T:G Mismatch-specific Thymine-DNA Glycosylase Potentiates Transcription of Estrogen-regulated Genes through Direct Interaction with Estrogen Receptor Î

Nuclear receptors (NR) classically regulate gene expression by stimulating transcription upon binding to their cognate ligands. It is now well established that NR-mediated transcriptional activation requires the recruitment of coregulator complexes, which facilitate recruitment of the basal transcri...

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Bibliographic Details
Published in:The Journal of biological chemistry 2003-10, Vol.278 (40), p.38586
Main Authors: Dongsheng Chen, Marie J. Lucey, Fladia Phoenix, Jorge Lopez-Garcia, Stephen M. Hart, Régine Losson, Lakjaya Buluwela, R. Charles Coombes, Pierre Chambon, Primo Schär, Simak Ali
Format: Article
Language:English
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Summary:Nuclear receptors (NR) classically regulate gene expression by stimulating transcription upon binding to their cognate ligands. It is now well established that NR-mediated transcriptional activation requires the recruitment of coregulator complexes, which facilitate recruitment of the basal transcription machinery through direct interactions with the basal transcription machinery and/or through chromatin remodeling. However, a number of recently described NR coactivators have been implicated in cross-talk with other nuclear processes including RNA splicing and DNA repair. T:G mismatch-specific thymine DNA glycosylase (TDG) is required for base excision repair of deaminated methylcytosine. Here we show that TDG is a coactivator for estrogen receptor α (ERα). We demonstrate that TDG interacts with ERα in vitro and in vivo and suggest a separate role for TDG to its established role in DNA repair. We show that this involves helix 12 of ERα. The region of interaction in TDG is mapped to a putative α-helical motif containing a motif distinct from but similar to the L XX LL motif that mediates interaction with NR. Together with recent reports linking TFIIH in regulating NR function, our findings provide new data to further support an important link between DNA repair proteins and nuclear receptor function.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M304286200