Polyglutamine diseases: The special case of ataxin-3 and Machado–Joseph disease

Polyglutamine (polyQ) diseases are a group of nine neurodegenerative disorders caused by an unstable CAG expansion in the codifying region of their respective associated genes. However, each polyQ disease displays a different symptomatic and pathoanatomic profile and the proteins involved share no homology outside the polyQ tract. This suggests that the other regions of the proteins and the cellular functions they mediate are important in defining disease progression and specificity. Machado–Joseph disease (MJD), the most common form of spinocerebellar ataxia worldwide, is a progressive and ultimately fatal neurodegenerative disorder caused by polyQ expansion in ataxin-3 (atx3), a conserved and ubiquitous protein known to bind polyubiquitin chains and to function as a deubiquitinating enzyme. Atx3 has been linked to protein homeostasis maintenance, transcription, cytoskeleton regulation and myogenesis, but its precise biologic function remains a mystery, limiting the understanding of the mechanisms by which the mutated protein leads to the selective neuronal death profile observed in MJD patients. A number of recent evidence support the idea that the toxic entities behind neuronal demise may be either the dysfunctional expanded atx3 or the soluble amyloid-like oligomers formed by self-assembly of the aggregation-prone mutated protein. Expanded atx3 pathogenicity is likely the result of a series of events implicating both atx3 dysfunction and aggregation, possibly involving both full-length atx3 and polyQ-containing fragments that may act as seeds for protein aggregation. A deeper understanding of polyQ protein biology, the way the expansion alters their features, and the consequences of these changes for cell functioning and survival are sure to be of critical importance for developing future treatment of polyQ diseases.

► PolyQ expansion diseases have common traits but are caused by unrelated proteins. ► PolyQ expansion in ataxin-3 causes Machado–Joseph disease (MJD). ► Ataxin-3 binds polyubiquitin chains and functions as a deubiquitinating enzyme. ► Ataxin-3 is linked to protein homeostasis and transcription regulation. ► In MJD as in other polyQ diseases soluble oligomers of expanded protein are toxic.