Identification of a key residue in the cellular transcription factor BCL11b important for its global acetylation and its nuclear localization
Vreux, L.; Vanhulle, C.; Galais, M.; Fauquenoy, S.; Plant, E.; Loustau, T.; Bellefroid, M.; Robette, G.; Bendoumou, M.; Santangelo, M.; Martinelli, V.; Schwartz, C.; Wattiez, R.; Communi, D.; Rohr, O.; Van Lint, C.
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AO_SCPLOWBSTRACTC_SCPLOWThe cellular transcription factor BCL11b (B-cell CLL/lymphoma 11b) interacts with numerous cellular and viral factors to modulate gene expression positively or negatively. Post-translational modifications of BCL11b, such as SUMOylation and phosphorylation, have been documented to switch its transcriptional activity from a repressor to an activator state. In the present study, we investigated the acetylation of BCL11b and we identified the histone acetyltransferase p300 as able to acetylate BCL11b. Subsequently, we observed that the mutation of the lysine K686 residue of BCL11b (BCL11b K686R) influenced its global acetylation. Furthermore, the BCL11b K686R mutation also modulated the transcriptional regulation of BCL11b, including its activity in regulating the p21 and IL-2 promoters. This effect on transcriptional regulation was due to the importance of the lysine K686 residue for BCL11b nuclear localization. Our results underscore the critical role of the lysine K686 residue in BCL11b for its interaction with p300 and its nuclear localization, suggesting a possible function of p300 in the nuclear transport of BCL11b. Collectively, our findings contribute to a better understanding of BCL11b-mediated gene expression and of the interactions of BCL11b with cellular partners.
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