Interaction of expanded polyglutamine stretches with nuclear transcription factors leads to aberrant transcriptional regulation in polyglutamine diseases.

At least eight inherited neurodegenerative diseases are known to be caused by expanded CAG repeats encoding polyglutamine (polyQ) stretches. Although cytotoxicities of expanded polyQ stretches have been suggested, the molecular mechanisms of neurodegeneration remain unclear. The nuclear translocation of mutant proteins containing expanded polyQ stretches has been demonstrated as a prerequisite for the expression of their cytotoxicity. Hypothesizing that nuclear proteins that interact with mutant proteins, particularly, those that bind to the expanded polyQ stretches, are involved in the pathogenetic mechanisms underlying neurodegeneration, nuclear proteins were screened for their capability of binding to expanded polyQ stretches. It was found that expanded polyQ stretches preferentially bind to TAF(II)130, a coactivator involved in cAMP-responsive element-binding protein (CREB)-dependent transcriptional activation. The binding of TAF(II)130 with expanded polyQ stretches strongly suppresses CREB-dependent transcriptional activation, suggesting that interference with transcription due to the binding of expanded polyQ stretches with TAF(II)130 and redistribution of TAF(II)130 are involved in the pathogenetic mechanisms underlying neurodegeneration.