诱导型一氧化氮合酶作为烧伤后小鼠骨骼肌炎症和细胞凋亡的驱动因素：沉默调节蛋白1的S-亚硝基化介导的p65核因子κB和p53乙酰化的可能作用

iNOS as a Driver of Inflammation and Apoptosis in Mouse Skeletal Muscle after Burn Injury: Possible Involvement of Sirt1 S-Nitrosylation-Mediated Acetylation of p65 NF-κB and p53.

作者信息

Nakazawa Harumasa, Chang Kyungho, Shinozaki Shohei, Yasukawa Takashi, Ishimaru Kazuhiro, Yasuhara Shingo, Yu Yong-Ming, Martyn J A Jeevendra, Tompkins Ronald G, Shimokado Kentaro, Kaneki Masao

机构信息

Department of Anesthesia, Critical Care and Pain Medicine, Massachusetts General Hospital, Harvard Medical School, Charlestown, Massachusetts, United States of America.

Shriners Hospitals for Children, Boston, Massachusetts, United States of America.

出版信息

PLoS One. 2017 Jan 18;12(1):e0170391. doi: 10.1371/journal.pone.0170391. eCollection 2017.

DOI:10.1371/journal.pone.0170391

PMID:28099528

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5242494/

Abstract

Inflammation and apoptosis develop in skeletal muscle after major trauma, including burn injury, and play a pivotal role in insulin resistance and muscle wasting. We and others have shown that inducible nitric oxide synthase (iNOS), a major mediator of inflammation, plays an important role in stress (e.g., burn)-induced insulin resistance. However, it remains to be determined how iNOS induces insulin resistance. Moreover, the interrelation between inflammatory response and apoptosis is poorly understood, although they often develop simultaneously. Nuclear factor (NF)-κB and p53 are key regulators of inflammation and apoptosis, respectively. Sirt1 inhibits p65 NF-κB and p53 by deacetylating these transcription factors. Recently, we have shown that iNOS induces S-nitrosylation of Sirt1, which inactivates Sirt1 and thereby increases acetylation and activity of p65 NF-κB and p53 in various cell types, including skeletal muscle cells. Here, we show that iNOS enhances burn-induced inflammatory response and apoptotic change in mouse skeletal muscle along with S-nitrosylation of Sirt1. Burn injury induced robust expression of iNOS in skeletal muscle and gene disruption of iNOS significantly inhibited burn-induced increases in inflammatory gene expression and apoptotic change. In parallel, burn increased Sirt1 S-nitrosylation and acetylation and DNA-binding capacity of p65 NF-κB and p53, all of which were reversed or ameliorated by iNOS deficiency. These results indicate that iNOS functions not only as a downstream effector but also as an upstream enhancer of burn-induced inflammatory response, at least in part, by Sirt1 S-nitrosylation-dependent activation (acetylation) of p65 NF-κB. Our data suggest that Sirt1 S-nitrosylation may play a role in iNOS-mediated enhanced inflammatory response and apoptotic change, which, in turn, contribute to muscle wasting and supposedly to insulin resistance after burn injury.

摘要

在包括烧伤在内的重大创伤后，骨骼肌中会发生炎症和细胞凋亡，它们在胰岛素抵抗和肌肉萎缩中起关键作用。我们和其他人已经表明，诱导型一氧化氮合酶（iNOS）作为炎症的主要介质，在应激（如烧伤）诱导的胰岛素抵抗中起重要作用。然而，iNOS如何诱导胰岛素抵抗仍有待确定。此外，尽管炎症反应和细胞凋亡常常同时发生，但它们之间的相互关系却知之甚少。核因子（NF）-κB和p53分别是炎症和细胞凋亡的关键调节因子。Sirt1通过使这些转录因子去乙酰化来抑制p65 NF-κB和p53。最近，我们已经表明，iNOS诱导Sirt1的S-亚硝基化，从而使Sirt1失活，进而增加包括骨骼肌细胞在内的各种细胞类型中p65 NF-κB和p53的乙酰化和活性。在这里，我们表明iNOS增强了小鼠骨骼肌中烧伤诱导的炎症反应和细胞凋亡变化，同时伴有Sirt1的S-亚硝基化。烧伤损伤诱导骨骼肌中iNOS的强烈表达，iNOS的基因破坏显著抑制了烧伤诱导的炎症基因表达增加和细胞凋亡变化。同时，烧伤增加了Sirt1的S-亚硝基化和乙酰化以及p65 NF-κB和p53的DNA结合能力，而iNOS缺乏则使所有这些变化都得到逆转或改善。这些结果表明，iNOS不仅作为下游效应器，而且至少部分地通过p65 NF-κB的Sirt1 S-亚硝基化依赖性激活（乙酰化）作为烧伤诱导的炎症反应的上游增强剂。我们的数据表明，Sirt1的S-亚硝基化可能在iNOS介导的增强的炎症反应和细胞凋亡变化中起作用，进而导致肌肉萎缩，并可能导致烧伤后的胰岛素抵抗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9c10/5242494/a8eeafe95566/pone.0170391.g001.jpg

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iNOS as a Driver of Inflammation and Apoptosis in Mouse Skeletal Muscle after Burn Injury: Possible Involvement of Sirt1 S-Nitrosylation-Mediated Acetylation of p65 NF-κB and p53.诱导型一氧化氮合酶作为烧伤后小鼠骨骼肌炎症和细胞凋亡的驱动因素：沉默调节蛋白1的S-亚硝基化介导的p65核因子κB和p53乙酰化的可能作用

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诱导型一氧化氮合酶作为烧伤后小鼠骨骼肌炎症和细胞凋亡的驱动因素：沉默调节蛋白1的S-亚硝基化介导的p65核因子κB和p53乙酰化的可能作用

iNOS as a Driver of Inflammation and Apoptosis in Mouse Skeletal Muscle after Burn Injury: Possible Involvement of Sirt1 S-Nitrosylation-Mediated Acetylation of p65 NF-κB and p53.

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