Abstract
O‐GlcNAcylation is a dynamic posttranslational modification tightly correlated to the concentration of UDP‐GlcNAc, the end product of the hexosamine biosynthetic pathway (HBP), which varies according nutritional factors. Through HBP activity and production of UDP‐GlcNAc, OGT senses nutrient availability and forward the signal to downstream effectors by transferring a GlcNAc moiety to the targeted proteins. In return, the O‐GlcNAcase resets the signal. Interestingly, literature points out a regulation of the basal transcription machinery by O‐GlcNAc. TATA‐box binding protein (TBP) is a key player in regulating transcription since it is required for the activity of all three RNA polymerases. DNA‐bound TBP acts as a dock for recruitment of basal transcription factors and the RNA polymerase II to formation of a functional pre‐initiation complex (PIC). DNA‐bound TBP can also be recognized by NC2 and BTAF1. NC2 stabilizes the chromatin interaction of TBP, whereas the association of TBP with BTAF1 promotes its release. Here, we showed that TBP is O‐GlcNAcylated on its N‐terminus domain at T114, T126 and S158. O‐GlcNAcylated TBP is bound to DNA and the sugar inhibits the interaction with BTAF1. TBP site‐specific O‐GlcNAc mutants have been used to point out the T114 as the main regulator of its interaction. Using STZ‐treated rat models, we showed that TBP/BTAF1 association is decreased in diabetes. Owing to the fact that BTAF1 dynamically regulates the chromatin interaction of TBP, we investigated the dynamic behavior of TBP and TBP O‐GlcNAc by Strip‐FRAP and ChIP assays. Collectively, our results indicate that O‐GlcNAcylation of TBP at T114 regulates TBP/BTAF1 dynamics on gene promoters.
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