LL-37 Attenuates Sepsis-Induced Lung Injury by Alleviating Inflammatory Response and Epithelial Cell Oxidative Injury via ZBP1-Mediated Autophagy
Hu Gao, Fajuan Tang, Bin Chen, Xihong Li

TL;DR
LL-37 reduces lung damage in sepsis by reducing inflammation and oxidative stress through autophagy mediated by ZBP1.
Contribution
This study reveals a novel mechanism by which LL-37 protects against sepsis-induced lung injury via ZBP1-mediated autophagy.
Findings
LL-37 reduces oxidative injury and inflammation in alveolar epithelial cells exposed to LPS.
ZBP1 down-regulation is crucial for LL-37's protective effects in sepsis-induced lung injury.
LL-37 improves lung function and reduces inflammation in a CLP-induced ALI mouse model.
Abstract
Background: Sepsis-induced acute lung injury (ALI) is a serious disease constituting a heavy burden on society due to high mortality and morbidity. Inflammation and oxidative stress constitute key pathological mechanisms in ALI caused by sepsis. LL-37 can improve the survival of septic mice. Nevertheless, its function and underlying mechanism in sepsis-evoked ALI is elusive. Methods: The human A549 alveolar epithelial cell line was treated with LL-37 or ZBP1 recombinant vector under LPS exposure. Then, the effects on cell oxidative stress injury, inflammatory response, and autophagy were analyzed. RNA-seq analysis was performed to detect the differentially expressed genes (DEGs) between the LPS and LPS/LL-37 groups. Furthermore, the effects of LL-37 on cecal ligation and the puncture (CLP)-constructed ALI model were explored. Results: LL-37 attenuated LPS-evoked oxidative injury in…
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Taxonomy
TopicsAutophagy in Disease and Therapy · Hydrogen's biological and therapeutic effects · Neuroinflammation and Neurodegeneration Mechanisms
