Abstract
Snakebite envenoming remains a major global health challenge. Naja atra (N. atra) envenomation induces severe acute kidney injury (AKI), largely driven by snake venom phospholipase A(2) (SVPLA(2)). Increasing evidence suggests that immune dysregulation, in addition to direct cytotoxicity, contributes to delayed renal injury. Here, we investigated whether N. atra SVPLA(2) exposure is associated with macrophage immunometabolic remodeling and functional changes relevant to AKI progression. In vivo, AKI was induced in C57BL/6J mice by intraperitoneal administration of N. atra venom, followed by treatment with the SVPLA(2) inhibitor varespladib. In vitro, bone marrow-derived macrophages were exposed to venom with or without varespladib. N. atra venom exposure was associated with extensive tubular apoptosis, increased renal macrophage abundance, and elevated kidney injury biomarkers. Macrophages exhibited a shift toward a pro-inflammatory polarization signature accompanied by reduced efferocytic capacity. Targeted metabolomics revealed coordinated increases in glycolytic intermediates together with upregulation of key glycolytic enzymes. Pharmacological inhibition of SVPLA(2) partially restored macrophage metabolic features and efferocytic capacity and was accompanied by attenuation of renal injury. Together, these findings support a model in which SVPLA(2) exposure is associated with macrophage immunometabolic remodeling and impaired apoptotic cell clearance during venom-induced AKI.