Aged marrow macrophages expand platelet-biased hematopoietic stem cells via interleukin-1B
Benjamin J. Frisch, Corey M. Hoffman, Sarah E. Latchney, Mark W. LaMere, Jason Myers, John Ashton, Allison J. Li, Jerry Saunders II, James Palis, Archibald S. Perkins, Amanda McCabe, Julianne N.P. Smith, Kathleen E. McGrath, Fatima Rivera-Escalera, Andrew McDavid, Jane L. Liesveld, Vyacheslav A. Korshunov, Michael R. Elliott, Katherine C. MacNamara, Michael W. Becker, Laura M. Calvi
Benjamin J. Frisch, Corey M. Hoffman, Sarah E. Latchney, Mark W. LaMere, Jason Myers, John Ashton, Allison J. Li, Jerry Saunders II, James Palis, Archibald S. Perkins, Amanda McCabe, Julianne N.P. Smith, Kathleen E. McGrath, Fatima Rivera-Escalera, Andrew McDavid, Jane L. Liesveld, Vyacheslav A. Korshunov, Michael R. Elliott, Katherine C. MacNamara, Michael W. Becker, Laura M. Calvi
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Research Article Aging Hematology

Aged marrow macrophages expand platelet-biased hematopoietic stem cells via interleukin-1B

Abstract

The bone marrow microenvironment contributes to the regulation of hematopoietic stem cell (HSC) function, though its role in age-associated lineage skewing is poorly understood. Here we show that dysfunction of aged marrow macrophages (Mφs) directs HSC platelet bias. Mφs from the marrow of aged mice and humans exhibited an activated phenotype, with increased expression of inflammatory signals. Aged marrow Mφs also displayed decreased phagocytic function. Senescent neutrophils, typically cleared by marrow Mφs, were markedly increased in aged mice, consistent with functional defects in Mφ phagocytosis and efferocytosis. In aged mice, interleukin-1B (IL-1B) was elevated in the bone marrow, and caspase-1 activity, which can process pro–IL-1B, was increased in marrow Mφs and neutrophils. Mechanistically, IL-1B signaling was necessary and sufficient to induce a platelet bias in HSCs. In young mice, depletion of phagocytic cell populations or loss of the efferocytic receptor Axl expanded platelet-biased HSCs. Our data support a model wherein increased inflammatory signals and decreased phagocytic function of aged marrow Mφs induce the acquisition of platelet bias in aged HSCs. This work highlights the instructive role of Mφs and IL-1B in the age-associated lineage skewing of HSCs, and reveals the therapeutic potential of their manipulation as antigeronic targets.

Authors

Benjamin J. Frisch, Corey M. Hoffman, Sarah E. Latchney, Mark W. LaMere, Jason Myers, John Ashton, Allison J. Li, Jerry Saunders II, James Palis, Archibald S. Perkins, Amanda McCabe, Julianne N.P. Smith, Kathleen E. McGrath, Fatima Rivera-Escalera, Andrew McDavid, Jane L. Liesveld, Vyacheslav A. Korshunov, Michael R. Elliott, Katherine C. MacNamara, Michael W. Becker, Laura M. Calvi

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Figure 2

Aged mice have expanded megakaryocyte-biased HSCs.

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Aged mice have expanded megakaryocyte-biased HSCs. (A–G) Representative ...
(AG) Representative flow cytometry of CD41 expression and its quantification across LSK subsets in young and aged mice (n = 6 mice per group). (H) Principal component analysis (PCA) plot of single LT-HSCs from young and aged mice. Variance of each PCA is shown. (I) Violin plots of Selp (ANOVA P = 4.94 × 10–7), Vwf (P = 0.003051854), and Itgb3 (P = 6.38 × 10–5) expression from young and aged LT-HSCs (n = 76 young HSCs and 63 aged HSCs). (J and K) Quantification of CD61 (n = 9 mice per group) and of CD41/CD61 (n = 5 mice per group) expression across LSK subsets in young and aged mice. (L) Schematic representation of experimental design for analysis of megakaryocytic skewing potential of CD41+ LT-HSCs. (M and N) Donor platelet bias of sorted CD41+ (n = 5 recipients) versus CD41 (n = 4 recipients) LT-HSCs as percent donor and total number. (O) Quantification of in vitro megakaryocytic CFUs (CFU-MK) per 100 sorted CD41+ versus CD41 LT-HSCs (n = 4 per group). (G, J, K, and M–O). Each symbol represents an individual mouse; data represent mean ± SEM. P values, 2-tailed Student’s t test except as noted: *P < 0.05, **P < 0.01, ***P < 0.001.