Abstract
Drug-induced kidney injury remains a major clinical challenge associated with diverse therapeutic agents and is an important cause of acute kidney injury, chronic renal dysfunction, and treatment-related morbidity. Growing evidence indicates that nephrotoxicity caused by anticancer, immunosuppressive, and anti-infective drugs is strongly driven by oxidative stress and redox homeostasis disruption. Excessive production of reactive oxygen species (ROS) in renal tubular cells overwhelms endogenous antioxidant defenses and triggers mitochondrial dysfunction, inflammatory signaling, and activation of stress-responsive pathways that culminate in tubular injury and renal functional decline. These processes promote apoptosis, necrosis, microvascular injury, and a reduction in the glomerular filtration rate, while dysregulation of redox-sensitive pathways involved in cell survival and repair further heightens renal vulnerability. This review summarizes current mechanistic insights into oxidative stress-mediated pathways of drug-induced nephrotoxicity, with emphasis on their translational relevance. In addition, it discusses emerging biomarkers for early detection and highlights recent advances in antioxidant-based and redox-modulating strategies that may help prevent renal injury and preserve kidney function.