Lysine 117 on ataxin-3 modulates toxicity in Drosophila models of Spinocerebellar Ataxia Type 3

Abstract

Ataxin-3 (Atxn3) is a deubiquitinase with a polyglutamine (polyQ) repeat tract whose abnormal expansion causes the neurodegenerative disease, Spinocerebellar Ataxia Type 3 (SCA3; also known as Machado-Joseph Disease). The ubiquitin chain cleavage properties of Atxn3 are enhanced when the enzyme is itself ubiquitinated at lysine (K) at position 117: in vitro, K117-ubiqutinated Atxn3 cleaves poly-ubiquitin markedly more rapidly compared to its unmodified counterpart. How polyQ expansion causes SCA3 remains unclear. To gather insights into the biology of disease of SCA3, here we posited the question: is K117 important for toxicity caused by pathogenic Atxn3? To answer this question, we generated transgenic Drosophila lines that express full-length, human, pathogenic Atxn3 with 80 polyQ with an intact or mutated K117. We found that mutating K117 mildly enhances the toxicity and aggregation of pathogenic Atxn3. An additional transgenic line that expresses Atxn3 without any K residues confirms increased aggregation of pathogenic Atxn3 whose ubiquitination is perturbed. These findings suggest that Atxn3 ubiquitination is a regulatory step of SCA3, in part by modulating its aggregation.