Maintenance of ESLAM haematopoietic stem cells by tyrosine-unphosphorylated STAT5 and JAK inhibition

Adult haematopoietic stem cells (HSCs) are responsible for the lifelong production of blood and immune cells and must respond to extracellular cues including cytokines. The JAK/STAT pathway is a highly conserved pathway, activated by many cytokines, in which tyrosine-phosphorylated STATs (pSTATs) function as transcription factors. STAT5 is a pivotal downstream mediator of several cytokines known to regulate haematopoiesis but its function in the HSC compartment remains poorly understood. Here we show that STAT5-deficient HSCs exhibited an unusual phenotype - reduced multi-lineage repopulation and self-renewal combined with reduced cell cycle entry and increased differentiation. This reflected not only loss of a canonical pSTAT5 transcriptional program but also loss of distinct functions mediated by tyrosine-unphosphorylated STAT5 (uSTAT5). Consistent with this concept expression of an unphosphorylatable STAT5B mutant constrained HSC differentiation, promoted HSC maintenance and upregulated transcriptional programs associated with quiescence and stemness. Moreover, treatment with a JAK1/2 inhibitor (ruxolitinib) increased the uSTAT5:pSTAT5 ratio, constrained HSC differentiation and proliferation and promoted HSC maintenance, thus phenocopying uSTAT5B overexpression. Our results therefore reveal a previously unrecognized interplay between pSTAT5 and uSTAT5 in the control of HSC function. In addition the demonstration that JAK inhibition promotes HSC maintenance has implications for gene therapy using HSCs and may contribute to the failure of JAK inhibitors to eradicate myeloproliferative neoplasms. Bone Marrow resident ESLAM HSCs were sorted from WT and STAT5-deficient mice and submitted for plate based single cell RNA sequencing by Smartseq2