Abstract
Epigenetic control of cell fates is a critical determinant to maintain cell type stability and permit differentiation during embryonic development. However, the epigenetic control mechanisms are not well understood. Here, it is shown that the histone acetyltransferase reader protein BRD8 impairs the conversion of primed mouse EpiSCs (epiblast stem cells) to naive mouse ESCs (embryonic stem cells). BRD8 works by maintaining histone acetylation on promoters and transcribed gene bodies. BRD8 is responsible for maintaining open chromatin at somatic genes, and histone acetylation at naive-specific genes. When Brd8 expression is reduced, chromatin accessibility is unchanged at primed-specific genes, but histone acetylation is reduced. Conversely, naive-specific genes has reduced repressive chromatin marks and acquired accessible chromatin more rapidly during the cell type conversion. It is shown that this process requires active histone deacetylation to promote the conversion of primed to naive. This data supports a model for BRD8 reading histone acetylation to accurately localize the genome-wide binding of the histone acetyltransferase KAT5. Overall, this study shows how the reading of the histone acetylation state by BRD8 maintains cell type stability and both enables and impairs stem cell differentiation.
Published Version
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