Novel differential calcium regulation of hematopoietic stem and progenitor cells under physiological low oxygen conditions

Low oxygen bone marrow (BM) niches (~1%-4% low O₂ ) provide critical signals for hematopoietic stem/progenitor cells (HSC/HSPCs). Our presented data are the first to investigate live, sorted HSC/HSPCs in their native low O₂ conditions. Transcriptional and proteomic analysis uncovered differential Ca²⁺ regulation that correlated with overlapping phenotypic populations consisting of robust increases of cytosolic and mitochondrial Ca²⁺ , ABC transporter (ABCG2) expression and sodium/hydrogen exchanger (NHE1) expression in live, HSC/HSPCs remaining in constant low O_2. We identified a novel Ca²⁺ high population in HSPCs predominantly detected in low O₂ that displayed enhanced frequency of phenotypic LSK/LSKCD150 in low O₂ replating assays compared to Ca²⁺ low populations. Inhibition of the Ca²⁺ regulator NHE1 (Cariporide) resulted in attenuation of both the low O₂ induced Ca²⁺ high population and subsequent enhanced maintenance of phenotypic LSK and LSKCD150 during low O₂ replating. These data reveal multiple levels of differential Ca²⁺ regulation in low O₂ resulting in phenotypic, signaling, and functional consequences in HSC/HSPCs.