内皮细胞 PINK1 介导 NLRP3 缺乏在致死性氧化剂损伤中的保护作用。

Endothelial PINK1 mediates the protective effects of NLRP3 deficiency during lethal oxidant injury.

机构信息

Section of Pulmonary, Critical Care, and Sleep Medicine, Yale University School of Medicine, New Haven, CT 06520.

Section of Pulmonary, Critical Care, and Sleep Medicine, Yale University School of Medicine, New Haven, CT 06520

出版信息

J Immunol. 2014 Jun 1;192(11):5296-304. doi: 10.4049/jimmunol.1400653. Epub 2014 Apr 28.

DOI:10.4049/jimmunol.1400653

PMID:24778451

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4047670/

Abstract

High levels of inspired oxygen, hyperoxia, are frequently used in patients with acute respiratory failure. Hyperoxia can exacerbate acute respiratory failure, which has high mortality and no specific therapies. We identified novel roles for PTEN-induced putative kinase 1 (PINK1), a mitochondrial protein, and the cytosolic innate immune protein NLRP3 in the lung and endothelium. We generated double knockouts (PINK1(-/-)/NLRP3(-/-)), as well as cell-targeted PINK1 silencing and lung-targeted overexpression constructs, to specifically show that PINK1 mediates cytoprotection in wild-type and NLRP3(-/-) mice. The ability to resist hyperoxia is proportional to PINK1 expression. PINK1(-/-) mice were the most susceptible; wild-type mice, which induced PINK1 after hyperoxia, had intermediate susceptibility; and NLRP3(-/-) mice, which had high basal and hyperoxia-induced PINK1, were the least susceptible. Genetic deletion of PINK1 or PINK1 silencing in the lung endothelium increased susceptibility to hyperoxia via alterations in autophagy/mitophagy, proteasome activation, apoptosis, and oxidant generation.

摘要

高浓度吸氧，即高氧血症，常被用于治疗急性呼吸衰竭患者。高氧血症可加重急性呼吸衰竭，而急性呼吸衰竭死亡率高，且尚无特效疗法。我们在肺和血管内皮中发现了 PTEN 诱导的假定激酶 1（PINK1）和胞质固有免疫蛋白 NLRP3 的新作用。我们生成了双重敲除（PINK1(-/-)/NLRP3(-/-)），以及细胞靶向 PINK1 沉默和肺靶向过表达构建体，以特异性地表明 PINK1 在野生型和 NLRP3(-/-)小鼠中介导细胞保护。对高氧的抵抗力与 PINK1 的表达成正比。PINK1(-/-)小鼠最易受影响；高氧诱导 PINK1 表达的野生型小鼠，其易感性居中；而 NLRP3(-/-)小鼠，其基础水平和高氧诱导的 PINK1 水平较高，最不易受影响。肺内皮中 PINK1 的基因缺失或沉默通过改变自噬/线粒体自噬、蛋白酶体激活、细胞凋亡和氧化生成增加了对高氧的易感性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a742/4047670/f1f20c156786/nihms581071f1.jpg

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