Abstract

The polyglutamine diseases consist of nine neurodegenerative disorders including spinocerebellar ataxia type 17 that is caused by a polyglutamine tract expansion in the TATA box-binding protein. In all polyglutamine diseases, polyglutamine-expanded proteins are ubiquitously expressed throughout the body but cause selective neurodegeneration. Understanding the specific effects of polyglutamine-expanded proteins, when expressed at the endogenous levels, in neurons is important for unravelling the pathogenesis of polyglutamine diseases. However, addressing this important issue using mouse models that either overly or ubiquitously express mutant polyglutamine proteins in the brain and body has proved difficult. To investigate the pathogenesis of spinocerebellar ataxia 17, we generated a conditional knock-in mouse model that expresses one copy of the mutant TATA box-binding protein gene, which encodes a 105-glutamine repeat, selectively in neuronal cells at the endogenous level. Neuronal expression of mutant TATA box-binding protein causes age-dependent neurological symptoms in mice and the degeneration of cerebellar Purkinje cells. Mutant TATA box-binding protein binds more tightly to the transcription factor nuclear factor-Y, inhibits its association with the chaperone protein promoter, as well as the promoter activity and reduces the expression of the chaperones Hsp70, Hsp25 and HspA5, and their response to stress. These findings demonstrate how mutant TATA box-binding protein at the endogenous level affects neuronal function, with important implications for the pathogenesis and treatment of polyglutamine diseases.

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