Ferrostatin-1 protects against early sepsis-induced acute lung injury by suppressing lipid peroxidation-driven NINJ1-mediated DAMP release and neutrophil activation.

Abstract

Sepsis-induced acute lung injury (ALI) is a critical condition driven by neutrophil-dominated inflammation, lytic cell death and the subsequent DAMP release, etc. We tested whether the radical-trapping antioxidant Ferrostatin-1 (Fer-1) interrupts lipid peroxidation induced DAMP release and limits early lung injury in sepsis. We found that Fer-1 improved survival, preserved alveolar architecture, reduced lung-injury scores, and suppressed pulmonary inflammatory cytokine expression in a murine cecal ligation and puncture (CLP) model. Lung tissue RNA-sequencing showed that Fer-1 attenuated the CLP-induced inflammatory and chemotaxis transcriptome and significantly reduced neutrophil infiltration. In vitro, Fer-1 protected cells from lipid peroxidation-induced lytic death and impaired the release of large DAMPs associated with NINJ1 pathway, indicated Fer-1 acts upstream of NINJ1 to preserve membrane integrity. Fer-1 also directly lowered lipid peroxidation and reduced lipopolysaccharide (LPS)-induced IL-1β and IL-6 transcription and secretion in neutrophils, an effect reversed by pharmacological JNK/p38 activation. Together, our results indicate that Fer-1 functions as a dual-action modulator that prevents DAMP release and blunts neutrophil-driven inflammation escalation, thereby interrupting the lipid peroxidation-NINJ1-DAMP release axis, and mitigating early septic ALI.