rescue declining neurons. However, clinical trials failed to confirm the neuroprotection, even though in vivo and in vitro studies suggested the possibilities. This paper describes the activities of propargylamine MAO-B inhibitors against apoptosis induced by an endogenous selective dopaminergic neurotoxin, N-methyl(R)salsolinol, in dopaminergic SH-SY5Y cells. A series of propargylamines were shown to suppress the apoptotic cascade; preventing collapse of mitochondrial membrane potential, activation of caspase 3 and fragmentation of nucleosomal DNA. Among propargylamines, (R)-N-propargyl-1-aminoindan (rasagiline) was the most potent at preventing cell death. Rasagiline also prevented opening of permeability transition pore in insolated mitochondria. These results suggest that rasagiline and other propargylamines may regulate the apoptotic machinery in mitochondria and rescue or protect deteriorated neurons in neurodegenerative disorders.
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PMID:Anti-apoptotic function of propargylamine inhibitors of type-B monoamine oxidase. 1503 19

Parkinson's disease (PD) involves loss of dopaminergic neurons in the substantia nigra and is characterized by intracellular inclusions, Lewy bodies, consisting primarily of aggregated alpha-synuclein. Two substitution mutations (A53T and A30P) in alpha-synuclein gene have been identified in familial early-onset PD. To understand the biological changes that incur upon alpha-synuclein-induced cytotoxicity in the presence of dopamine, the current studies were undertaken. Human SH-SY5Y neuroblastoma cells coexpressing the human dopamine transporter [hDAT], and either wild type (wt) or mutant alpha-synucleins, were treated with 50 microM dopamine (DA). In cells expressing wt or A30P alpha-synuclein, DA accelerated production of reactive oxygen species and cell death as compared to cells expressing A53T or hDAT alone. The increased sensitivity of such cells to DA was investigated by measuring changes in cellular ionic gradient, by atomic absorption spectrometry, and cell metabolism, by high-resolution nuclear magnetic resonance spectroscopy. Both wt and A30P alpha-synuclein caused rapid decrease in levels of intracellular potassium, followed by mitochondrial damage and cytochrome c leakage, with decreased cellular metabolism as compared to cells expressing A53T or hDAT alone. Collapse of ionic gradient was significantly faster in A30P (t(1/2) = 3.5 h) than in wt (t(1/2) = 6.5 h) cells, and these changes in ionic gradient preceded cytochrome c leakage and depletion of metabolic energy. Neither wt nor mutant alpha-synuclein resulted in significant changes in ionic gradient or cellular metabolism in the absence of intracellular DA. These findings suggest a specific sequence of events triggered by dopamine and differentially exacerbated by alpha-synuclein and the A30P mutant.
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PMID:Differential cytotoxicity of human wild type and mutant alpha-synuclein in human neuroblastoma SH-SY5Y cells in the presence of dopamine. 1512 20

Oxidative stress is currently considered a mediator of cell death in several neurodegenerative diseases. Notably, it may play an important role in the degeneration of dopamine neurons of the substantia nigra in Parkinson's disease. We examined the effect of a strong oxidant, the herbicide paraquat, on cell distress using native and neuronal pheochromocytoma PC12 cells. Paraquat administration for 8 hours induced a significant cellular death in both native and in neuronal PC12 cells. Since the anti-oxidant properties of estrogens may promote neuroprotection in vitro and in vivo, we then investigated the ability of estradiol stereoisomers, 17alpha-estradiol and 17- beta-estradiol, to rescue PC12 cells submitted to paraquat-induced oxidative stress. Our results show a protective effect of both estradiol stereoisomers in neuronal PC12 cells treated with paraquat, whereas this effect could not be observed in native PC12 cells. We also demonstrate that estrogen receptor beta protein expression is modulated by paraquat administration in native PC12 cells, while paraquat does not change estrogen receptor beta ?expression in neuronal PC12 cells. Paraquat also decreases estrogen receptor alpha in neuronal PC12 cells, thus suggesting new routes for paraquat to collapse cellular metabolism. Besides, the oxidation of dihydrodhodamine-123 into fluorescent rhodamine in the presence of paraquat but not in presence of paraquat and 17 alpha-estradiol or 17 beta-estradiol, sustain a possible direct scavenging role of both estradiol stereoisomers.
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PMID:Alpha and beta estradiol protect neuronal but not native PC12 cells from paraquat-induced oxidative stress. 1532 66


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