References
Query Results -- Details
MGI Accession ID: MGI:3699700
J Number: J:118517
Other Accession IDs:
Title: alpha-Synuclein expression levels do not significantly affect proteasome function and expression in mice and stably transfected PC12 cell lines.
Authors: Martin-Clemente B; Alvarez-Castelao B; Mayo I; Sierra AB; Diaz V; Milan M; Farinas I; Gomez-Isla T; Ferrer I; Castano JG
Journal: J Biol Chem
Volume: 279
Issue: 51
Date: 2004 Dec 17
Year: 2004
Pages: 52984-90
Review Status: Peer Reviewed
Abstract:
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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