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Review

Context-Dependent Modulation of Ferroptosis by Metformin: Mechanisms, Therapeutic Implications and Open Questions

1
Department of Medical Biology, Hamidiye School of Medicine, University of Health Sciences, Istanbul 34668, Türkiye
2
Department of Medical Physiology, Graduate School, Istanbul Medeniyet University, Istanbul 34700, Türkiye
3
Department of Medical Biology, Faculty of Medicine, Istanbul Atlas University, Istanbul 34408, Türkiye
*
Author to whom correspondence should be addressed.
Pharmaceuticals 2026, 19(7), 1072; https://doi.org/10.3390/ph19071072
Submission received: 24 June 2026 / Revised: 8 July 2026 / Accepted: 9 July 2026 / Published: 11 July 2026

Abstract

Ferroptosis is an iron-dependent regulated form of cell death characterized by lethal lipid peroxidation and is increasingly implicated in cancer, neurodegenerative diseases, cardiovascular injury, and metabolic disorders. Metformin, a widely prescribed antidiabetic biguanide, exerts pleiotropic effects beyond glucose lowering and has emerged as a context-dependent regulator of ferroptosis. In malignant cells, metformin may enhance ferroptotic susceptibility through activation of AMP-activated protein kinase (AMPK), suppression of mechanistic target of rapamycin (mTOR) signaling and SLC7A11, induction of ferritinophagy, mitochondrial complex I stress, and promotion of lipid peroxidation. Conversely, in normal or stressed non-malignant tissues, metformin may limit ferroptotic injury by activating nuclear factor erythroid 2-related factor 2 (NRF2), supporting glutathione peroxidase 4 (GPX4) and SLC7A11-dependent antioxidant defenses, improving mitochondrial quality control, and stabilizing iron homeostasis. This review synthesizes the molecular basis of this duality, evaluates therapeutic opportunities in oncology and cytoprotection, and outlines biomarker-driven and clinical trial strategies required for translation. Overall, metformin should not be regarded as a universal ferroptosis inducer or inhibitor, but rather as a context-dependent metabolic regulator whose effects are shaped by cell type, dose, exposure duration, transporter expression, iron status, and antioxidant capacity.
Keywords: ferroptosis; metformin; AMPK; lipid peroxidation; iron metabolism; cancer therapy; neuroprotection ferroptosis; metformin; AMPK; lipid peroxidation; iron metabolism; cancer therapy; neuroprotection

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MDPI and ACS Style

Besli, N.; Ercin, N.; Kalkan Cakmak, R.; Celik, U. Context-Dependent Modulation of Ferroptosis by Metformin: Mechanisms, Therapeutic Implications and Open Questions. Pharmaceuticals 2026, 19, 1072. https://doi.org/10.3390/ph19071072

AMA Style

Besli N, Ercin N, Kalkan Cakmak R, Celik U. Context-Dependent Modulation of Ferroptosis by Metformin: Mechanisms, Therapeutic Implications and Open Questions. Pharmaceuticals. 2026; 19(7):1072. https://doi.org/10.3390/ph19071072

Chicago/Turabian Style

Besli, Nail, Nilufer Ercin, Rabia Kalkan Cakmak, and Ulkan Celik. 2026. "Context-Dependent Modulation of Ferroptosis by Metformin: Mechanisms, Therapeutic Implications and Open Questions" Pharmaceuticals 19, no. 7: 1072. https://doi.org/10.3390/ph19071072

APA Style

Besli, N., Ercin, N., Kalkan Cakmak, R., & Celik, U. (2026). Context-Dependent Modulation of Ferroptosis by Metformin: Mechanisms, Therapeutic Implications and Open Questions. Pharmaceuticals, 19(7), 1072. https://doi.org/10.3390/ph19071072

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