Abstract
TATA-binding protein (TBP) is essential for eukaryotic gene transcription. Human TBP contains a polymorphic polyglutamine (polyQ) domain in its N terminus and a DNA-binding domain in its highly conserved C terminus. Expansion of the polyQ domain to >42 glutamines typically results in spinocerebellar ataxia type 17 (SCA17), a neurodegenerative disorder that resembles Huntington disease. Our recent studies have demonstrated that polyQ expansion causes abnormal interaction of TBP with the general transcription factor TFIIB and induces neurodegeneration in transgenic SCA17 mice (Friedman, M. J., Shah, A. G., Fang, Z. H., Ward, E. G., Warren, S. T., Li, S., and Li, X. J. (2007) Nat. Neurosci. 10, 1519-1528). However, it remains unknown how polyQ expansion influences DNA binding by TBP. Here we report that polyQ expansion reduces in vitro binding of TBP to DNA and that mutant TBP fragments lacking an intact C-terminal DNA-binding domain are present in transgenic SCA17 mouse brains. polyQ-expanded TBP with a deletion spanning part of the DNA-binding domain does not bind DNA in vitro but forms nuclear aggregates and inhibits TATA-dependent transcription activity in cultured cells. When this TBP double mutant is expressed in transgenic mice, it forms nuclear inclusions in neurons and causes early death. These findings suggest that the polyQ tract affects the binding of TBP to promoter DNA and that polyQ-expanded TBP can induce neuronal toxicity independent of its interaction with DNA.
Highlights
Sion of most eukaryotic genes [1, 2]
We found that polyQ expansion enhances the interaction of TATA-binding protein (TBP) with TFIIB and reduces the expression of HSPB1, which is important for neuritic integrity and neuronal survival [24]
We demonstrate that polyQ expansion reduces in vitro binding of TBP to TATA box DNA
Summary
Sion of most eukaryotic genes [1, 2]. Recruitment of the TBPcontaining TFIID complex to the TATA box, the AT-rich cognate DNA-binding sequence for TBP that is generally positioned 28 –34 nucleotides upstream of the transcription start site [3], is an initial and crucial step in the formation of the preinitiation complex at the promoters of some protein-encoding genes transcribed by RNAP II [3, 4]. We show that N-terminal TBP fragments, which harbor the expanded polyQ tract but lack an intact C-terminal DNA-binding domain, are present in transgenic SCA17 mouse brains. PolyQ-expanded TBP that is incapable of binding DNA formed nuclear inclusions and caused a severe neurological phenotype in transgenic mice.
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