Ferroptosis is an iron-dependent form of regulated cell death driven by lipid peroxidation. Recent advances challenge the view of ferroptosis as a predominantly cytosolic process and instead position mitochondria as central regulators of ferroptosis by coordinating iron metabolism, lipid composition, and redox homoeostasis. This review discusses ferroptosis from a mitochondrial perspective and examines its potential relevance to primary mitochondrial diseases, where defects in oxidative phosphorylation profoundly remodel cellular metabolism and redox homoeostasis. The review highlights emerging roles for mitochondrial iron–sulfur cluster biogenesis, coenzyme Q metabolism and trafficking, mitochondrial lipid remodelling, and stress-response signalling in shaping ferroptotic vulnerability. Finally, we discuss current evidence linking ferroptosis to mitochondrial pathology and the therapeutic opportunities arising from targeting ferroptosis pathways in mitochondrial disease.
Monday, July 13, 2026
Mitochondria setting the stage for ferroptosis
Ahola S. Mitochondria setting the stage for ferroptosis. Trends in Endocrinology & Metabolism, 2026; 0. Doi:10.1016/j.tem.2026.06.006
