Arteriolar niches maintain haematopoietic stem cell quiescence

Cell cycle quiescence is a critical feature contributing to haematopoietic stem cell (HSC) maintenance. Although various candidate stromal cells have been identified as potential HSC niches, the spatial localization of quiescent HSCs in the bone marrow remains unclear. Here, using a novel approach that combines whole-mount confocal immunofluorescence imaging techniques and computational modelling to analyse significant three-dimensional associations in the mouse bone marrow among vascular structures, stromal cells and HSCs, we show that quiescent HSCs associate specifically with small arterioles that are preferentially found in endosteal bone marrow. These arterioles are ensheathed exclusively by rare NG2 (also known as CSPG4) + pericytes, distinct from sinusoid-associated leptin receptor (LEPR) + cells. Pharmacological or genetic activation of the HSC cell cycle alters the distribution of HSCs from NG2 + periarteriolar niches to LEPR + perisinusoidal niches. Conditional depletion of NG2 + cells induces HSC cycling and reduces functional long-term repopulating HSCs in the bone marrow. These results thus indicate that arteriolar niches are indispensable for maintaining HSC quiescence. Immunofluorescence imaging and computational modelling are used to study the spatial distribution of different cell types within the haematopoietic stem cell (HSC) niche; findings show that quiescent HSCs associate specifically with small arterioles that are preferentially found in the endosteal bone marrow and are essential in maintaining this quiescence. Haematopoietic stem cell niche characterized Paul Frenette and colleagues used whole-mount confocal immunofluorescence imaging and computational modelling to study the spatial distribution of different cell types within the hematopoietic stem cell (HSC) niche. They found that quiescent HSCs associate specifically with small arterioles that are preferentially found in endosteal bone marrow and that these arterioles are essential in maintaining HSC quiescence. These results thus suggest that distinct HSC niches, quiescent or proliferative, are conferred by distinct blood vessel types.