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抑制ALOX12-12-HETE通过减少内皮细胞铁死亡介导的中性粒细胞胞外陷阱形成减轻肺缺血再灌注损伤。

Inhibition of ALOX12-12-HETE Alleviates Lung Ischemia-Reperfusion Injury by Reducing Endothelial Ferroptosis-Mediated Neutrophil Extracellular Trap Formation.

作者信息

Li Chongwu, Gao Peigen, Zhuang Fenghui, Wang Tao, Wang Zeyu, Wu Guodong, Zhou Ziheng, Xie Huikang, Xie Dong, Zhao Deping, Wu Junqi, Chen Chang

机构信息

Department of Thoracic Surgery, Shanghai Pulmonary Hospital, School of Medicine, Tongji University, Shanghai, China.

Shanghai Engineering Research Center of Lung Transplantation, Shanghai, China.

出版信息

Research (Wash D C). 2024 Sep 12;7:0473. doi: 10.34133/research.0473. eCollection 2024.

DOI:10.34133/research.0473
PMID:39268501
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11391482/
Abstract

Lung ischemia-reperfusion injury (IRI) stands as the primary culprit behind primary graft dysfunction (PGD) after lung transplantation, yet viable therapeutic options are lacking. In the present study, we used a murine hilar clamp (1 h) and reperfusion (3 h) model to study IRI. The left lung tissues were harvested for metabolomics, transcriptomics, and single-cell RNA sequencing. Metabolomics of plasma from human lung transplantation recipients was also performed. Lung histology, pulmonary function, pulmonary edema, and survival analysis were measured in mice. Integrative analysis of metabolomics and transcriptomics revealed a marked up-regulation of arachidonate 12-lipoxygenase (ALOX12) and its metabolite 12-hydroxyeicosatetraenoic acid (12-HETE), which played a pivotal role in promoting ferroptosis and neutrophil extracellular trap (NET) formation during lung IRI. Additionally, single-cell RNA sequencing revealed that ferroptosis predominantly occurred in pulmonary endothelial cells. Importantly, -knockout (KO) mice exhibited a notable decrease in ferroptosis, NET formation, and tissue injury. To investigate the interplay between endothelial ferroptosis and NET formation, a hypoxia/reoxygenation (HR) cell model using 2 human endothelial cell lines was established. By incubating conditioned medium from HR cell model with neutrophils, we found that the liberation of high mobility group box 1 (HMGB1) from endothelial cells undergoing ferroptosis facilitated the formation of NETs by activating the TLR4/MYD88 pathway. Last, the administration of ML355, a targeted inhibitor of Alox12, mitigated lung IRI in both murine hilar clamp/reperfusion and rat left lung transplant models. Collectively, our study indicates ALOX12 as a promising therapeutic strategy for lung IRI.

摘要

肺缺血再灌注损伤(IRI)是肺移植后原发性移植物功能障碍(PGD)的主要原因,但目前缺乏有效的治疗方法。在本研究中,我们使用小鼠肺门钳夹(1小时)和再灌注(3小时)模型来研究IRI。收集左肺组织进行代谢组学、转录组学和单细胞RNA测序。还对人肺移植受者的血浆进行了代谢组学分析。对小鼠进行肺组织学、肺功能、肺水肿和生存分析。代谢组学和转录组学的综合分析显示,花生四烯酸12-脂氧合酶(ALOX12)及其代谢产物12-羟基二十碳四烯酸(12-HETE)显著上调,它们在肺IRI期间促进铁死亡和中性粒细胞胞外陷阱(NET)形成中起关键作用。此外,单细胞RNA测序显示铁死亡主要发生在肺内皮细胞中。重要的是,基因敲除(KO)小鼠的铁死亡、NET形成和组织损伤显著减少。为了研究内皮细胞铁死亡与NET形成之间的相互作用,建立了使用2种人内皮细胞系的缺氧/复氧(HR)细胞模型。通过将HR细胞模型的条件培养基与中性粒细胞孵育,我们发现经历铁死亡的内皮细胞释放的高迁移率族蛋白B1(HMGB1)通过激活TLR4/MYD88途径促进NETs的形成。最后,给予ALOX12的靶向抑制剂ML355可减轻小鼠肺门钳夹/再灌注和大鼠左肺移植模型中的肺IRI。总的来说,我们的研究表明ALOX12是一种有前景的肺IRI治疗策略。

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