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)

Two major lines of evidence support the hypothesis that an impairment of mitochondrial function may underlie neuronal death in Parkinson's disease. First, the neurotoxicity of the parkinsonism-inducing compound 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is due to the generation of its 1-methyl-4-phenylpyridinium (MPP+) metabolite in the central nervous system; the toxicity of MPP+ is likely to result from its ability to block mitochondrial electron flow at the level of complex I. Second, recent studies have revealed a deficiency of mitochondrial complex I activity in the brain as well as other tissues of parkinsonian patients. This enzyme activity reduction might be explained by a defect in one or more of the genes coding for the subunits of complex I. Since seven of these genes are localized in the mitochondrial genome, it is conceivable that abnormal mitochondrial DNA (mtDNA) might play a role in the pathogenesis of Parkinson's disease. The entire sequence of the human mitochondrial genome is known, and human mtDNA can be isolated and rapidly analyzed using techniques such as the polymerase chain reaction. Therefore, identification of an easily detectable mtDNA alteration might ultimately be used as a marker for the diagnosis and screening of Parkinson's disease.
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PMID:Mitochondrial DNA and Parkinson's disease. 190 41

Transferrin is a glycoprotein that functions primarily to deliver iron to the cell. Recent studies suggest that the transferrin receptor mediates the intracellular delivery and transport of iron bound to transferrin in the CNS. Iron-catalyzed free radical generation has been proposed as a possible cause of nigral cell death in Parkinson's disease. Our hypothesis is that abnormal iron handling by the transferrin receptor may contribute to the formation of free radical species which catalyze the lipid peroxidation of nigral cell membranes. We have assessed the number of transferrin receptors on membrane fractions prepared from the human striatum from control subjects and patients with Parkinson's disease. Equilibrium-binding studies demonstrated a reversible, saturable, and high-affinity transferrin binding site (KD = 3 nM) in human brain membranes. Regional binding assays indicate that the number of transferrin receptors in the putamen was reduced significantly in Parkinson's disease. The density of transferrin receptors was unaltered in membranes prepared from the caudate nuclei and the globus pallidus. To address the possibility that transferrin receptors are located on dopaminergic terminals, we have examined the distribution and number of transferrin receptors in the striatum of MPTP-treated mice using in vitro autoradiographic methods. In these experiments, the loss of dopaminergic terminals in the striatum was visualized by differential [3H]mazindol uptake site autoradiography. A marked reduction in the density of both transferrin receptors and [3H]mazindol binding sites was observed in the mouse striatum 7 days post-MPTP treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Distribution and number of transferrin receptors in Parkinson's disease and in MPTP-treated mice. 191 37

The vulnerability of substantia nigral (SN) melaninized dopamine neurons to neurodegeneration in Parkinson's disease and the selective increases of iron and basal lipid peroxidation in SN indicate that iron-melanin interaction could be crucial to the pathogenesis of this disease. The present study describes, for the first time, the identification and characterization of a high-affinity (KD = 13 nM) and a lower affinity (KD = 200 nM) binding site for iron on dopamine melanin. The binding of iron to melanin is dependent on pH and the concentration of melanin. Iron chelators, U74500A, desferrioxamine, and to less extent 1,10-phenanthroline and chlorpromazine, but not the Parkinson-inducing neurotoxin, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine, can inhibit the binding of iron to melanin and iron-induced lipid peroxidation. Although melanin alone diminishes basal lipid peroxidation in rat cortical homogenates, it can also potentiate that initiated by iron, a reaction inhibited by desferrioxamine. In the absence of an identifiable exogenous or endogenous neurotoxin in idiopathic Parkinson's disease, iron-melanin interaction in pars compacta of SN may be a strong candidate for the cytotoxic component of oxygen radical-induced neurodegeneration of melaninized dopamine neurons.
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PMID:Iron-melanin interaction and lipid peroxidation: implications for Parkinson's disease. 191 77

After local surgical exposure, we administrated 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) directly into the right common carotid artery of 5 rhesus monkeys. All the monkeys manifested akinesia, rigidity and postural tremor of the contralateral limbs, and spontaneous circling toward the MPTP treated side. These disturbances began to appear 3-4 days after injection, peaking at one month, and continued until the day of sacrifice. After treatment with madopar and apomorphine, marked improvements of the motor impairments appeared and a striking reversal of the direction of rotation away from the MPTP-treated side occurred in a dose-dependent manner. The ipsilateral neurotoxicity was confirmed biochemically by 99% reduction in the caudate-putamen dopamine levels and histologically by selective cell loss in the substantia nigra of the MPTP-treated side. It is concluded that this primate model of hemiparkinsonism is easy to reproduce and life is maintained with good health otherwise. So it may be more feasible for behavioral and pharmacological studies of Parkinson's disease.
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PMID:Hemiparkinsonism in monkeys following unilateral common carotid artery infusion of MPTP. A study of behavior, biochemistry and histology. 193 58

Since the discovery of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced parkinsonism, it has been postulated that (a) MPTP-like toxin(s) such as 1,2,3,4-tetrahydroisoquinoline (TIQ) may induce Parkinson's disease. As the neuronal degeneration in MPTP-induced parkinsonism is thought to be caused by the inhibition of the mitochondrial respiration by 1-methyl-4-phenylpyridinium ion (MPP+), we studied the effects of TIQ-like alkaloids including dopamine-derived ones on the mitochondrial respiration using mouse brains. TIQ, tetrahydropapaveroline (THP), and tetrahydropapaverine (THPV) produced significant inhibition of the state 3 and 4 respiration and respiratory control ratio supported by glutamate + malate, the activity of Complex I and the ATP synthesis. Among those compounds, THPV was most potent. Toxic properties of these compounds on mitochondria were quite similar to that of MPP+. Our results support the hypothesis that (a) MPTP- or MPP(+)-like substance(s) may be responsible for the nigral degeneration in Parkinson's disease.
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PMID:Inhibition of mitochondrial respiration by 1,2,3,4-tetrahydroisoquinoline-like endogenous alkaloids in mouse brain. 197 53

The long-term effect of the parkinsonism-inducing neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) on central monoaminergic neurons in young (2-3 months) and aging (12 months) C57BL/6 mice has been studied using neurochemical and immunocytochemical techniques. MPTP treatment (4 x 20 mg/kg i.p. given 12 h apart) resulted in significant depletion of dopamine (DA) concentration in the striatum, substantia nigra, nucleus accumbens, and olfactory tubercle 1 week after treatment in both young and aging mice. Although a decreased DA concentration in the ventral tegmental area was not seen in young mice, aging mice did show a significant decrease. The extent of decrease of DA concentration was greater in aging mice than in young mice in all areas investigated except in dorsal striatum. The long-term effect of MPTP on DA neurons in young mice included considerable recovery of DA concentration in both nigrostriatal and mesolimbic DA systems following the initial profound depletion; such recovery was minimal in aging mice, even 3 months after MPTP treatment. In young mice treated with MPTP, no significant change of norepinephrine (NE) or serotonin (5-HT) concentration was observed in any area investigated while a significant decrease of NE and 5-HT concentration was seen in several brain areas investigated in aging mice. Immunocytochemical analysis revealed that the MPTP injection resulted in marked disappearance of tyrosine hydroxylase (TH)-immunoreactive (IR) fibers in striatum of both young and aging mice 1 week following treatment. Partial recovery of TH-IR fibers was seen 5 weeks or 3 months after MPTP treatment in young mice, while no such apparent recovery was seen in aging mice. Aging mice also showed significant decrease in the number of TH-positive cell bodies in the substantia nigra and ventral tegmental area through all periods investigated, while such a significant decrease was only seen in the substantia nigra of young mice 1 week after treatment. We conclude that aging mice are more sensitive to MPTP and show more widespread damage to the monoaminergic systems than young mice, suggesting that MPTP-treated aging mice provide a more useful model for studying anatomical and neurochemical characteristics of Parkinson's disease than young mice.
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PMID:Long-term effect of MPTP in the mouse brain in relation to aging: neurochemical and immunocytochemical analysis. 197 65

We examined the ability of selective CCK-A and CCK-B receptor antagonists to induce or modulate the locomotor stimulant effects of dopamine agonists in MPTP-treated squirrel monkeys. Administration of 1-100 micrograms/kg i.p. of either the selective CCK-A receptor antagonist devazepide (MK-329) or the CCK-B receptor antagonist L-365,260 alone failed to stimulate a locomotor response in parkinsonian monkeys. In contrast, treatment with L-365,260 caused a 50-60% potentiation of the locomotor stimulatory effects of L-DOPA or (+)-PHNO. No such modulatory effects were observed following pretreatment with devazepide. We suggest that CCK-B receptor antagonists may be useful adjuncts to existing dopamine replacement therapy for improved management of Parkinson's disease.
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PMID:Modulatory role for CCK-B antagonists in Parkinson's disease. 197 38

This review summarizes basic and clinical research on intracerebral adrenal medulla grafts, emphasizing potential applications to Parkinson's disease. Properties of intraventricular and intraparenchymal grafts are described, and cell survival and functional effects are compared. It is clear that adrenal medulla allografts survive poorly in the parenchyma of the corpus striatum and better in the lateral ventricle. Nerve growth factor (NGF) may improve the survival of adrenal medulla grafts. In the absence of added NGF even adrenal medulla grafts in the ventricle survive irregularly, and the factors required for graft survival in the ventricle are not well understood. In the 6-hydroxydopamine-lesioned rat model most evidence suggests, not surprisingly, that adrenal medulla grafts produce functional effects only when they survive. These effects may be related to production of catecholamines by the transplanted cells. In addition, adrenal medulla grafts may produce trophic effects on host brain. These effects are most evident in animals with MPTP-induced damage to dopaminergic systems and may be nonspecific, possibly related in part to the brain injury that is induced by graft implantation. Trophic effects may contribute to the functional effects of adrenal medulla grafts: For intraparenchymal grafts, trophic effects that do not require cell survival may contribute small functional changes, while additional behavioral effects may require substantial chromaffin cell survival. The evidence for direct dopamine-mediated effects as compared to trophic mechanisms of action for these grafts in animal models for Parkinson's disease is presented. Clinical studies of adrenal medulla grafts in human patients are examined and compared in detail. When inspected closely, the various clinical studies are in general agreement on most points, although there are differences in the degree of improvement found, both across different studies and individual patients. It is concluded that some beneficial clinical effects occur, with small to modest changes in most patients and substantial improvement in a minority of patients. There also seem to be larger or more consistent changes in durations of "on" and "off" times in L-dihydroxyphenylalanine-treated patients. There are substantial side effects, and it is not clear that the clinical changes are sufficient to justify performing adrenal medulla transplantation in human patients as a routine procedure.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Intracerebral adrenal medulla grafts: a review. 197 6

A modified primate model of Parkinson's disease was developed to assess the effectiveness of various agents that act via dopamine, acetylcholine, serotonin or glutamate systems. Using a MPTP dosing regimen a reversible parkinsonian-like syndrome was produced in the marmoset. An obvious advantage of such a protocol is that it allows multiple drug studies to be undertaken in animals, without the need for prolonged anti-parkinsonian therapy to maintain their health. Results show that dopamine D2 agonists (bromocriptine, quinpirole, N,N-dipropyl,A,5,6-DTN, (+)3PPP and PHNO), anti-muscarinics (atropine, scopolamine and benztropine), in addition to L-DOPA and nomifensine, all reduced the bradykinesia induced by MPTP. The D1 agonist SKF-38393 and the partial dopamine agonist (-)3PPP were both ineffective. Finally, agents with potential therapeutic use in Parkinson's disease were also tested. However, a glutamate antagonist (MK801) and three serotonin antagonists (ritanserin, ketanserin and ICI 170,809) were all unable to alter the MPTP effects, at the doses used in our study.
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PMID:Effects of classical and novel agents in a MPTP-induced reversible model of Parkinson's disease. 197 76

The reduced form of nicotinamide adenine dinucleotide coenzyme Q reductase (complex I) activity has recently been shown to be deficient in the substantia nigra of patients dying with Parkinson's disease. This biochemical defect is identical to that produced by the neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), which also produces parkinsonism in humans. Complex I comprises 25 polypeptides, seven of which are encoded by mitochondrial DNA. Restriction fragment analysis of substantia nigra DNA from six patients with Parkinson's disease did not show any major deletion. In two cases, there were different novel polymorphisms that were not observed in control brain (n = 6) or blood (n = 34) samples.
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PMID:Mitochondrial DNA analysis in Parkinson's disease. 197 56


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