Bclaf1 Promotes Maintenance And Self-Renewal Of Fetal Hematopoietic Stem Cells

Hematopoietic stem cells (HSC) persist throughout life by undergoing extensive self-renewal divisions while maintaining an undifferentiated state. The mechanisms that support HSC self-renewal change throughout the course of development as temporal changes in transcriptional regulators coordinate distinct genetic programs in fetal, post-natal and adult HSCs. These self-renewal programs are often ectopically activated in leukemia cells to drive neoplastic proliferation and high expression of HSC-associated genes predicts a poor prognosis in acute myelogenous leukemia (AML). In this regard, it was recently shown that expression of the transcriptional regulator BCLAF1 (Bcl2 associated transcription factor 1) is increased in AML blasts relative to normal precursor populations and suppression of BCLAF1 causes reduced proliferation and induction of differentiation to a dendritic cell fate. These findings raise the question of whether BCLAF1 may regulate normal as well as neoplastic self-renewal programs.