Ferrostatin-1 protects against early sepsis-induced acute lung injury by suppressing lipid peroxidation-driven NINJ1-mediated DAMP release and neutrophil activation.
Fang Xiao, Donghua Li, Miao Yu, Yunfeng Zhu, Guorong Huang, Zhilei Huang, Yufang Wang, Jialin Li, Dongmei Zhong, Huan Ma, Kunyu Liao, Yongshan Liu, Yalin Zhang, Xiangdong Guan, Changjie Cai
Abstract
Open AccessSepsis-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.