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)

Although mitochondrial dysfunction and increased oxidative stress are found in Alzheimer's disease (AD), the origin(s) of the mitochondrial dysfunction, its causal relationship to oxidative stress and the mechanisms of their downstream effects to yield synaptic dysfunction and neuronal death are not known with certainty. The discovery of "classic" mitochondrial diseases where bioenergetic deficiencies were associated with causal mutations or deletions in mitochondrial DNA (mtDNA) generated a search for similar abnormalities in AD samples. At least three-dozen studies since 1992 have failed to find consistent mutational abnormalities in AD mtDNA beyond those associated with aging, with most studies carried out in postmortem brain. Historically, the publication of a new mutation or deletion is followed by other studies that fail to confirm the initial finding. Promising recent findings include heteroplasmic mutations in the D-loop control region. AD brain mtDNA consistently has more oxidative damage beyond that due to aging, providing the potential for generation of mutations/deletions and postgenomic problems with transcriptional regulation. To date no AD brain studies have examined individual neurons to search for clonal expansions of deleted mtDNA's like two recent reports in Parkinson's disease substantia nigra. Cybrid (cytoplasmic hybrid) models, in which mitochondrial DNA (mtDNA) from accessible tissue (platelets) of living AD patients is expressed in replicating human neural cells initially devoid of their own endogenous mtDNA (rho(0) cells) revealed that decreased cytochrome oxidase (CO) activity, increased oxidative stress, increased beta amyloid production, activation of detrimental intracellular signaling and caspases, accelerated mtDNA proliferation, and abnormal mitochondrial morphology and transport can be transmitted through expression of mtDNA from living AD patients. Carrying these cybrid observations into AD brain is necessary to demonstrate any causality of brain mtDNA to contribute to pathogenesis. A novel protein transfection technology that allows transfer of mtDNA into mitochondria of cells ("protofection") will allow this question to be examined. The contribution of altered mtDNA to pathogenesis and progression of AD is suggestive, not proven, and likely very heterogenous.
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PMID:Mitochondrial genomic contribution to mitochondrial dysfunction in Alzheimer's disease. 1687 65

Deprenyl is a selective monoamine oxidase (MAO) B inhibitor, widely used for treatment of Parkinson's disease. The present study shows that deprenyl treatment was able to improve mitochondrial function. Fourteen month old mice were injected i.p. with deprenyl (20 mg/kg) and killed 1.5 h after the administration. Different brain subcellular fractions were isolated from control and deprenyl-treated animals to evaluate the effect of deprenyl on nitric oxide synthase (NOS) activity. Oxygen consumption, hydrogen peroxide (H(2)O(2)) production, mitochondrial membrane potential and calcium-induced permeability transition (MPT) were studied in intact mitochondria. In addition, the effect of deprenyl on respiratory complexes and MAO activities were evaluated in submitochondrial particles (SMP). Monoamine oxidase activity was found to be decreased by 55% in mitochondria from deprenyl-treated animals and as a consequence, H(2)O(2) production was significantly decreased. Deprenyl inhibited NOS activity in cytosolic fractions and SMP by 40% and 55%, respectively. In similar conditions, SMP from deprenyl-treated animals showed increased cytochrome oxidase activity. A 51% increase in the oxygen uptake in state 3 (active respiration state) was found after deprenyl treatment, but no significant changes were observed in state 4 (resting respiration state). Deprenyl treatment protected against calcium-induced depolarization and was able to inhibit calcium-induced MPT. This work provides evidence that deprenyl treatment exerts an improvement of brain mitochondrial function, through a reduction of free radical production, prevention of calcium-induced MPT and maintaining a mitochondrial transmembrane potential.
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PMID:Improvement of mouse brain mitochondrial function after deprenyl treatment. 1708 86

The Parkinsonian syndrome induced by pesticides is associated with the impairment of mitochondrial function. Toxicants that inhibit selectively NADH-dehydrogenase activity, as rotenone or pyridaben, also show a selective inhibition of O2 uptake and respiratory control in rat brain mitochondria in the presence of NAD-dependent substrates. The IC50 of rotenone and pyridaben for complex I inhibition were in the range 1.7-2.2 microM. The determination of NADH-cytochrome c reductase, succinate-cytochrome c reductase and cytochrome oxidase activities in rat brain submitochondrial showed again the selective inhibition of Complex I by rotenone and pyridaben, whereas paraquat produced a non-selective inhibition affecting all the respiratory chain complexes. In rat brain mitochondria, rotenone and pyridaben markedly decreased mtNOS functional activity with NAD-dependent substrates but not when the substrate was succinate. This observation suggest than mtNOS activity is regulated by the activity of complex I. This regulation and the role of mitochondrial NO diffusion as a signal for mitochondrial biogenesis could have a role in the etiopathology of Parkinson's disease.
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PMID:Pesticides and impairment of mitochondrial function in relation with the parkinsonian syndrome. 1712 63

We have examined whether degeneration of nigrostriatal dopaminergic neurons causes dysfunction of both the basal ganglia-thalamic and cerebello-thalamic pathways. Changes in the activity of thalamic neurons receiving input from the basal ganglia or the cerebellum were examined in two models of Parkinson's disease, 6-hydroxydopamine (6-OHDA)-lesioned rats and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated monkeys. Metabolic activity of the neurons was evaluated at the cellular level by quantitative in situ hybridization, using the expression of messenger RNA for subunit I of cytochrome oxidase (COI), encoded by the mitochondrial genome, as the marker. COI mRNA expression decreased significantly in thalamocortical neurons receiving input from the substantia nigra (-50.6%) or the cerebellum (-45%) in 6-OHDA-lesioned rats compared with controls. The decrease was observed in all thalamic neurons whether or not they were retrogradely labelled with a tracer injected into the motor cortex. Similarly, COI mRNA expression decreased in projection neurons and interneurons of the thalamus receiving input from the substantia nigra (-39 and -38%, respectively), the internal pallidum (-20 and -42.4%, respectively) and the cerebellum (-36.2 and -50%, respectively) of MPTP-treated monkeys compared with controls. These decreases in COI mRNA levels show that nigrostriatal denervation results in a decrease in the metabolic activity of thalamic neurons in the territories innervated by the substantia nigra, pallidum and cerebellum, which in turn is indicative of a decrease in their neuronal activity. The decrease did not concern the entire thalamus, however, since metabolic activity was unchanged in two thalamic nuclei considered to be limbic structures, the laterodorsal nucleus in 6-OHDA-lesioned rats and the anterior nucleus in MPTP-treated monkeys. Hypoactivity of both the basal ganglia-thalamic and cerebellar-thalamic pathways might therefore be implicated in the development of parkinsonian symptoms.
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PMID:Metabolic activity of cerebellar and basal ganglia-thalamic neurons is reduced in parkinsonism. 1714 69

Increasing evidence suggests a critical role for oxidative and nitrosative stress in the pathogenesis of most important neurodegenerative disorders. Parkinson's disease (PD) is a neurodegenerative disease characterized by a severe depletion in number of dopaminergic cells of the substantia nigra (SN). Administration of L-DOPA (LD) is the more effective treatment for patients with PD. However, the vast majority of patients suffer LD-related complications, which represent the major problem in the clinical management of PD. In the present study, LD administration to rats resulted in a significant dose-dependent increase in Hsp70 synthesis which was specific for the SN. The amount of 70 kDa protein increased after 6 h treatment reaching the maximal induction after 24-48 h. Induction of Hsp70 in the SN was associated with a significant increase in constitutive Hsc70 and mitochondrial Hsp60 stress proteins, and with increased expression of mitochondrial complex I whereas no significant changes were found in the activity of complex IV. In the same experimental conditions, a significant decrease in reduced glutathione was observed, which was associated with an increased content of oxidized glutathione content as well as nitric oxide (NO) synthase activity, NO metabolites and nitrotyrosine immunoreactivity. Interestingly, Hsp70 induction, iNOS up-regulation and nitrotyrosine formation have been confirmed also in SN and striatum of rats treated with LD and carbidopa, this latter being an inhibitor of the peripheral DOPA decarboxylase. Our data are in favor of the importance of the heat shock signal pathway as a basic mechanism of defense against neurotoxicity elicited by free radical oxygen and nitrogen species produced in aging and neurodegenerative disorders.
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PMID:In vivo induction of heat shock proteins in the substantia nigra following L-DOPA administration is associated with increased activity of mitochondrial complex I and nitrosative stress in rats: regulation by glutathione redox state. 1724 Nov 15

Despite the progressive development of innovative animal models for Parkinson's disease, the intracerebral infusion of neurotoxin 6-hydroxydopamine (6-OHDA) remains the most widely used means to induce an experimental lesion of the nigrostriatal pathway in the animal, due to its relatively low complexity and cost, coupled with the high reproducibility of the lesion obtained. To gain new information from such a classic model, we studied the time-course of the nigrostriatal damage, metabolic changes in the basal ganglia nuclei (cytochrome oxidase activity) and behavioural modifications (rotational response to apomorphine) following unilateral injection of 6-OHDA into the corpus striatum of rat, over a 4-week period. Striatal infusion of 6-OHDA caused early damage of dopaminergic terminals, followed by a slowly evolving loss of dopaminergic cell bodies in the substantia nigra pars compacta, which became apparent during the second week post-injection and peaked at the 28th day post-infusion; the rotational response to apomorphine was already present at the first time point considered (Day 1), and remained substantially stable throughout the 4-week period of observation. The evolution of the nigrostriatal lesion was accompanied by complex changes in the metabolic activity of the other basal ganglia nuclei investigated (substantia nigra pars reticulata, entopeduncular nucleus, globus pallidus and subthalamic nucleus), which led, ultimately, to a generalized, metabolic hyperactivity, ipsilaterally to the lesion. However, peculiar patterns of metabolic activation, or inhibition, characterized the post-lesional responses of each nucleus, in the early and intermediate phases, with peculiar response profiles that varied closely related to the functional position occupied within the basal ganglia circuitry.
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PMID:Time-course of nigrostriatal damage, basal ganglia metabolic changes and behavioural alterations following intrastriatal injection of 6-hydroxydopamine in the rat: new clues from an old model. 1728 80

A variety of gene mutations can cause familial forms of Parkinson's disease (PD) or amyotrophic lateral sclerosis (ALS). Mutations in the synaptic protein alpha-synuclein (alpha-Syn) cause PD. Mutations in the antioxidant enzyme superoxide dismutase-1 (SOD1) cause ALS. The mechanisms of human mutant a-Syn and SOD1 toxicity to neurons are not known. Transgenic (tg) mice expressing human mutant alpha-Syn or SOD1 develop profound fatal neurologic disease characterized by progressive motor deficits, paralysis, and neurodegeneration. Ala-53-->Thr (A53T)-mutant alpha-Syn and Gly-93-->Ala (G93A)-mutant SOD1 tg mice develop prominent mitochondrial abnormalities. Interestingly, although nigral neurons in A53T mice are relatively preserved, spinal motor neurons (MNs) undergo profound degeneration. In A53T mice, mitochondria degenerate in neurons, and complex IV activity is reduced. Furthermore, mitochondria in neurons develop DNA breaks and have p53 targeted to the outer membrane. Nitrated a-Syn accumulates in degenerating MNs in A53T mice. mSOD1 mouse MNs accumulate mitochondria from the axon terminals and generate higher levels of reactive oxygen/nitrogen species than MNs in control mice. mSOD1 mouse MNs accumulate DNA single-strand breaks prior to double-strand breaks occurring in nuclear and mitochondrial DNA. Nitrated and aggregated cytochrome c oxidase subunit-I and nitrated SOD2 accumulate in mSOD1 mouse spinal cord. Mitochondria in mSOD1 mouse MNs accumulate NADPH diaphorase and inducible NOS (iNOS)-like immunoreactivity, and iNOS gene deletion significantly extends the lifespan of G93A-mSOD1 mice. Mitochondrial changes develop long before symptoms emerge. These experiments reveal that mitochondrial nitrative stress and perturbations in mitochondrial trafficking may be antecedents of neuronal cell death in animal models of PD and ALS.
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PMID:Transgenic mice with human mutant genes causing Parkinson's disease and amyotrophic lateral sclerosis provide common insight into mechanisms of motor neuron selective vulnerability to degeneration. 1759 75

Serotonin (5-HT) containing neurons in the dorsal raphe nucleus (DRN) may play important roles in Parkinson's disease (PD). This study investigated neural and metabolic activity of the DRN in animal PD models based on dopamine depletion. The data show both increased firing rate of DRN 5-HT neurons and increased cytochrome oxidase activity in dopamine-depleted rats, as compared to controls. These data support the hypothesis that the DRN 5-HT system is hyperactive in the dopamine-depleted brain.
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PMID:Increased electrical and metabolic activity in the dorsal raphe nucleus of Parkinsonian rats. 1856 96

Epidemiological studies indicate that caffeine consumption reduces the risk of Parkinson's disease (PD) in men, and antagonists of the adenosine 2A receptor ameliorate the motor symptoms of PD. These findings motivated us to identify proteins whose expression is regulated by caffeine in a sexually dimorphic manner. Using mass spectroscopy, we found that Cox7c, a nuclear-encoded subunit of the mitochondrial enzyme cytochrome oxidase, is up-regulated in the striatum of male but not female mice after receiving a single dose of caffeine. The expression of two other Cox subunits, Cox1 and Cox4, was also stimulated by caffeine in a male-specific fashion. This up-regulation of Cox subunits by caffeine was accompanied by an increase in Cox enzyme activity in the male striatum. Caffeine-induced stimulation of Cox expression and activity were reproduced using the adenosine 2A receptor (A2AR)-specific antagonist 5-amino-7-(2-phenylethyl)-2-(2-furyl)-pyrazolo[4,3-epsilon]-1,2,4-triazolo[1,5-c]pyrimidine (SCH58261), and coadministration of the A2AR-specific agonist 2-[p-(2-carboxyethyl)phenethylamino]-5'-N-ethylcarboxamidoadenosine (CGS21680) counteracted the elevation of Cox expression and activity by caffeine. Caffeine also increased Cox activity in PC-12 cells. In contrast, small interfering RNA (siRNA) knockdown of Cox7c expression in PC-12 cells blunted Cox activity, and this was counteracted by caffeine treatment. Caffeine was also found to increase Cox7c mRNA expression in the striatum and in PC-12 cells. This occurred at the level of transcription and was mediated by a segment of the Cox7c promoter. Overall, these findings indicate that cytochrome oxidase is a metabolic target of caffeine and that stimulation of Cox activity by caffeine via blockade of A2AR signaling may be an important mechanism underlying the therapeutic benefits of caffeine in PD.
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PMID:Caffeine stimulates cytochrome oxidase expression and activity in the striatum in a sexually dimorphic manner. 1858 56

Coadministration of entacapone with levodopa attenuates motor complications in experimental models of Parkinson's disease. The mechanisms underlying entacapone effects are unknown. We investigated the effect of entacapone, on: long-duration response (LDR) to levodopa, levodopa-induced postsynaptic pharmacodynamic mechanisms and molecular changes in hemiparkinsonian rats. 6-Hydroxydopamine-unilaterally lesioned rats were treated with levodopa (25 mg/kg)+vehicle; levodopa+entacapone (30 mg/kg) or saline, twice daily for 22 days. The LDR and the apomorphine-induced rotations were measured. In situ hybridization was performed measuring the expression of striatal preproenkephalin, preprodynorphin and dopamine D-3 receptor mRNAs, subthalamic cytochrome oxidase mRNA and nigral glutamic acid decarboxylase mRNA. Entacapone potentiated the LDR but did not modify either the apomorphine-induced rotational behavior or the molecular changes. Our results suggest that the effects of entacapone on levodopa-induced motor response are not mediated by postsynaptic mechanisms and that administration of entacapone is not able to normalize the molecular alterations induced by levodopa in the basal ganglia.
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PMID:Entacapone potentiates the long-duration response but does not normalize levodopa-induced molecular changes. 1872 29

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