Integrative transcriptomic analysis of developing hematopoietic stem cells in human and mouse at single-cell resolution.

Current understanding of hematopoietic stem cell (HSC) development comes from mouse models is considered to be evolutionarily conserved in human. However, the cross-species comparison of the transcriptomic profiles of developmental HSCs at single-cell level is still lacking. Here, we performed integrative transcriptomic analysis of a series of key cell populations during HSC development in human and mouse, including HSC-primed hemogenic endothelial cells and pre-HSCs in mid-gestational aorta-gonad-mesonephros (AGM) region, and mature HSCs in fetal liver and adult bone marrow. We demonstrated the general similarity of transcriptomic characteristics between corresponding cell populations of the two species. Of note, one of the previously transcriptomically defined hematopoietic stem progenitor cell (HSPC) populations with certain arterial characteristics in AGM region of human embryos showed close transcriptomic similarity to pre-HSCs in mouse embryos. On the other hand, the other two HSPC populations in human AGM region displayed molecular similarity with fetal liver HSPCs, suggesting the maturation in AGM before HSCs colonizing the fetal liver in human, which was different to that in mouse. Finally, we re-clustered cells based on the integrated dataset and illustrated the evolutionarily conserved molecular signatures of major cell populations. Our results revealed transcriptomic conservation of critical cell populations and molecular characteristics during HSC development between human and mouse, providing a resource and theoretic basis for future studies on mammalian HSC development and regeneration by using mouse models.