Hematopoietic stem cells (HSCs) have been transplanted for treating malignant blood disorders after radiotherapy and chemotherapy because of their capability to differentiate into any type of specialized blood cells. The knowledge regarding the engraftment of HSCs into the bone marrow (BM) and their development is beneficial to improve transplantation efficiency.

To investigate the initial entry of HSCs into the fetal BM, the researchers combined single cell RNA sequencing, artery-specific genetic mouse models, fluorescence activated cell sorting, imaging and transplantation experiments.

They uncovered that the fetal BM microenvironment was fundamentally different from its adult counterpart in the aspects of cell types, gene expressions and cell-cell crosstalk, and that the majority of HSCs and other hematopoietic stem/progenitor cells (HSPCs) stayed closely with the BM artery at embryonic day 16.5 of mice development, suggesting that artery-derived paracrine signal regulated the status of HSCs and HSPCs.

Furthermore, the researchers detected that a genetic blockade of Wnt secretion from the artery prevented the expansion of HSPCs, and conversely, treatment of HSPCs with Wnt2 promoted their proliferation, colony formation ability and transplantation.  

This work provides new knowledge about mechanisms regulating initial HSCs’ colonization in the fetal BM. It may shed light on boosting HSPCs’ ability of colonization after transplantation with the analysis of fetal artery derived signal.