Hu_2025_Mol.Cell_85_4602

Inducing lipid peroxidation-dependent ferroptosis is a promising anticancer strategy; however, the development of resistance poses a considerable challenge. This study identifies peroxiredoxin 6 (PRDX6) as a crucial modulator of glutathione peroxidase 4 (GPX4), affecting its localization and functional roles, thus contributing to ferroptosis resistance. PRDX6, endowed with phospholipase A2 activity, catalyzes the conversion of peroxy-phospholipids to lysophospholipids and oxidized fatty acids. Through targeted structural mutations and biochemical analyses, we demonstrate that PRDX6 binds to GPX4 via a C47 disulfide bond, facilitating GPX4's membrane translocation and enhanced production of hydroxy fatty acids. Combining the inhibition of PRDX6 with ferroptosis inducers increases lipid peroxidation, effectively suppressing tumor growth in liver and ovarian cancer mouse models, including patient-derived models. Furthermore, high PRDX6 expression correlates with shorter progression-free survival across multiple human cancer types. Collectively, our findings delineate a PRDX6-dependent mechanism in ferroptosis defense, offering new perspectives for targeted cancer therapy.