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)

Oxidative stress has been proposed as a pathogenetic mechanism in Alzheimer's disease. One mechanism of oxidative damage is the nitration of tyrosine residues in proteins, mediated by peroxynitrite breakdown. Peroxynitrite, a reaction product of nitric oxide and superoxide radicals, has been implicated in N-methyl-D-aspartate receptor-mediated excitotoxic damage. Reported evidence of oxidative stress in Alzheimer's disease includes increased iron, alterations in protective enzymes, and markers of oxidative damage to proteins and lipids. In this report, we demonstrate the presence of nitrotyrosine in neurofibrillary tangles of Alzheimer's disease. Nitrotyrosine was not detected in controls lacking neurofibrillary tangles. Immunolabeling was demonstrated to be specific nitrotyrosine in a series of control experiments. These observations link oxidative stress with a key pathological lesion of Alzheimer's disease, the neurofibrillary tangle, and demonstrate a pathogenetic mechanism in common with the other major neurodegenerative diseases of aging, Parkinson's disease and amyotrophic lateral sclerosis. These findings further implicate nitric oxide expression and excitotoxicity in the pathogenesis of cell death in Alzheimer's disease.
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PMID:Evidence of neuronal oxidative damage in Alzheimer's disease. 868 45

Parkinson's disease is characterized by dopaminergic neuronal degeneration, but its pathogenic mechanism is still unknown. In the dopaminergic neurons, oxygen radicals such as hydrogen peroxide are released through dopamine oxidation. Many factors are involved in radical formation, but glutamate and nitric oxide (NO) are the major effectors of the radical-induced neurotoxicity mediated primarily through calcium influx. In the cultured embryonic rat mesencephalon, we investigated the dopaminergic and non-dopaminergic neuronal death induced by glutamate and by NO-generating agents. Although glutamate had a neurotoxic effect on both dopaminergic and non-dopaminergic neurons, it showed slightly greater effect in the dopaminergic neurons. In contrast to glutamate, NO-generating agents (S-nitrosocysteine and sodium nitroprusside) showed neurotoxic effects restricted exclusively to non-dopaminergic neurons. Although N omega-nitro-L-arginine, and NO synthase inhibitor, had no significant effect on the glutamate-induced cytotoxicity in dopaminergic neurons, it had a significant antagonistic effect on that in non-dopaminergic neurons. These findings indicate the presence of two different mechanisms of glutamate-induced neuronal death, one being neurotoxicity not mediated by NO, found in dopaminergic neurons, and the other being that mediated via NO, found in non-dopaminergic neurons.
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PMID:Different mechanisms of glutamate-induced neuronal death between dopaminergic and non-dopaminergic neurons in rat mesencephalic culture. 869 37

We studied nitrogen radical nitric oxide (.NO) release and reactive oxygen species (ROS) production by isolated neutrophils after phorbol myristate acetate (PMA) stimulation in 12 newly diagnosed and nine treated Parkinson's disease (PD) patients and 10 age-matched healthy controls. Neutrophils of both groups of PD patients had an elevated PMA-activated release of .NO [61 and 57%, respectively, higher than that of controls (p < 0.05)]. In contrast, H2O2 release was only significantly increased by 56% in chronically treated patients. In agreement, the maximum rate of luminol-dependent chemiluminescence, which partly represents O2- H2O2- .NO interactions, was increased only in the treated group. When other blood markers of oxidative stress were compared, only erythrocyte catalase activity was decreased in both PD patient series by 33 and 39%, respectively (p < 0.05), whereas plasma antioxidant capacity and erythrocyte superoxide dismutase activity levels were decreased only in treated PD patients. This study suggests that neutrophils express a primary alteration of .NO release in PD patients, whereas H2O2 and oxidative-stress parameters are more probably related to the evolution of PD or to effects of treatment with L-dopa.
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PMID:Neutrophil function, nitric oxide, and blood oxidative stress in Parkinson's disease. 872 42

Oxidative stress refers to the cytopathologic consequences of a mismatch between the production of free radicals and the ability of the cell to defend against them. Growing data from experimental models and human brain studies suggest oxidative stress may play an important role in neuronal degeneration in diseases such as Parkinson's disease, Alzheimer's disease, and amyotrophic lateral sclerosis. Mitochondrial oxidative metabolism, nitric oxide, phospholipid metabolism, and proteolytic pathways are potential sources of intracellular free radicals. Alterations in free radical defense systems may also contribute to oxidative stress. A net increase in reactive oxygen species can produce damage to lipids, proteins, and DNA and induce necrosis or apoptosis. Elucidating the pathways important in the production of and defense from free radicals may be important in devising new pharmacologic strategies to slow or halt neuronal degeneration.
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PMID:Oxidative stress in neurodegenerative diseases. 872 83

Parkinson's disease is characterized by a loss of dopaminergic neurons in the mesencephalon. Although the mechanism of this neuronal loss is still unknown, oxidative stress is very likely involved in the cascade of events leading to nerve cell death. Since nitric oxide could be involved in the production of free radicals, we analysed, using immunohistochemistry and histochemistry, the production systems of nitric oxide in the mesencephalon of four patients with idiopathic Parkinson's disease and three matched control subjects. Using specific antibodies directed against the inducible isoform of nitric oxide synthase (the enzyme involved in the synthesis of nitric oxide), we found evidence to suggest that this isoform was present solely in glial cells displaying the morphological characteristics of activated macrophages. Immunohistochemical analysis performed with antibodies against the neuronal isoform of nitric oxide synthase, however, revealed perikarya and processes of neurons but no glial cell staining. The number of nitric oxide synthase-containing cells was investigated by histoenzymology, using the NADPH-diaphorase activity of nitric oxide synthase. Histochemistry revealed (i) a significant increase in NADPH-diaphorase-positive glial cell density in the dopaminergic cell groups characterized by neuronal loss in Parkinson's disease and (ii) a neuronal loss in Parkinson's disease that was two-fold greater for pigmented NADPH-diaphorase-negative neurons than for pigmented NADPH-diaphorase-positive neurons. These data suggest a potentially deleterious role of glial cells producing excessive levels of nitric oxide in Parkinson's disease, which may be neurotoxic for a subpopulation of dopaminergic neurons, especially those not expressing NADPH-diaphorase activity. However, it cannot be excluded that the presence of glial cells expressing nitric oxide synthase in the substantia nigra of patients with Parkinson's disease represents a consequence of dopaminergic neuronal loss.
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PMID:Nitric oxide synthase and neuronal vulnerability in Parkinson's disease. 873 6

It has been suggested that nitric oxide could be implicated in the neuronal degeneration of substantia nigra compacta in patients with Parkinson's disease. Recently, it has been reported decreased CSF nitrate levels (oxidation product that provides an indirect estimation of nitric oxide) in Parkinson's disease patients, assessed with a colorimetric method. We studied the CSF and plasma levels of nitrate with a kinetic cadmium-reduction method in 31 Parkinson's disease patients and 38 matched controls. The CSF and plasma nitrate levels were not correlated either in patient or in the control group, and they did not differ significantly between the two study groups. They were not influenced significantly by antiparkinsonian drugs in patients, although there was a trend for CSF nitrate levels to be higher in patients treated with levodopa or with dopamine agonists. CSF and plasma nitrate levels did not correlate with age at onset, duration, scores of the unified Parkinson's disease rating scales and Hoehn & Yahr staging in the patients group. These date suggest that CSF and plasma levels of nitrate are apparently unrelated with the risk for PD.
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PMID:Cerebrospinal fluid nitrate levels in patients with Parkinson's disease. 874 Nov 30

To investigate whether nitric oxide (NO) plays a role in degenerative neurologic disease (DND), we measured nitrite, nitrate and cyclic GMP in cerebrospinal fluid (CSF) samples from patients with Parkinson's disease (PD), spinocerebellar ataxia (SCA) and amyotrophic lateral sclerosis (ALS). We found no significant change in CSF nitrite, nitrate or cyclic GMP in patients with any DND compared with control values. These results suggest that NO production is preserved in PD, SCA and ALS.
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PMID:Nitrite, nitrate and cGMP in the cerebrospinal fluid in degenerative neurologic diseases. 874 72

1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) produces clinical, biochemical and neuropathologic changes reminiscent of those which occur in idiopathic Parkinson's disease. 7-Nitroindazole (7-NI) is a relatively selective inhibitor of the neuronal isoform of nitric oxide synthase (NOS) that blocks MPTP neurotoxicity in mice. We now show that 7-NI protects against profound striatal dopamine depletions and loss of tyrosine hydroxylase-positive neurons in the substantia nigra in MPTP-treated baboons. Furthermore, 7-NI protected against MPTP-induced motor and frontal-type cognitive deficits. These results strongly implicate a role of nitric oxide in MPTP neurotoxicity and suggest that inhibitors of neuronal NOS might be useful in treating Parkinson's disease.
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PMID:Inhibition of neuronal nitric oxide synthase prevents MPTP-induced parkinsonism in baboons. 878 45

The present study was undertaken to investigate whether the relatively selective neuronal nitric oxide synthase (NOS) inhibitor, 7-nitroindazole (7-NI), protects against methamphetamine (METH)-induced neurotoxicity. Male Swiss Webster mice received the following treatments (i.p.; q 3 h x 3): (a) vehicle/saline, (b) 7-NI (25 mg/kg)/saline, (c) vehicle/METH (5 mg/kg), and (d) 7-NI (25 mg/kg)/METH (5 mg/kg). On the second day, groups (a) and (b) received two vehicle injections, and groups (c) and (d) received two 7-NI injections (25 mg/kg, each). Administration of vehicle/METH resulted in 68, 44, and 55% decreases in the concentration of dopamine, 3,4-dihydroxyphenylacetic acid, and homovanillic acid, respectively, and a 48% decrease in the number of [3H]mazindol binding sites in the striatum compared with control values. Treatment with 7-NI (group d) provided full protection against the depletion of dopamine and its metabolites and the loss of dopamine transporter binding sites. Administration of 7-NI/saline (group b) affected neither the tissue concentration of dopamine and its metabolites nor the binding parameters of [3H] mazindol compared with control values. 7-NI had no significant effect on animals' body temperature, and it did not affect METH-induced hyperthermia. These findings indicate a role for nitric oxide in methamphetamine-induced neurotoxicity and also suggest that blockade of NOS may be beneficial for the management of Parkinson's disease.
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PMID:The neuronal nitric oxide synthase inhibitor, 7-nitroindazole, protects against methamphetamine-induced neurotoxicity in vivo. 885 65

It has recently been considered that free radicals are closely involved in the pathogenesis of Parkinson's disease (PD), and the level of nitric oxide radical (.NO), one of the free radicals, is reported to increase in PD brain. In the present study, we established a direct detection system for .NO in an in vitro .NO-generating system using 3-(2-hydroxy-1-methylethyl-2-nitrosohydrazino)-N-methyl-1-propa namine as an .NO donor and 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl 3-oxide (carboxy-PTIO) by electron spin resonance (ESR) spectrometry and examined the quenching effects of the dopamine agonists pergolide and bromocriptine on the amount of.NO generated. .NO appeared to be scavenged by pergolide and, to a lesser extent, by bromocriptine. In the competition assay, the 50% inhibitory concentration values for pergolide and bromocriptine were estimated to be approximately 23 and 200 microM, respectively. It was previously reported that in vivo treatment of pergolide and bromocriptine completely protected against the decrease in levels of striatal dopamine and its metabolites in the 6-hydroxydopamine-injected mouse. Considering these findings, pergolide and probably bromocriptine may also protect against dysfunction of dopaminergic neurons because of its multiple effects; not only does it stimulate the presynaptic autoreceptors, but it also directly scavenges .NO radicals and hence protects against .NO-related cytotoxicity. This ESR spectrometry method using carboxy-PTIO may be useful for screening other drugs that can quench .NO.
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PMID:Scavenging effects of dopamine agonists on nitric oxide radicals. 886 33


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