Ciprofloxacin enhances RSL3-induced ferroptosis by promoting mitochondrial Zn(2+) accumulation via the STING1-CAV2 pathway.

Ciprofloxacin (CFX) is a broad-spectrum antibiotic belonging to the fluoroquinolone class, widely used to treat bacterial infections by inhibiting bacterial DNA replication. Ferroptosis, a form of regulated cell death, is characterized by lipid peroxidation on cellular and organelle membranes. Our previous studies demonstrated that CFX inhibits erastin-induced ferroptosis by enhancing glutathione peroxidase 4 protein stability. In contrast, we report here a distinct role of CFX in potentiating RSL3-induced ferroptosis in various cancer cells. Mechanistically, CFX inhibits topoisomerase 2β, and when combined with RSL3, induces significant mitochondrial DNA stress. This mitochondrial DNA stress triggers a signaling cascade involving the stimulator of interferon genes cGAMP interactor 1 and caveolin-2, ultimately disrupting intracellular zinc homeostasis. The resulting zinc accumulation is transported into mitochondria via solute carrier family 25 member 25, leading to elevated mitochondrial reactive oxygen species production and amplification of ferroptosis. These findings reveal a dual role of CFX in ferroptosis regulation, dependent on the specific stimuli and downstream signaling pathways activated. This dual functionality highlights the potential therapeutic implications of CFX in modulating ferroptosis in disease contexts.