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Targeting the VCP-binding motif of ataxin-3 improves phenotypes in Drosophila models of Spinocerebellar Ataxia Type 3

Sean L. Johnson, Kozeta Libohova, Jessica R. Blount, Alyson Sujkowski, Matthew V. Prifti, Wei‐Ling Tsou, Sokol V. Todi

2021Neurobiology of Disease13 citationsDOIOpen Access PDF

Abstract

Of the family of polyglutamine (polyQ) neurodegenerative diseases, Spinocerebellar Ataxia Type 3 (SCA3) is the most common. Like other polyQ diseases, SCA3 stems from abnormal expansions in the CAG triplet repeat of its disease gene resulting in elongated polyQ repeats within its protein, ataxin-3. Various ataxin-3 protein domains contribute to its toxicity, including the valosin-containing protein (VCP)-binding motif (VBM). We previously reported that VCP, a homo-hexameric protein, enhances pathogenic ataxin-3 aggregation and exacerbates its toxicity. These findings led us to explore the impact of targeting the SCA3 protein by utilizing a decoy protein comprising the N-terminus of VCP (N-VCP) that binds ataxin-3's VBM. The notion was that N-VCP would reduce binding of ataxin-3 to VCP, decreasing its aggregation and toxicity. We found that expression of N-VCP in Drosophila melanogaster models of SCA3 ameliorated various phenotypes, coincident with reduced ataxin-3 aggregation. This protective effect was specific to pathogenic ataxin-3 and depended on its VBM. Increasing the amount of N-VCP resulted in further phenotype improvement. Our work highlights the protective potential of targeting the VCP-ataxin-3 interaction in SCA3, a key finding in the search for therapeutic opportunities for this incurable disorder.

Topics & Concepts

Spinocerebellar ataxiaPhenotypeNeurodegenerationMachado–Joseph diseaseAtaxiaBiologyProtein aggregationCell biologyDrosophila melanogasterGeneticsChemistryGeneNeuroscienceMedicineDiseasePathologyGenetic Neurodegenerative DiseasesMitochondrial Function and PathologyUbiquitin and proteasome pathways
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