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Self-renewing resident cardiac macrophages limit adverse remodeling following myocardial infarction.

Sarah A DickJillian A MacklinSara NejatAbdul MomenXavier Clemente-CasaresMarwan G AlthagafiJinmiao ChenCrystal KantoresSiyavash HosseinzadehLaura AronoffAnthony WongRysa ZamanIulia BarbuRickvinder BeslaKory J LavineBabak RazaniFlorent GinhouxMansoor HusainMyron I CybulskyClinton S RobbinsSlava Epelman
Published in: Nature immunology (2018)
Macrophages promote both injury and repair after myocardial infarction, but discriminating functions within mixed populations remains challenging. Here we used fate mapping, parabiosis and single-cell transcriptomics to demonstrate that at steady state, TIMD4+LYVE1+MHC-IIloCCR2- resident cardiac macrophages self-renew with negligible blood monocyte input. Monocytes partially replaced resident TIMD4-LYVE1-MHC-IIhiCCR2- macrophages and fully replaced TIMD4-LYVE1-MHC-IIhiCCR2+ macrophages, revealing a hierarchy of monocyte contribution to functionally distinct macrophage subsets. Ischemic injury reduced TIMD4+ and TIMD4- resident macrophage abundance, whereas CCR2+ monocyte-derived macrophages adopted multiple cell fates within infarcted tissue, including those nearly indistinguishable from resident macrophages. Recruited macrophages did not express TIMD4, highlighting the ability of TIMD4 to track a subset of resident macrophages in the absence of fate mapping. Despite this similarity, inducible depletion of resident macrophages using a Cx3cr1-based system led to impaired cardiac function and promoted adverse remodeling primarily within the peri-infarct zone, revealing a nonredundant, cardioprotective role of resident cardiac macrophages.
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