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: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteasomal dysfunction has been recently implicated in the pathogenesis of several neurodegenerative diseases, including Parkinson's disease and diffuse Lewy body disease. We have developed an in vitro model of proteasomal dysfunction by applying pharmacological inhibitors of the proteasome, lactacystin or ZIE[O-tBu]-A-leucinal (PSI), to dopaminergic PC12 cells. Proteasomal inhibition caused a dose-dependent increase in death of both naive and neuronally differentiated PC12 cells, which could be prevented by caspase inhibition or CPT-cAMP. A percentage of the surviving cells contained discrete cytoplasmic ubiquitinated inclusions, some of which also contained synuclein-1, the rat homologue of human alpha-synuclein. However the total level of synuclein-1 was not altered by proteasomal inhibition. The ubiquitinated inclusions were present only within surviving cells, and their number was increased if cell death was prevented. We have thus replicated, in this model system, the two cardinal pathological features of Lewy body diseases, neuronal death and the formation of cytoplasmic ubiquitinated inclusions. Our findings suggest that inclusion body formation and cell death may be dissociated from one another.
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PMID:Proteasomal inhibition leads to formation of ubiquitin/alpha-synuclein-immunoreactive inclusions in PC12 cells. 1152 Sep 10

Brain lesions containing filamentous and aggregated alpha-synuclein are hallmarks of neurodegenerative synucleinopathies. Oxidative stress has been implicated in the formation of these lesions. Using HEK 293 cells stably transfected with wild-type and mutant alpha-synuclein, we demonstrated that intracellular generation of nitrating agents results in the formation of alpha-synuclein aggregates. Cells were exposed simultaneously to nitric oxide- and superoxide-generating compounds, and the intracellular formation of peroxynitrite was demonstrated by monitoring the oxidation of dihydrorhodamine 123 and the nitration of alpha-synuclein. Light microscopy using antibodies against alpha-synuclein and electron microscopy revealed the presence of perinuclear aggregates under conditions in which peroxynitrite was generated but not when cells were exposed to nitric oxide- or superoxide-generating compounds separately. alpha-Synuclein aggregates were observed in 20-30% of cells expressing wild-type or A53T mutant alpha-synuclein and in 5% of cells expressing A30P mutant alpha-synuclein. No evidence of synuclein aggregation was observed in untransfected cells or cells expressing beta-synuclein. In contrast, selective inhibition of the proteasome resulted in the formation of aggregates detected with antibodies to ubiquitin in the majority of the untransfected cells and cells expressing alpha-synuclein. However, alpha-synuclein did not colocalize with these aggregates, indicating that inhibition of the proteasome does not promote alpha-synuclein aggregation. In addition, proteasome inhibition did not alter the steady-state levels of alpha-synuclein, but addition of the lysosomotropic agent ammonium chloride significantly increased the amount of alpha-synuclein, indicating that lysosomes are involved in degradation of alpha-synuclein. Our data indicate that nitrative and oxidative insult may initiate pathogenesis of alpha-synuclein aggregates.
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PMID:Induction of alpha-synuclein aggregation by intracellular nitrative insult. 1158 78

In the rat, the -synuclein gene is alternatively spliced and exists in three forms, rat synuclein 1 (rSYN1), synuclein 2 (rSYN2) and synuclein 3. rSYN2 cDNA encodes a 149 amino acid protein that is homologous to rSYN1 and human -synuclein for the first 100 amino acids, but is divergent for the 49 amino acid carboxy-terminal region. We demonstrate here that rSYN2 forms small aggregates throughout the cytoplasm when overexpressed in human H4 cells, whereas rSYN1 expression is diffuse. Inhibition of the proteasome promotes the formation of larger, cytoplasmic rSYN2 inclusions in transfected cells. Although a survey of the available databases suggests that there is no human splice form equivalent of rSYN2, thus arguing against a direct role in Lewy body formation and Parkinson's disease, these data nonetheless suggest that modifications of the carboxy-terminal region of -synuclein predispose it to inclusion formation.
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PMID:An alternatively spliced form of rodent alpha-synuclein forms intracellular inclusions in vitro: role of the carboxy-terminus in alpha-synuclein aggregation. 1195 24

Parkinson's disease is a neurodegenerative disorder characterized by the progressive degeneration of the dopaminergic nigrostriatal pathway, and the presence of Lewy bodies. Over the past few years, several genes involved in inherited forms of the disease have been uncovered. In a small number of families with autosomal dominant inheritance, mutations have been identified in the genes encoding a-synuclein and ubiquitin carboxy-terminal hydrolase L1. Mutations in the parkin gene are a common cause of autosomal recessive parkinsonism with early onset, and also account for more than 15% of isolated cases with onset before age 45. The function of Parkin, a ubiquitin ligase involved in the degradation of protein substrates by the ubiquitin-proteasome pathway, highlights that ubiquitin-mediated proteolysis may play an important role in the pathophysiology of idiopathic Parkinson's disease.
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PMID:[Parkin, alpha-synuclein and other molecular aspects of Parkinson's disease]. 1213 40

The Lewy body, an eosinophilic inclusion around 10 microns in diameter, is localised in the neuronal perikaryon. Its dense core is surrounded by a clear halo, which is lacking in the so-called "cortical Lewy bodies". Numerous proteins have been identified in Lewy bodies, among which the three neurofilament isoforms, ubiquitin and proteasome subunits. More recently, alpha-synuclein--a pre-synaptic protein--has been found to be the essential constituent of the Lewy body. Alpha-synuclein antibody has greatly increased the sensitivity of the neuropathological examination: it has emphasized the frequency of "Lewy neurites" (accumulation of alpha--synuclein in neuronal processes) and has shown the importance of extra-nigral pathology. Lewy bodies and neurites are indeed to be found in many areas of the central and peripheral nervous system: stellate ganglia, cardiac and enteric plexus, pigmented nuclei of the brainstem, basal nucleus of Meynert, amygdala, limbic nuclei of the thalamus, parahippocampal and cingulate gyri, insula and isocortex. Lewy body diseases include at least three clinical syndromes: 1) idiopathic Parkinson disease in which the brainstem bears the brunt of the pathology 2) Parkinson disease dementia in which Lewy lesions are found in the brainstem and are also abundant in the isocortex. A large number of senile plaques is frequently associated. 3) In dementia with Lewy bodies, the same lesions are observed but the cognitive deficit occurs first or shortly (less than one year) after the motor symptoms.
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PMID:[Lewy bodies, a misleading marker for Parkinson's disease?]. 1455 41

Dysfunction of the ubiquitin-proteasome system (UPS) has been implicated in Parkinson's disease (PD) and other neurodegenerative disorders. We have investigated the effect of UPS inhibition on the metabolism of alpha-synuclein (SYN) and parkin, two proteins genetically and histopathologically associated to PD. Pharmacological inhibition of proteasome induced accumulation of both parkin and SYN in transfected PC12 cells. We found that this effect was caused by increased protein synthesis rather than impairment of protein degradation, suggesting that inhibition of the UPS might lead to non-specific up-regulation of cytomegalovirus (CMV)-driven transcription. To investigate whether endogenous parkin and SYN can be substrate of the UPS, untransfected PC12 cells and primary mesencephalic neurones were exposed to proteasome inhibitors, and parkin and SYN expression was evaluated at both protein and mRNA level. Under these conditions, we found that proteasome inhibitors did not affect the level of endogenous parkin and SYN. However, we confirmed that dopaminergic neurones were selectively vulnerable to the toxicity of proteasome inhibitors. Our results indicate that studies involving the use of proteasome inhibitors, particularly those in which proteins are expressed from a heterologous promoter, are subjected to potential artefacts that need to be considered for the interpretation of the role of UPS in PD pathogenesis.
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PMID:Proteasome inhibition and aggregation in Parkinson's disease: a comparative study in untransfected and transfected cells. 1472 Feb 4

Accumulation of ubiquitinated proteins in inclusions is common to various neurodegenerative disorders such as Parkinson's disease, Alzheimer's disease and amyotrophic lateral sclerosis, although it occurs in selective neurons in each disease. The mechanisms generating such abnormal aggregates and their role in neurodegeneration remain unclear. Inclusions appear in familial and non-familial cases of neurodegenerative disorders, suggesting that factors other than particular mutations contribute to protein accumulation and aggregation. Proteasome impairment triggered by aging or conditions such as oxidative stress may contribute to protein accumulation and aggregation in neurodegeneration. To test this hypothesis in mouse neuronal cells, we overexpressed a 20S proteasome beta5 subunit with an active site mutation. The N-terminal threonine to alanine substitution resulted in impairment of the chymotrypsin-like activity, which is a rate-limiting step in protein degradation by the proteasome. The Thr1Ala mutation was not lethal under homeostatic conditions. However, this single amino acid substitution significantly hypersensitized the cells to oxidative stress, triggering not only the accumulation and aggregation of ubiquitinated proteins, including synuclein, but also cell death. Our results demonstrate that this genetic manipulation of proteasome activity involving a single amino acid substitution causes the formation of protein aggregates in stressed neuronal cells independently of the occurrence of mutations in other cellular proteins. These results support the notion that proteasome disruption may be central to the development of familial as well as sporadic cases of neurodegeneration.
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PMID:A single amino acid substitution in a proteasome subunit triggers aggregation of ubiquitinated proteins in stressed neuronal cells. 1519 63

alpha-Synuclein (alpha-syn) is a small protein of unknown function that is found aggregated in Lewy bodies, the histopathological hallmark of sporadic Parkinson disease and other synucleinopathies. Mutations in the alpha-syn gene and a triplication of its gene locus have been identified in early onset familial Parkinson disease. alpha-Syn turnover can be mediated by the proteasome pathway. A survey of published data may lead to the suggestion that overexpression of alpha-syn wild type, and/or their variants (A53T and A30P), may produce a decrease in proteasome activity and function, contributing to alpha-syn aggregation. To investigate the relationship between synuclein expression and proteasome function we have studied proteasome peptidase activities and proteasome subunit expression (alpha, beta-constitutive, and inducible) in mice either lacking alpha-syn (knock-out mice) or transgenic for human alpha-syn A30P (under control of PrP promoter, at a time when no clear gliosis can be observed). Similar studies are presented in PC12 cells overexpressing enhanced yellow fluorescent protein fusion constructs of human wild type, A30P, and A53T alpha-syn. In these cell lines we have also analyzed the assembly of 20 S proteasome complex and the degradation rate of a well known substrate of the proteasome pathway, Ikappabalpha. Overall the data obtained led us to the conclusion that alpha-synuclein expression levels by themselves have no significant effect on proteasome peptidase activity, subunit expression, and proteasome complex assembly and function. These results strengthen the suggestion that other mechanisms resulting in synuclein aggregation (not simply expression levels) may be the key to understand the possible effect of aggregated synuclein on proteasome function.
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PMID:alpha-Synuclein expression levels do not significantly affect proteasome function and expression in mice and stably transfected PC12 cell lines. 2712 95

The accumulation of aggregated alpha-synuclein is thought to contribute to the pathogenesis of Parkinson's disease. Recent studies indicate that aggregated alpha-synuclein binds to S6', a component of the 19 S subunit in the 26 S proteasome and inhibits 26 S proteasomal degradation, both ubiquitin-independent and ubiquitin-dependent. The IC(50) of aggregated alpha-synuclein for inhibition of the 26 S ubiquitin-independent proteasomal activity is approximately 1 nm. alpha-Synuclein has two close homologues, termed beta-synuclein and gamma-synuclein. In the present study we compared the effects of the three synuclein homologues on proteasomal activity. The proteasome exists as a 26 S and a 20 S species, with the 26 S proteasome containing the 20 S core and 19 S cap. Monomeric alpha- and beta-synucleins inhibited the 20 S and 26 S proteasomal activities only weakly, but monomeric gamma-synuclein strongly inhibited ubiquitin-independent proteolysis. The IC(50) of monomeric gamma-synuclein for the 20 S proteolysis was 400 nm. In monomeric form, none of the three synuclein proteins inhibited 26 S ubiquitin-dependent proteasomal activity. Although beta-synuclein had no direct effect on proteasomal activity, co-incubating monomeric beta-synuclein with aggregated alpha-synuclein antagonized the inhibition of the 26 S ubiquitin-independent proteasome by aggregated alpha-synuclein when added before the aggregated alpha-synuclein. Co-incubating beta-synuclein with gamma-synuclein had no effect on the inhibition of the 20 S proteasome by monomeric gamma-synuclein. Immunoprecipitation and pull-down experiments suggested that antagonism by beta-synuclein resulted from binding to alpha-synuclein rather than binding to S6'. Pull-down experiments demonstrated that recombinant monomeric beta-synuclein does not interact with the proteasomal subunit S6', unlike alpha-synuclein, but beta-synuclein does bind alpha-synuclein and competes with S6' for binding to alpha-synuclein. Based on these data, we hypothesize that the alpha- and gamma-synucleins regulate proteasomal function and that beta-synuclein acts as a negative regulator of alpha-synuclein.
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PMID:beta-Synuclein reduces proteasomal inhibition by alpha-synuclein but not gamma-synuclein. 1559 Oct 46

Parkinson's disease (PD) is the second most common neurodegenerative disorder in the world. The occurrence of PD is largely sporadic, while several families with Mendelian segregation of PD have been reported. PD is thought to be caused by mitochondrial dysfunction, oxidative stress and inflammation based on multiple genetic and environmental factors, resulting in the apoptosis of dopaminergic cells. Six causal genes for Mendelian inherited PD have been identified to date, which indicate the importance of the ubiquitin-proteasome pathway in the molecular pathogenesis of dopaminergic cell death. Recent studies have also indicated the involvement of genetic factors in the pathogenesis of sporadic PD. Many association studies on candidate genes have examined the relationship between PD and polymorphisms; We identified a-synuclein as a definite susceptibility gene for sporadic PD. Since 2001, significant linkage to several loci have been reported in samples of affected sibling pairs. With the recent advances in human genome analyses, genome-wide association studies by SNP chip are being performed to identify susceptibility genes and to establish tailor-made medicine for PD.
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PMID:[Molecular genetics of Parkinson's disease]. 1771 17


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