Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Parkin, the most commonly mutated gene in familial Parkinson's disease, encodes an E3 ubiquitin ligase. A number of candidate substrates have been identified for parkin ubiquitin ligase action including CDCrel-1, o-glycosylated alpha-synuclein, Pael-R, and synphilin-1. We now show that parkin promotes the ubiquitination and degradation of an expanded polyglutamine protein. Overexpression of parkin reduces aggregation and cytotoxicity of an expanded polyglutamine ataxin-3 fragment. Using a cellular proteasome indicator system based on a destabilized form of green fluorescent protein, we demonstrate that parkin reduces proteasome impairment and caspase-12 activation induced by an expanded polyglutamine protein. Parkin forms a complex with the expanded polyglutamine protein, heat shock protein 70 (Hsp70) and the proteasome, which may be important for the elimination of the expanded polyglutamine protein. Hsp70 enhances parkin binding and ubiquitination of expanded polyglutamine protein in vitro suggesting that Hsp70 may help to recruit misfolded proteins as substrates for parkin E3 ubiquitin ligase activity. We speculate that parkin may function to relieve endoplasmic reticulum stress by preserving proteasome activity in the presence of misfolded proteins. Loss of parkin function and the resulting proteasomal impairment may contribute to the accumulation of toxic aberrant proteins in neurodegenerative diseases including Parkinson's disease.
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PMID:Parkin facilitates the elimination of expanded polyglutamine proteins and leads to preservation of proteasome function. 1267 55

Parkinson disease is a neurodegenerative disorder of aging characterized by a selective and progressive loss of dopaminergic neurons within the substantia nigra. The diagnosis of the disease is made when neuronal cell loss exceeds 50 p. cent indicating that the degenerative process started well before the onset of the first clinical symptoms. Three populations of dopaminergic neurons seem to coexist in the substantia nigra of parkinsonian patients; (1) senescent neurons that are still spared by the pathological process; (2) sick neurons exhibiting generally a preserved morphology but showing evidence of biochemical and metabolic abnormalities; (3) neurons which have entered into a final state of agony and exhibit the hallmarks of apoptosis, a controlled form of cell death that requires the activation of a particular type of proteases, caspases. In the inherited forms of the disease that are caused by mutations of genes encoding the Parkin, alpha-synuclein and UCHL-1 proteins, the degenerative process results from the dysfunction of an enzymatic complex of proteolysis, the proteasome. This probably leads to the intracellular accumulation of abnormal proteins that become deleterious for dopaminergic neurons. In the sporadic forms of the disease that are the most frequent, causes of the cell demise remain still unknown but neurodegeneration might also result from a decreased activity of the proteasome. A defect in the detoxification of reactive oxygen species or an energy failure caused by inhibition of the mitochondrial respiratory chain, at the complex I level, are other hypothesis that are frequently mentioned. Finally, activated glial cells (astrocytes and microglia) located around the degenerating dopaminergic neurons might also intervene in the mechanism of degeneration by perpetuating or even amplifying the primary neuronal insult. Proinflammatory cytokines acting on cell death membrane receptors and diffusable messengers such as nitric oxide could be part of this process.
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PMID:[Parkinson's disease: cell death mechanisms] 1269 Mar 12

Parkinson disease is a neurodegenerative disorder of aging characterized by a selective and progressive loss of dopaminergic neurons within the substantia nigra. The diagnosis of the disease is made when neuronal cell loss exceeds 50 p. 100 indicating that the degenerative process started well before the onset of the first clinical symptoms. Three populations of dopaminergic neurons seem to coexist in the substantia nigra of parkinsonian patients; (1) senescent neurons that are still spared by the pathological process; (2) sick neurons exhibiting generally a preserved morphology but showing evidence of biochemical and metabolic abnormalities; (3) neurons which have entered into a final state of agony and exhibit the hallmarks of apoptosis, a controlled form of cell death that requires the activation of a particular type of proteases, caspases. In the inherited forms of the disease that are caused by mutations of genes encoding the Parkin, alpha-synuclein and UCHL-1 proteins, the degenerative process results from the dysfunction of an enzymatic complex of proteolysis, the proteasome. This probably leads to the intracellular accumulation of abnormal proteins that become deleterious for dopaminergic neurons. In the sporadic forms of the disease that are the most frequent, causes of the cell demise remain still unknown but neurodegeneration might also result from a decreased activity of the proteasome. A defect in the detoxification of reactive oxygen species or an energy failure caused by inhibition of the mitochondrial respiratory chain, at the complex I level, are other hypothesis that are frequently mentioned. Finally, activated glial cells (astrocytes and microglia) located around the degenerating dopaminergic neurons might also intervene in the mechanism of degeneration by perpetuating or even amplifying the primary neuronal insult. Proinflammatory cytokines acting on cell death membrane receptors and diffusable messengers such as nitric oxide could be part of this process.
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PMID:[Parkinson disease: mechanisms of cell death]. 1269 Jun 61

Parkinson's disease (PD) is characterized by the loss of dopaminergic neurons in the substantia nigra and the formation of aggregates (Lewy bodies) in neurons. alpha-Synuclein is the major protein in Lewy bodies and rare mutations in alpha-synuclein cause early-onset PD. Consequently, alpha-synuclein is implicated in the pathogenesis of PD. Here, we have investigated the degradation pathways of alpha-synuclein, using a stable inducible PC12 cell model, where the expression of exogenous human wild-type, A30P, or A53T alpha-synuclein can be switched on and off. We have used a panel of inhibitors/stimulators of autophagy and proteasome function and followed alpha-synuclein degradation in these cells. We found that not only is alpha-synuclein degraded by the proteasome, but it is also degraded by autophagy. A role for autophagy was further supported by the presence of alpha-synuclein in organelles with the ultrastructural features of autophagic vesicles. Since rapamycin, a stimulator of autophagy, increased clearance of alpha-synuclein, it merits consideration as a potential therapeutic for Parkinsons disease, as it is designed for chronic use in humans.
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PMID:Alpha-Synuclein is degraded by both autophagy and the proteasome. 1271 33

The understanding of the molecular mechanisms underlying Parkinson's disease, progressive supranuclear palsy, and multiple system atrophy has made significant progress in the recent years. Lewy body appears to be principally made of alpha-synuclein, a presynaptic protein. It also contains ubiquitin and some components of the proteasome: this suggests that alteration of protein catabolism may be involved in its formation. In favor of this hypothesis, it should be noted that Parkin, a protein that is mutated in autosomal recessive Parkinson disease, is a ubiquitin ligase. Immunohistochemistry has shown that alpha-synuclein accumulates not only in the cell body of the neurones (Lewy body) but also in their processes (Lewy neurites); it has emphasized the severity of the pathology in the nucleus basalis of Meynert, amygdala, CA2-3 sector of the hippocampus and cerebral cortex. Cortical Lewy bodies are not considered any more the marker of dementia with Lewy bodies: they are, indeed, found in true Parkinson disease cases. In progressive supranuclear palsy, 4 repeats tau accumulates in the cytoplasm of neurones and glia. At electron microscopy, the accumulation is made of straight filaments. It involves not only the neurones (where it is the main constituent of the neurofibrillary tangles) but also the glia. Astrocytic tuft is to day considered the morphological marker of progressive supranuclear palsy. Tau protein accumulates in the cell body of the oligodendrocyte as a "coiled body"; the protein is also integrated in the myelin sheath, when the cytoplasm of the oligodendrocyte wraps around the axon. This explains the numerous "threads" that are visible in cases of progressive supranuclear palsy. Striato-nigral degeneration, sporadic olivo-ponto-cerebellar atrophy and primitive orthostatic hypotension are various clinico-pathologic aspects of the same disorder: multiple system atrophy. It is also characterized by a morphological marker: the accumulation of alpha-synuclein in the cytoplasm of glial cells, particularly oligodendrocytes. The term synucleinopathy has been proposed to describe both idiopathic Parkinson disease and multiple system atrophy. The reason explaining the cellular topography of alpha-synuclein accumulation, neuronal in Parkinson disease, glial in multiple system atrophy is still unknown.
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PMID:[Recent neuropathology of parkinsonian syndromes]. 1277 83

The identification of pathogenic mutations in the three genes alpha-synuclein, parkin, and ubiquitin carboxy-terminal hydrolase L1 (UCHL1) has elucidated the ubiquitin proteasome system (UPS) and its potential role as a causal pathway in Parkinson's disease (PD). In addition, polymorphisms of these three genes have been shown to be independently associated with PD. In a sample of 298 unrelated PD cases and 185 controls, we applied a two-phased approach of recursive partitioning and logistic regression analyses to explore complex interactions. For women only, we observed an epistatic interaction of UCHL1 and alpha-synuclein genotypes with significant effects on PD risk (odds ratio = 2.42; P = 0.003). Our findings are consistent with the hypothesis that PD is a multigenic disorder of the UPS.
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PMID:Complex interactions in Parkinson's disease: a two-phased approach. 1278 65

Parkinson's disease is characterized by the progressive and selective loss of the dopaminergic neurons in the substantia nigra and the presence of ubiquitinated protein inclusions termed Lewy bodies. In the past six years, four genes involved in rare inherited forms of Parkinson's disease have been identified: mutations in the alpha-synuclein and ubiquitin carboxyterminal hydrolase L1 genes (UCH-L1) cause autosomal dominant forms, whereas mutations in the Parkin and DJ-1 genes are responsible for autosomal recessive forms of the disease. A toxic gain of function related to the ability of alpha-synuclein to assemble into insoluble amyloid fibrils may underlie neuronal cell death in parkinsonism due to alpha-synuclein gene mutations. In contrast, loss of protein function appears to be the cause of the disease in parkinsonism due to mutations in the genes encoding Parkin and UCH-L1, which are key enzymes of the ubiquitin-proteasome pathway. The presence of alpha-synuclein, Parkin and UCH-L1 in Lewy bodies suggests that dysfunction of pathways involved in protein folding and degradation is not only involved in the pathogenesis of familial Parkinson's disease, but could also play a role in the frequent sporadic form of the disease (idiopathic Parkinson's disease).
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PMID:[Parkinson's disease: what have we learned from the genes responsible for familial forms?]. 1283 96

Lewy bodies are intracellular fibrillar inclusions composed of alpha-synuclein. They constitute the pathological hallmark of Parkinson's disease, dementia with Lewy bodies, and other neurodegenerative diseases. Although the majority of Lewy bodies are stained for ubiquitin by immunohistochemistry, the substrate for this modification is poorly understood. Insoluble, urea-soluble alpha-synuclein was separated from soluble fractions and subjected to two-dimensional gel electrophoresis to further characterize pathogenic alpha-synuclein species from disease brains. By using this approach, we found that in sporadic Lewy body diseases a highly modified, disease-associated 22-24-kDa alpha-synuclein species is ubiquitinated. Conjugation of one, two, and, to a lesser extent, three ubiquitins was detected. This 22-24-kDa alpha-synuclein species represents partly phosphorylated protein. Furthermore, no generalized impairment of the proteolytic activity of the proteasome was detected in brain regions with Lewy body pathology. Because unmodified alpha-synuclein is degraded by the proteasome in a ubiquitin-independent manner, these data suggest that accumulation of modified 22-24-kDa alpha-synuclein is a disease-specific event which may overwhelm the proteolytic system, leading to aberrant ubiquitination. Accordingly, carboxyl-terminal-truncated alpha-synuclein, presumably the result of aberrant proteolysis, is found only in association with alpha-synuclein aggregates.
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PMID:Ubiquitination of alpha-synuclein in Lewy bodies is a pathological event not associated with impairment of proteasome function. 1292 79

Parkinson's disease is a common neurodegenerative disorder characterized by loss of dopaminergic neurons and appearance of Lewy bodies, cytoplasmic inclusions that are highly enriched with ubiquitin. Synphilin-1, alpha-synuclein, and Parkin represent the major components of Lewy bodies and are involved in the pathogenesis of Parkinson's disease. Synphilin-1 is an alpha-synuclein-binding protein that is ubiquitinated by Parkin. Recently, a mutation in the synphilin-1 gene has been reported in patients with sporadic Parkinson's disease. Although synphilin-1 localizes close to synaptic vesicles, its function remains unknown. To investigate the proteins that interact with synphilin-1, the present study performed a yeast two-hybrid screening and identified a novel interacting protein, Siah-1 ubiquitin ligase. Synphilin-1 and Siah-1 proteins were endogenously expressed in the central nervous system and were found to coimmunoprecipitate each other in rat brain homogenate. Confocal microscopic analysis revealed colocalization of both proteins in cells. Siah-1 was found to interact with the N terminus of synphilin-1 through its substrate-binding domain and to specifically ubiquitinate synphilin-1 via its RING finger domain. Siah-1 facilitated synphilin-1 degradation via the ubiquitin-proteasome pathway more efficiently than Parkin. Siah-1 was found to not facilitate ubiquitination and degradation of wild type or mutant alpha-synuclein. Synphilin-1 inhibited high K+-induced dopamine release from PC12 cells. Siah-1 was found to abrogate the inhibitory effects of synphilin-1 on dopamine release. Such findings suggest that Siah-1 might play a role in regulation of synphilin-1 function.
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PMID:Siah-1 facilitates ubiquitination and degradation of synphilin-1. 1450 61

Intraneuronal inclusions containing ubiquitylated filamentous protein aggregates are a common feature of many of the major human neurodegenerative disorders, including Alzheimer's and Parkinson's disease. Loss of function mutations in enzymes of the ubiquitin conjugation/deconjugation pathway are sufficient to cause familial forms of neurodegenerative diseases, suggesting that failure of ubiquitin-mediated proteolysis could also be central to inclusion formation in the more common sporadic cases. Examination of ubiquitin-positive inclusions at the protein level provides evidence of attempted proteasomal proteolysis, however close inspection of the temporal aspects of inclusion formation indicates that ubiquitylation is probably a late event. In this regard, the presence of ubiquitin within inclusions of idiopathic neurodegenerative disorders may indicate not a primary dysfunction of ubiquitin-mediated proteolysis, but rather a secondary, presumably protective cellular response. Within this model, other factors are likely to be initiating in inclusion biogenesis. Consistent with these proposals, non-ubiquitylated forms of the principal ubiquitylated components of Alzheimer's disease neurofibrillary tangles and Parkinson's disease Lewy bodies, tau and alpha-synuclein proteins, respectively, can be degraded by proteasomes in a pathway which does not have an absolute requirement for ubiquitylation. Inhibition of proteasome function in the pathological state, as has been reported in both Alzheimer's and Parkinson's disease, could therefore contribute both to accumulation of non-ubiquitylated forms of aggregation-prone neuronal proteins, as well as impaired clearance of ubiquitylated aggregates.
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PMID:Role of ubiquitin-mediated proteolysis in the pathogenesis of neurodegenerative disorders. 1452 39


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