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Macrophages: Key Regulators of Steady State and Demand-Adapted Hematopoiesis #MMPMID26806720
McCabe A; MacNamara KC
Exp Hematol 2016[Apr]; 44 (4): 213-22 PMID26806720show ga
Hematopoietic stem cell (HSC) function is required for balanced blood production throughout life, thus it is essential to understand the mechanisms regulating this highly dynamic process. Bone marrow-resident macrophages (M?s) have recently emerged as an important component of the HSC niche where they contribute to regulating HSC and progenitor cell (HSPC) mobilization and function. Here we review the role of M?s on immune cell production, HSPC pool size, and mobilization at steady state and under inflammatory conditions. Inflammation induces marked changes in hematopoiesis to restrict or promote generation of specific cell lineages, and this often has a negative impact on hematopoietic stem cell (HSC) function. Cytokines and growth factors induced during inflammation influence hematopoiesis by acting directly on HSPCs and/or by modulating niche cell function. We focus particular attention on the opposing effects of two key inflammatory proteins, interferon gamma (IFN?) and granulocyte-colony stimulating factor (G-CSF), in regulating bone marrow-resident M?s and HSPCs. M?s are essential for tissue homeostasis, and here we highlight their emerging role as a central regulator of both steady state and demand-adapted hematopoiesis.
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Exp+Hematol 2016 ; 44 (4): 213-22
