Cardiac macrophages significantly expand in chronic heart failure (HF). We tested the hypothesis that CD206 + macrophages expressing interleukin (IL)-4Ra in the failing heart are key drivers of left ventricular (LV) remodeling and ischemic cardiomyopathy. Cardiac macrophages were profiled using flow cytometry in adult male C57BL/6 (WT) mice following non-reperfused myocardial infarction (MI) to induce HF or sham operation. CD206 + macrophages progressively expanded in post-MI hearts during the progression of LV remodeling and comprised ~85% of macrophages at 8 w. These macrophages were exclusively proliferative and predominantly C-C motif chemokine receptor (CCR2) – and major histocompatibility complex (MHC)II hi in failing hearts, with the majority (92%) of CD206 + CCR2 – macrophages expressing LYVE-1, an embryonically-derived resident macrophage marker. Nearly half of cardiac CD206 + macrophages expressed IL-4Ra; the abundance of CD206 + IL-4Ra + directly correlated with LV dysfunction and fibrosis. Intramyocardial adoptive transfer of IL-4-polarized bone marrow derived CD206 + macrophages induced progressive LV dilation, dysfunction and fibrosis over 4 w in naïve recipient mice. To evaluate the role of CD206 + IL-4Ra + macrophages in LV remodeling, we used male and female LysM CreERT2 ;IL-4Ra F/F mice that allow for inducible myeloid-specific IL-4Ra gene deletion. Administration of tamoxifen from at 4 to 10 w post-MI (in established HF), effectively deleted IL-4Ra in cardiac macrophages and significantly reduced CD206 + macrophage abundance and proliferation in the remodeling heart. Myeloid-specific IL-4Ra deletion further prevented LV remodeling progression, improved fibrosis and neovascularization, and alleviated LV systolic dysfunction, while suppressing expansion of cardiac immune cells and blood Ly6C high monocytosis. We conclude that an expanded and proliferative population of CD206 + IL-4Ra + macrophages primarily derived from resident macrophages are key mediators of pathological LV remodeling and fibrosis. Inhibition of CD206 + macrophage IL-4Ra signaling may be a fruitful therapeutic approach to alleviate disease progression in HF.
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