Macrophages play a crucial role in promoting perfusion recovery and revascularization after ischemia through antiinflammatory polarization, a process essential for the treatment of peripheral artery disease (PAD). Mitochondrial dynamics, particularly regulated by the fission protein DRP1, are closely linked to macrophage metabolism and inflammation. However, the role of DRP1 in reparative neovascularization remains unexplored. Here, we show that DRP1 expression was increased in F4/80+ macrophages within ischemic muscle on day 3 after hind limb ischemia (HLI), an animal model of PAD. Mice lacking Drp1 in myeloid cells exhibited impaired limb perfusion recovery, angiogenesis, and muscle regeneration after HLI. These effects were associated with increased proinflammatory M1-like macrophages, p-NF-κB, and TNF-α, and reduced antiinflammatory M2-like macrophages and p-AMPK in ischemic muscle of myeloid Drp1-/- mice. In vitro, Drp1-deficient macrophages under hypoxia serum starvation (HSS), an in vitro PAD model, demonstrated enhanced glycolysis via reducing p-AMPK as well as mitochondrial dysfunction, and excessive mitochondrial ROS production, resulting in increased proinflammatory M1-gene and reduced antiinflammatory M2-gene expression. Conditioned media from HSS-treated Drp1-/- macrophages exhibited increased proinflammatory cytokine secretion, leading to suppressed angiogenesis in endothelial cells. Thus, macrophage DRP1 deficiency under ischemia drives proinflammatory metabolic reprogramming and macrophage polarization, limiting revascularization in experimental PAD.
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