The epigenetic eraser LSD1 lies at the apex of a reversible erythroid to myeloid cell fate decision

Abstract

AbstractH3K4Me demethylase KDM1a/LSD1 is a therapeutic target for multiple diseases, including the β-globinopathies (sickle cell disease and β-thalassemia) since its inactivation has been shown to lead to robust induction of the fetal globin genes. Here we examined the consequences of conditional inactivation of Lsd1 in adult red blood cells using a new Gata1creERT2 BAC transgene. Loss of Lsd1 activity in mice blocked erythroid differentiation and expanded GMP-like cells, converting hematopoietic differentiation potential from an erythroid to a myeloid fate. The analogous phenotype was also observed in human HSPC, coincident with induction of myeloid transcription factors (e.g. PU.1 and CEBPα). Finally, blocking the activity of myeloid transcription factors PU.1 or RUNX1 at the same time as LSD1 reverted myeloid lineage conversion to an erythroid phenotype. The data show that LSD1 promotes erythropoiesis by repressing myeloid cell fate, and that inhibition of myeloid differentiation reverses the lineage switch caused by LSD1 inactivation.