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)

We previously found that sustained ERK activation contributes to toxicity elicited by the parkinsonian neurotoxin 6-hydroxydopamine. In addition, substantia nigra neurons from patients with incidental Lewy body disease, Parkinson disease (PD), and diffuse Lewy body dementia (DLB) display abnormal phospho-ERK accumulations in the form of discrete cytoplasmic granules. In this study, we investigated the subcellular localization of phospho-ERK immunoreactive granules using double label confocal microscopy and immuno-electron microscopy. A small percentage of phospho-ERK granules co-localized with the early endosome marker Rab5, but not with cathepsin D, 20S proteasome beta-subunit, or cytochrome P450 reductase. Phospho-ERK immunoreactivity was often associated with mitochondrial proteins (MnSOD, 60 kDa and 110 kDa mitochondrial antigens), and some vesicular-appearing phospho-ERK granules appeared to envelop enlarged mitochondria by confocal laser scanning microscopy. Ultrastructural immuno-gold studies revealed phospho-ERK labeling in mitochondria and in association with bundles of approximately 10 nm fibrils. Heavily labeled mitochondria were observed within autophagosomes. As mitochondrial pathology may play a pivotal role in Parkinson and other related neurodegenerative diseases, these studies suggest a potential interaction between dysfunctional mitochondria, autophagy, and ERK signaling pathways.
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PMID:Localization of phosphorylated ERK/MAP kinases to mitochondria and autophagosomes in Lewy body diseases. 1465 53

Oxidative stress (OS) is thought to participate in the pathogenesis of neurodegenerative disorders, including Parkinson's disease (PD). Excessive reactive oxygen species (ROS) production can occur during the normal aging process or following exposure to environmental toxicants. Dopamine neurons, which degenerate during PD, are particularly sensitive to oxidative stress. Polychlorinated biphenyls (PCBs), persistent and widespread pollutants, have been shown to adversely impact dopaminergic (DAergic) pathways, but the role ROS play in neurotoxicity remains unclear. To test the hypothesis that PCB exposure compromises dopamine neurons by stimulating ROS production, the direct toxicity and oxidative stress response following PCB exposure was examined both in MN9D dopamine cells and primary mesencephalic cultures. PCBs induced a time- and concentration-dependent increase in ROS production, which preceded cytotoxicity. Whereas intracellular GSH depletion exacerbated PCB effects, antioxidant pretreatment attenuated ROS production and cell death. Coincident alterations in antioxidant defense enzymes also accompanied ROS production, including decreased MnSOD and increased CuZnSOD protein levels. The robust elevation in heme oxygenase-1 levels further support the activation of oxidative stress mechanisms following PCB exposure. Furthermore, PCBs produced concentration-dependent reductions in intracellular dopamine levels and elevated dopamine turnover. Although the intracellular source of ROS remains unknown, these results suggest that sublethal PCB concentrations activate an oxidative stress-related pathway, which potentially disrupts dopamine neuron function.
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PMID:Polychlorinated biphenyl mixture aroclor 1254-induced oxidative stress plays a role in dopaminergic cell injury. 1547 11

We report a review on progress in the etiology and pathogenesis of Parkinson's disease (PD). We also report the long-term prognosis of PD patients seen in our clinic. Modern research on the pathogenesis started after the discovery of MPTP. We found inhibition of mitochondrial complex I by MPTP and MPP+. Mitochondrial respiratory failure induces oxidative damage to high molecular weight substances. Both mitochondrial failure and oxidative stress are important triggers of apoptosis. We found TUNEL positive nigral neurons in PD patients suggesting involvement of apoptosis in the pathogenesis. Interaction of genetic risk factors and environmental neurotoxins has been implicated in the etiology of PD. While we were investigating MnSOD gene polymorphism in PD patients, we found a young onset autosomal recessive PD family that was linked to the MnSOD locus. Subsequent linkage analysis on 13 families of young onset autosomal recessive families disclosed the linkage of this disease to the telomeric region of the long arm of chromosome 6 (6q25.2-27). Then we were lucky enough to find a patient who had a deletion of one of the microsatellite markers (D6S305) that we were using in the linkage analysis. We thought this marker might be located within the disease gene and this was the case. We screened the Keio BAC library with this marker, and eventually we cloned a novel gene encompassing 1.4 Mb; we named it parkin. The coding region consisted of 1,395 base pairs. The parkin protein had an unique sequence in that there was a 30% homology in the amino terminal region and two RING-finger motives on the carboxy terminal side. This unique structure suggested that the parkin protein was related to the ubiquitin-proteasome system. Parkin protein turned out to be an ubiquitin-protein ligase. Numbers of parkin-interacting proteins were reported in the literature and accumulation of parkin-substrates is likely to be the cause for the nigral neuronal death in this familial PD. Regarding the prognosis of PD, we analyzed the patients who visited our clinic from January 1, 1989 to December 31, 2002. The total of patients recruited was 1,772. The average age of onset was 57.2 years. Mean levodopa dose at the final examination was 479 mg/day. The most common initial symptom was tremor which was seen in 51% of the patients. Total percentage of patients who had tremor during the course of the disease was 75%. Long-term prognosis was evaluated on a subgroup of the patients who visited our clinic within 5 years from the onset and Hoehn and Yahr stage III or less when first seen. Analysis was done by the Kaplan-Meier survival curve. Percentages of patients who reached Hoehn and Yahr III 5, 10, and 15 years after the onset were 24%, 46%, and 65%, respectively. Percentages of patients who developed wearing off fluctuations were 5, 10, and 15 years after the start of levodopa were 18%, 46%, and 55%, respectively. Overall mortality on the total investigated patients was 7.9%. When compared to the age at death of Japanese population, mortality of men PD patients became very close to that of the general population in the year 2003. However, that in women PD patients showed significantly shorter survival compared to Japanese female population. Average ages of onset and the death were essentially similar between men and women PD patients. Survival curves to reach stage III and wearing off showed slightly but significantly faster time courses for women compared to those of men. This was an unexpected observation and its mechanism was discussed. It is our conclusion that overall prognosis of PD patients is improving and both patients and treating physicians should take an optimistic attitude to the disease.
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PMID:[Progress in the basic and clinical aspects of Parkinson's disease]. 1565 Dec 81

Selegiline, a therapeutic agent of Parkinson's disease, is known to have neuroprotective properties that may involve its regulatory effects on antioxidant enzymes. We evaluated effects of selegiline on activities of catalase (CAT), Cu,Zn-superoxide dismutase (SOD1) and Mn-SOD (SOD2) in the striatum, cortex and hippocampus of 8- and 25-week-old rats, and on SOD activities and glutathione levels in mesencephalic slice cultures. Selegiline (2 mg/kg) significantly increased CAT and SOD2 activities in the striatum, but not in the cortex and hippocampus, of 25-week-old rats. In contrast, selegiline failed to increase CAT and SOD activities in three brain regions of 8-week-old rats, whereas L: -dopa significantly increased SOD1 activity in the striatum. In slice cultures, selegiline increased SOD1 and SOD2 activities with a maximal effective concentration of 10(-8) and 10(-10) M, respectively. Moreover, selegiline significantly increased glutathione level. These results suggest that selegiline can decrease oxidative stress in nigrostriatum by augmenting various antioxidant systems, each of which responds optimally to different concentrations of selegiline.
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PMID:Effects of selegiline on antioxidant systems in the nigrostriatum in rat. 1595 53

1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) causes the damage of dopaminergic neurons as seen in Parkinson's disease. Oxidative stress has been as one of several pathogenic hypotheses for Parkinson's disease. Here we investigated whether arundic acid, an astrocyte-modulating agent, can protect against alterations of nitric oxide synthase (NOS) and superoxide dismutase (SOD) expression on MPTP neurotoxicity in mice, utilizing an immunohistochemistry. For this purpose, anti-tyrosine hydroxylase (TH) antibody, anti-dopamine transporter (DAT) antibody, anti-Cu/Zn-SOD antibody, anti-Mn-SOD antibody, anti-nNOS antibody, anti-eNOS antibody and anti-iNOS antibody were used. The present study showed that the arundic acid had a protective effect against MPTP-induced neuronal damage in the striatum and substantia nigra of mice. The protective effect may be, at least in part, caused by the reductions of the levels of reactive nitrogen (RNS) and oxygen species (ROS) against MPTP neurotoxicity. These results suggest that the pharmacological modulation of astrocyte may offer a novel therapeutic strategy for the treatment of Parkinson's disease. Furthermore, our results provide further evidence that a combination of nNOS inhibitors, iNOS inhibitors and free radical scavengers may be effective in the treatment of neurodegenerative diseases. Thus our present results provide valuable information for the pathogenesis of degeneration of the nigrostriatal dopaminergic neuronal pathway.
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PMID:Neuroprotective effect of arundic acid, an astrocyte-modulating agent, in mouse brain against MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) neurotoxicity. 1630 47

Parkinson's disease (PD) is a common neurodegenerative disorder that results from the selective loss of midbrain dopaminergic neurons. Misfolding and aggregation of the protein alpha-synuclein, oxidative damage, and proteasomal impairment are all hypotheses for the molecular cause of this selective neurotoxicity. Here, we describe a Saccharomyces cerevisiae model to evaluate the misfolding, aggregation, and toxicity-inducing ability of wild-type alpha-synuclein and three mutants (A30P, A53T, and A30P/A53T), and we compare regulation of these properties by dysfunctional proteasomes and by oxidative stress. We found prominent localization of wild-type and A53T alpha-synuclein near the plasma membrane, supporting known in vitro lipid-binding ability. In contrast, A30P was mostly cytoplasmic, whereas A30P/A53T displayed both types of fluorescence. Surprisingly, alpha-synuclein was not toxic to several yeast strains tested. When yeast mutants for the proteasomal barrel (doa3-1) were evaluated, delayed alpha-synuclein synthesis and membrane association were observed; yeast mutant for the proteasomal cap (sen3-1) exhibited increased accumulation and aggregation of alpha-synuclein. Both sen3-1and doa3-1 mutants exhibited synthetic lethality with alpha-synuclein. When yeasts were challenged with an oxidant (hydrogen peroxide), alpha-synuclein was extremely lethal to cells that lacked manganese superoxide dismutase Mn-SOD (sod2Delta) but not to cells that lacked copper, zinc superoxide dismutase Cu,Zn-SOD (sod1Delta). Despite the toxicity, sod2Delta cells never displayed intracellular aggregates of alpha-synuclein. We suggest that the toxic alpha-synuclein species in yeast are smaller than the visible aggregates, and toxicity might involve alpha-synuclein membrane association. Thus, yeasts have emerged effective organisms for characterizing factors and mechanisms that regulate alpha-synuclein toxicity.
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PMID:alpha-Synuclein budding yeast model: toxicity enhanced by impaired proteasome and oxidative stress. 1667 56

Recent literature has ushered in a new awareness of the diverse post-translational events that can influence protein folding and function. Among these modifications, protein nitration is thought to play a critical role in the onset and progression of several neurodegenerative diseases. While previously considered a late-stage epiphenomenon, nitration of protein tyrosine residues appears to be an early event in the lesions of amyotrophic lateral sclerosis, Parkinson's disease, and Alzheimer's disease. The advent of highly specific biochemical and immunological detection methods reveals that nitration occurs in vivo with biological selectively and site specificity. In fact, nitration of only a single Tyr residue is often sufficient to induce profound changes in the activity of catalytic proteins and the three-dimensional conformation of structural proteins. Presumably, nitration modifies protein function by altering the hydrophobicity, hydrogen bonding, and electrostatic properties within the targeted protein. Most importantly, however, nitrative injury may represent a unifying mechanism that explains how genetic and environmental causes of neurological disease manifest a singular phenotype. In this review and synthesis, we first examine the pathways of protein nitration in biological systems and the factors that influence site-directed nitration. Subsequently, we turn our attention to the structural implications of site-specific nitration and how it affects the function of several neurodegeneration-related proteins. These proteins include Mn superoxide dismutase and neurofilament light subunit in amyotrophic lateral sclerosis, alpha-synuclein and tyrosine hydroxylase in Parkinson's disease, and tau in Alzheimer's disease.
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PMID:Nitration in neurodegeneration: deciphering the "Hows" "nYs". 1754 19

Emerging evidence suggests the beneficial effects of estrogen on Parkinson's disease (PD), yet the mechanisms of action implicated remain elusive. While experimental evidence suggests that estrogen possesses potent antioxidative properties, it is still unknown whether the hormone exhibits a neuroprotection in a PD animal model through its antioxidant activities. This study therefore investigated the effects of 17beta-estradiol (E2) on the immunoreactivity of nigral neurons and glia for nitrotyrosine (NT, a stable marker for oxidative stress), Cu/Zn superoxide dismutase (SOD1) and Mn superoxide dismutase (SOD2) in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) mouse model. Adult male mice were treated with E2 or vehicle for 11 days during which they were injected with MPTP or saline on the sixth day. The brains were collected on day 11 and quantitative immunohistochemistry was used to assess the number of NT-, SOD1- and SOD2-immunoreactive (IR) cells in the substantia nigra pars compacta (SNpc). In saline-treated group, E2 decreased NT-IR neuronal number and raised SOD1 and SOD2 expression in neurons and glia in the SNpc. MPTP induced a significant increase in the number of NT- and SOD2-IR neurons, but decreased the number of SOD1-IR neurons. MPTP also triggered a significant increase of SOD2- and SOD1-IR glial number. E2 pretreatment in MPTP mice reduced the number of NT-IR neurons, increased the number of SOD1- and SOD2-IR neurons, but did not alter the MPTP effect on glia immunoreactive to either SOD. Stimulation of SOD1 and SOD2 expression in nigral neurons suggests that E2 provides neuroprotection against MPTP-induced oxidative stress, partly through its ability to act as an antioxidant.
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PMID:17Beta-estradiol reduces nitrotyrosine immunoreactivity and increases SOD1 and SOD2 immunoreactivity in nigral neurons in male mice following MPTP insult. 1764 Jun 23

Oxidative stress contributes to the development of neurodegenerative diseases. DJ-1, a protein genetically linked to Parkinson's disease (PD), has been implicated in oxidative stress defense and transcriptional regulation. However, it is unclear whether these two aspects of the DJ-1 function are connected. Here, we show that the inactivation of DJ-1 causes decreased expression of the human MnSOD. DJ-1 stimulates the activity of a master regulator of mitochondrial biogenesis and stress response, peroxisome proliferator-activated receptor-gamma co-activator 1alpha (PGC-1alpha), in the transcription of the MnSOD. Although DJ-1 does not interact with PGC-1alpha directly, it inhibits the SUMOylation of a transcriptional repressor, pyrimidine tract-binding protein-associated splicing factor (PSF). PSF binds PGC-1alpha and suppresses its transcriptional activity. In contrast, a SUMOylation-deficient PSF mutant exhibits reduced binding to PGC-1alpha and promotes its activity. SUMO-specific isopeptidase SENP-1 further enhances the synergy between DJ-1 and PGC-1alpha, whereas an SUMO E3 ligase protein inhibitor of activated STAT Y completely blocks the synergy. Conversely, oxidative modification renders DJ-1 unable to inhibit SUMOylation, resulting in attenuated transcriptional synergy between DJ-1 and PGC-1alpha. Therefore, our results validate DJ-1 as a transcriptional regulator in mitochondrial oxidative stress response and imply that the oxidation-mediated functional impairment of DJ-1 leads to gradual dysregulation of the SUMO pathway. Consequent abnormal mitochondrial gene expression may contribute to the development of sporadic PD.
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PMID:Synergistic activation of the human MnSOD promoter by DJ-1 and PGC-1alpha: regulation by SUMOylation and oxidation. 1868 99

Frontal cortex samples from frozen human brains were used to assess tissue respiration; content of mitochondria; mitochondrial oxygen uptake; activity of respiratory complexes and of mitochondrial nitric oxide synthase (mtNOS); content of cytochromes a, b, and c; oxidative damage (protein carbonyls and TBARS); and expression of Mn-SOD in patients with Parkinson disease (PD) and with dementia with Lewy bodies (DLB) in comparison with those of normal healthy controls. Brain cortex and mitochondrial O(2) uptake and complex I activity were significantly lower in PD and DLB, whereas mtNOS activity, cytochrome content, expression of Mn-SOD, mitochondrial mass, and oxidative damage were significantly higher in the frontal cortex in PD and DLB. The decreases in tissue and mitochondrial O(2) uptake and in complex I activity are considered the consequences of mitochondrial oxidative damage. The increases in mtNOS activity and in mitochondrial mass are interpreted as an adaptive response of the frontal cortex that involves increased NO signaling for mitochondrial biogenesis. The adaptive response would partially compensate for mitochondrial dysfunction in these neurodegenerative diseases and would afford a human evolutionary response to shortage of ATP in the frontal cortex.
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PMID:Human brain cortex: mitochondrial oxidative damage and adaptive response in Parkinson disease and in dementia with Lewy bodies. 1929 51

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