CSF-1–dependant donor-derived macrophages mediate chronic graft-versus-host disease
Kylie A. Alexander, … , Geoffrey R. Hill, Kelli P.A. MacDonald
Kylie A. Alexander, … , Geoffrey R. Hill, Kelli P.A. MacDonald
Published August 26, 2014
Citation Information: J Clin Invest. 2014;124(10):4266-4280. https://doi.org/10.1172/JCI75935.
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Research Article Immunology

CSF-1–dependant donor-derived macrophages mediate chronic graft-versus-host disease

Abstract

Chronic GVHD (cGVHD) is the major cause of late, nonrelapse death following stem cell transplantation and characteristically develops in organs such as skin and lung. Here, we used multiple murine models of cGVHD to investigate the contribution of macrophage populations in the development of cGVHD. Using an established IL-17–dependent sclerodermatous cGVHD model, we confirmed that macrophages infiltrating the skin are derived from donor bone marrow (F4/80+CSF-1R+CD206+iNOS). Cutaneous cGVHD developed in a CSF-1/CSF-1R–dependent manner, as treatment of recipients after transplantation with CSF-1 exacerbated macrophage infiltration and cutaneous pathology. Additionally, recipients of grafts from Csf1r–/– mice had substantially less macrophage infiltration and cutaneous pathology as compared with those receiving wild-type grafts. Neither CCL2/CCR2 nor GM-CSF/GM-CSFR signaling pathways were required for macrophage infiltration or development of cGVHD. In a different cGVHD model, in which bronchiolitis obliterans is a prominent manifestation, F4/80+ macrophage infiltration was similarly noted in the lungs of recipients after transplantation, and lung cGVHD was also IL-17 and CSF-1/CSF-1R dependent. Importantly, depletion of macrophages using an anti–CSF-1R mAb markedly reduced cutaneous and pulmonary cGVHD. Taken together, these data indicate that donor macrophages mediate the development of cGVHD and suggest that targeting CSF-1 signaling after transplantation may prevent and treat cGVHD.

Authors

Kylie A. Alexander, Ryan Flynn, Katie E. Lineburg, Rachel D. Kuns, Bianca E. Teal, Stuart D. Olver, Mary Lor, Neil C. Raffelt, Motoko Koyama, Lucie Leveque, Laetitia Le Texier, Michelle Melino, Kate A. Markey, Antiopi Varelias, Christian Engwerda, Jonathan S. Serody, Baptiste Janela, Florent Ginhoux, Andrew D. Clouston, Bruce R. Blazar, Geoffrey R. Hill, Kelli P.A. MacDonald

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Figure 5

Analysis of PB and cutaneous monocyte and macrophage populations after transplantation and CSF-1 treatment.

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Analysis of PB and cutaneous monocyte and macrophage populations after t...
(A) Representative dot plots of PB monocyte and macrophage analysis of recipients 19 days after transplantation. Numbers in each dot plot indicate the percentage of Ly6Chi cells (top 2 quadrants) and Ly6Clo cells (bottom 2 quadrants) and their expression of CCR2. Results illustrate a trend toward increased frequencies of Ly6Clo cells after CSF-1 treatment. Representative dot plot shows frequency of Ly6Chi cells (saline, 96.4% and CSF-1, 89.4%) and Ly6Clo cells (saline, 3.57% and CSF-1, 10.66%). (B) Representative dot plots illustrate the gating strategy for cutaneous monocyte and macrophage analysis of recipients 19 days after transplantation. Numbers in each dot plot indicate the percentage of positive cells in each gate. Results illustrate a significant increase in the absolute numbers of CD45+ monocytes (Ly6CloCD11b+F4/80+) and CD45+ macrophages (Ly6CloF4/80+). CD45+Ly6CloCD11b+F4/80+ monocyte absolute numbers: **P = 0.0087; CD45+Ly6CloF4/80+ macrophage absolute numbers: *P = 0.026 (n = 6/group, from 3 mice/group; 2 ears/mouse). Statistically significant differences were calculated using 2-tailed Mann-Whitney U tests. Data represent the mean ± SEM.