In situ mapping identifies distinct vascular niches for myelopoiesis

骨髓生成 祖细胞 生物 细胞生物学 髓样 骨髓 造血 树突状细胞 细胞分化 免疫学 命运图 干细胞 免疫系统 遗传学 基因
作者
Jizhou Zhang,Qingqing Wu,Courtney B. Johnson,Giang Pham,Jeremy M. Kinder,André Olsson,Anastasiya Slaughter,Margot May,Benjamin Weinhaus,Angelo D’Alessandro,James Douglas Engel,Jean X. Jiang,Matthew Kofron,Lei Huang,V. B. Surya Prasath,Sing Sing Way,Nathan Salomonis,H. Leighton Grimes,Daniel Lucas
出处
期刊:Nature [Nature Portfolio]
卷期号:590 (7846): 457-462 被引量:97
标识
DOI:10.1038/s41586-021-03201-2
摘要

In contrast to nearly all other tissues, the anatomy of cell differentiation in the bone marrow remains unknown. This is owing to a lack of strategies for examining myelopoiesis—the differentiation of myeloid progenitors into a large variety of innate immune cells—in situ in the bone marrow. Such strategies are required to understand differentiation and lineage-commitment decisions, and to define how spatial organizing cues inform tissue function. Here we develop approaches for imaging myelopoiesis in mice, and generate atlases showing the differentiation of granulocytes, monocytes and dendritic cells. The generation of granulocytes and dendritic cells–monocytes localizes to different blood-vessel structures known as sinusoids, and displays lineage-specific spatial and clonal architectures. Acute systemic infection with Listeria monocytogenes induces lineage-specific progenitor clusters to undergo increased self-renewal of progenitors, but the different lineages remain spatially separated. Monocyte–dendritic cell progenitors (MDPs) map with nonclassical monocytes and conventional dendritic cells; these localize to a subset of blood vessels expressing a major regulator of myelopoiesis, colony-stimulating factor 1 (CSF1, also known as M-CSF)1. Specific deletion of Csf1 in endothelium disrupts the architecture around MDPs and their localization to sinusoids. Subsequently, there are fewer MDPs and their ability to differentiate is reduced, leading to a loss of nonclassical monocytes and dendritic cells during both homeostasis and infection. These data indicate that local cues produced by distinct blood vessels are responsible for the spatial organization of definitive blood cell differentiation. A combination of fluorescent antibodies is used to build visual maps of all myeloid cells in the bone marrow, providing new insight into how the bone marrow microenvironment regulates cell-fate decisions.

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