12/15-Lipoxygenase-Derived Electrophilic Lipid Modifications in Phagocytic Macrophages

Macrophages remove apoptotic cells via phagocytosis, also known as efferocytosis, during inflammation to maintain tissue homeostasis. This process is accompanied by various metabolic changes in macrophages including the production of lipid metabolites by fatty acid oxygenases. Among these, highly reactive metabolites, called lipid-derived electrophiles (LDEs), modify cysteines and other nucleophilic amino acids in intracellular proteins. However, the landscape and functions of the modifications by these electrophilic metabolites have been poorly characterized. In this study, we used activity-based protein profiling to quantitatively profile the cysteine reactivity landscape and identify the potential targets of endogenous LDE modification during efferocytosis in mouse peritoneal macrophages. Using this methodology, we identified multiple cysteine sites that are highly likely to be modified by LDEs generated by 12/15-lipoxygenase (12/15-LOX), an efferocytosis-related fatty acid oxygenase that is highly expressed in peritoneal macrophages. Among these, actin-depolymerizing protein Cofilin-1 was found to be a target of 12/15-LOX-derived LDEs. In vitro Cofilin-1 activity was attenuated by 12/15-LOX-derived LDEs, and intracellular actin stabilization and efferocytosis were substantially enhanced by the LDE treatment of mouse peritoneal macrophages. These results highlighted the role of intracellular LDE modification during efferocytosis in macrophages.