A Novel XACT lncRNA Transcript with Functions Transcending X-Chromosome Inactivation

X-chromosome inactivation (XCI) is initiated during early mammalian embryogenesis by a long non-coding RNA (lncRNA) XIST , which coats one of the two X-chromosomes and facilitates epigenetic transcriptional silencing. A second, evolutionarily recent primate-specific lncRNA XACT was proposed to antagonize XIST ’s ability to induce XCI. XACT expression is restricted to pluripotent states and early embryonic stages and coats the active X-chromosome in both females and males. Here, we report a novel XACT transcript expressed in normal and cancerous somatic cells from both the inactive (Xi) and active (Xa) X chromosomes. It coexists with XIST on the Xi without affecting XIST expression or (re)activating X-linked genes inactivated by XCI. During hematopoietic stem cell (HSC) differentiation, XACT is primarily expressed in myeloid progenitors in both sexes. XACT expression is activated in HSCs and peaks in megakaryocyte-erythrocyte progenitor cells (MEPs) before rapidly declining as the MEPs differentiate into megakaryocytes or erythrocytes. By combining CRISPR-based XACT perturbation with epigenomic and transcriptional studies, we revealed the key role of XACT in the self-renewal and differentiation of erythroid progenitors into erythrocytes, by recruiting cis-regulatory proteins and regulating transcription through ETS and AP-1 transcription factors. Furthermore, XACT is expressed in a subset of acute myeloid leukemia (AML) patients, with high levels found in erythroid-megakaryocytic blast cells; suggesting XACT ’s potential as a marker for AML subtypes. Thus, we identified a novel XACT transcript with a unique expression profile and important roles in normal and cancer cells, revealing XACT lncRNA functions beyond its previously proposed role in XCI during embryogenesis.