Abstract
The accumulation of intracellular protein deposits as inclusion bodies is the common pathological hallmark of most age-related neurodegenerative disorders including polyglutamine diseases. Appearance of aggregates of the misfolded mutant disease proteins suggest that cells are unable to efficiently degrade them, and failure of clearance leads to the severe disturbances of the cellular quality control system. Recently, the quality control ubiquitin ligase CHIP has been shown to suppress the polyglutamine protein aggregation and toxicity. Here we have identified another ubiquitin ligase, called E6-AP, which is able to promote the proteasomal degradation of misfolded polyglutamine proteins and suppress the polyglutamine protein aggregation and polyglutamine protein-induced cell death. E6-AP interacts with the soluble misfolded polyglutamine protein and associates with their aggregates in both cellular and transgenic mouse models. Partial knockdown of E6-AP enhances the rate of aggregate formation and cell death mediated by the polyglutamine protein. Finally, we have demonstrated the up-regulation of E6-AP in the expanded polyglutamine protein-expressing cells as well as cells exposed to proteasomal stress. These findings suggest that E6-AP is a critical mediator of the neuronal response to misfolded polyglutamine proteins and represents a potential therapeutic target in the polyglutamine diseases.
Highlights
The polyglutamine diseases are a group of inherited neurodegenerative disorders caused by an aberrant expansion of CAG repeats in the causative genes
The mRNA Level of E6-AP Is Dramatically Increased in the Expanded Polyglutamine Protein-expressing Cells—An earlier study had shown that SCA1 transgenic mice, deficient in E6-AP, demonstrated accelerated SCA1 pathology and reduced aggregate formation [22]
We began to explore the possible role of E6-AP on polyglutamine disease pathogenesis using cellular and transgenic mouse models of Huntington disease (HD)
Summary
The polyglutamine diseases are a group of inherited neurodegenerative disorders caused by an aberrant expansion of CAG repeats in the causative genes. E6-AP interacts with the soluble misfolded polyglutamine protein and associates with their aggregates in both cellular and transgenic mouse models. The appearance of aggregates of the misfolded expanded polyglutamine proteins indicates that cells are unable to efficiently degrade them, which eventually overwhelms the cellular quality control system [12,13,14].
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