Leptin Receptor, a Surface Marker for a Subset of Highly Engrafting Long-Term Functional Hematopoietic Stem Cells

Abstract

The entire hematopoietic system rests upon a group of very rare cells called hematopoietic stem cells (HSCs). Due to this extraordinarily crucial role, after birth HSCs are localized to the deep bone marrow niche, a hypoxic environment inside the bone where HSCs are under well-orchestrated regulation by both cellular and humoral factors. Among the cellular components regulating hematopoiesis are Leptin Receptor (LEPR)-expressing mesenchymal/stromal cells and adipocytes; both have been demonstrated to have significant influence on the maintenance of HSCs under homeostasis and in stress-related conditions. It has been reported in early work by others that HSCs and hematopoietic progenitor cells (HPCs) express LEPR. However, whether LEPR+ HSCs/HPCs are functionally different from other HSCs/HPCs was unknown. In this study, I demonstrated for the first time that murine LEPR+ Lineage-Sca-1+cKit+ (LSK, a heterogenous population consisting of HSCs/HPCs) cells even though constituting a small portion of total LSK cells are significantly enriched for both phenotypic and functional self-renewing long-term (LT) HSCs as shown in primary and secondary transplants in lethally irradiated recipients. LEPR+LSK cells are also more enriched for colony-forming progenitor cells assessed by colony-forming unit (CFU) assays. In addition, LEPR+ HSCs (defined as LSKCD150+CD48-) exhibited robust repopulating potential as compared to LEPR-HSCs in long-term competitive transplantation assays. To elucidate the molecular pathways that may govern functional properties of LEPR+HSCs, bulk RNA-seq on freshly sorted cells was done. Gene set enrichment analyses (GSEA) revealed Interferon Type I and Interferon γ (IFNγ) Pathways were significantly enriched in LEPR+HSCs while mitochondrial membrane protein gene set was significantly enriched in LEPR-HSCs. Interestingly, proinflammatory signaling including IFNγ pathway has been suggested to be critical for the emergence of embryonic HSCs from the hemogenic endothelium. Altogether, our work demonstrated that LEPR+HSCs represent a small subset of highly engrafting adult BM HSCs. These results may have potential therapeutic implications in the field of hematopoietic transplantation as LEPR is highly conserved between mice and humans.