Cell

Ferroptosis inhibition enhances liver and lung graft function

07/05/2026 Source: Cell

Summary

Ischemia-reperfusion injury (IRI) is a major clinical challenge in transplantation, vascular surgeries, myocardial infarction, and stroke. Disruption of energy and redox homeostasis triggers ferroptosis, a regulated, iron-dependent form of cell death, leading to organ dysfunction. We identify an early and transient increase of lipid peroxidation in human liver transplants and validate it as a therapeutic target. FXT-001, a ferroptosis inhibitor with dual radical and iron-trapping activity,

Content

# Ferroptosis inhibition enhances liver and lung graft function *Published: 2026 May 8* Ischemia-reperfusion injury (IRI) is a major clinical challenge in transplantation, vascular surgeries, myocardial infarction, and stroke. Disruption of energy and redox homeostasis triggers ferroptosis, a regulated, iron-dependent form of cell death, leading to organ dysfunction. We identify an early and transient increase of lipid peroxidation in human liver transplants and validate it as a therapeutic target. FXT-001, a ferroptosis inhibitor with dual radical and iron-trapping activity, provides robust protection in preclinical models, including ex situ perfusion of porcine liver and lung grafts. In a split ex vivo machine perfusion setting using declined human donors, FXT-001 treatment preserves graft viability, whereas untreated lungs deteriorate. We also develop FXT-002 and FXT-003 with enhanced pharmacokinetic and safety profiles. These findings support the use of ferroptosis inhibitors as a therapeutic strategy in transplantation and other IRI-associated conditions. DOI: 10.1016/j.cell.2026.04.024