The vasculature is an essential organ for the delivery of blood and oxygen to all tissues of the body and thus relevant to the treatment of ischemic heart disease. The ETS-related transcription factor 2 (ETV2) is a transcription factor that is both necessary and sufficient for the development of endothelial and blood lineages. However, the molecular mechanism by which ETV2 promotes endothelial and blood development is not known and warrants further investigation. Here, we report that ETV2 functions as a novel pioneer transcription factor that relaxes closed chromatin and regulates endothelial development. Pioneer factors are a subset of transcription factors that bind closed chromatin and promote chromatin relaxation in order to drive the development and reprogramming of cell lineages. By comparing embryonic stem cell differentiation and fibroblast reprogramming models with single cell RNA-seq, ATAC-seq, ChIP-seq and in-vitro nucleosomal binding techniques, we demonstrated that ETV2 was able to bind nucleosomal DNA and function as a pioneer factor independent of the cellular context. We also determined that ETV2 executed a pioneering role by recruiting and directly interacting with the ATP-dependent chromatin remodeling enzyme BRG1 to remodel chromatin around endothelial genes to help maintain an open configuration, resulting in increased H3K27ac deposition. Collectively, these results that define a novel pioneer factor and epigenetic regulatory pathways that govern the specification and differentiation of endothelial progenitor cells, will serve as a platform for targeted therapies to promote cardiovascular regeneration.
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