Cardiolipin coordinates inflammatory metabolic reprogramming through regulation of Complex II assembly and stability

Abstract

AbstractMacrophage metabolic plasticity enables repurposing of electron transport from energy generation to inflammation and host defense. Altered Respiratory Complex II function has been implicated in cancer, diabetes and inflammation but regulatory mechanisms are incompletely understood. Here we show that macrophage inflammatory activation triggers Complex II disassembly and succinate dehydrogenase-B subunit loss through sequestration and mitophagy. Mitochondrial fission was required for lipopolysaccharide-stimulated succinate dehydrogenase-B degradation but not sequestration. We hypothesized that this Complex II regulatory mechanism might be coordinated by the mitochondrial phospholipid cardiolipin. Cardiolipin synthase knockdown prevented lipopolysaccharide-induced metabolic remodeling and Complex II disassembly, sequestration and degradation. Cardiolipin-depleted macrophages were defective in lipopolysaccharide-induced pro-inflammatory cytokine production, a phenotype partially rescued by Complex II inhibition. Thus, cardiolipin acts as a critical organizer of inflammatory metabolic remodeling.