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Respir Res. 2016 Aug 30;17(1):107. doi: 10.1186/s12931-016-0420-x.
2
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J Immunol. 2016 Jul 15;197(2):504-16. doi: 10.4049/jimmunol.1600265. Epub 2016 Jun 8.
3
Heat Shock Protein 70 and CHIP Promote Nox4 Ubiquitination and Degradation within the Losartan Antioxidative Effect in Proximal Tubule Cells.热休克蛋白70和CHIP在氯沙坦对近端小管细胞的抗氧化作用中促进Nox4泛素化和降解。
Cell Physiol Biochem. 2015;36(6):2183-97. doi: 10.1159/000430184. Epub 2015 Jul 24.
4
Regulation of 26S Proteasome Activity in Pulmonary Fibrosis.26S 蛋白酶体活性在肺纤维化中的调控。
Am J Respir Crit Care Med. 2015 Nov 1;192(9):1089-101. doi: 10.1164/rccm.201412-2270OC.
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Lost after translation: insights from pulmonary surfactant for understanding the role of alveolar epithelial dysfunction and cellular quality control in fibrotic lung disease.翻译后迷失:来自肺表面活性物质的见解,以理解肺泡上皮功能障碍和细胞质量控制在纤维化肺病中的作用
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PARK2-mediated mitophagy is involved in regulation of HBEC senescence in COPD pathogenesis.PARK2介导的线粒体自噬参与慢性阻塞性肺疾病发病机制中支气管上皮细胞衰老的调控。
Autophagy. 2015;11(3):547-59. doi: 10.1080/15548627.2015.1017190.
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Azithromycin attenuates cigarette smoke extract-induced oxidative stress injury in human alveolar epithelial cells.阿奇霉素减轻香烟烟雾提取物诱导的人肺泡上皮细胞氧化应激损伤。
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The interplay between autophagy and the ubiquitin-proteasome system in cardiac proteotoxicity.自噬与泛素-蛋白酶体系统在心脏蛋白质毒性中的相互作用。
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Negative regulation of NADPH oxidase 4 by hydrogen peroxide-inducible clone 5 (Hic-5) protein.过氧化氢诱导克隆 5(Hic-5)蛋白对 NADPH 氧化酶 4 的负调控。
J Biol Chem. 2014 Jun 27;289(26):18270-8. doi: 10.1074/jbc.M114.562249. Epub 2014 May 15.
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Azithromycin: mechanisms of action and their relevance for clinical applications.阿奇霉素:作用机制及其与临床应用的相关性。
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阿奇霉素通过蛋白酶体降解 NOX4 来减轻肌成纤维细胞分化和肺纤维化的发展。

Azithromycin attenuates myofibroblast differentiation and lung fibrosis development through proteasomal degradation of NOX4.

机构信息

a Division of Respiratory Diseases, Department of Internal Medicine , Jikei University School of Medicine , Tokyo , Japan.

b Research Institute for Diseases of the Chest, Graduate School of Medical Sciences , Kyushu University , Fukuoka , Japan.

出版信息

Autophagy. 2017 Aug 3;13(8):1420-1434. doi: 10.1080/15548627.2017.1328348. Epub 2017 Jun 14.

DOI:10.1080/15548627.2017.1328348
PMID:28613983
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5584851/
Abstract

Accumulation of profibrotic myofibroblasts is involved in the process of fibrosis development during idiopathic pulmonary fibrosis (IPF) pathogenesis. TGFB (transforming growth factor β) is one of the major profibrotic cytokines for myofibroblast differentiation and NOX4 (NADPH oxidase 4) has an essential role in TGFB-mediated cell signaling. Azithromycin (AZM), a second-generation antibacterial macrolide, has a pleiotropic effect on cellular processes including proteostasis. Hence, we hypothesized that AZM may regulate NOX4 levels by modulating proteostasis machineries, resulting in inhibition of TGFB-associated lung fibrosis development. Human lung fibroblasts (LF) were used to evaluate TGFB-induced myofibroblast differentiation. With respect to NOX4 regulation via proteostasis, assays for macroautophagy/autophagy, the unfolded protein response (UPR), and proteasome activity were performed. The potential anti-fibrotic property of AZM was examined by using bleomycin (BLM)-induced lung fibrosis mouse models. TGFB-induced NOX4 and myofibroblast differentiation were clearly inhibited by AZM treatment in LF. AZM-mediated NOX4 reduction was restored by treatment with MG132, a proteasome inhibitor. AZM inhibited autophagy and enhanced the UPR. Autophagy inhibition by AZM was linked to ubiquitination of NOX4 via increased protein levels of STUB1 (STIP1 homology and U-box containing protein 1), an E3 ubiquitin ligase. An increased UPR by AZM was associated with enhanced proteasome activity. AZM suppressed lung fibrosis development induced by BLM with concomitantly reduced NOX4 protein levels and enhanced proteasome activation. These results suggest that AZM suppresses NOX4 by promoting proteasomal degradation, resulting in inhibition of TGFB-induced myofibroblast differentiation and lung fibrosis development. AZM may be a candidate for the treatment of the fibrotic lung disease IPF.

摘要

致纤维化肌成纤维细胞的积累参与了特发性肺纤维化 (IPF) 发病过程中的纤维化发展。TGFB(转化生长因子β)是肌成纤维细胞分化的主要促纤维化细胞因子之一,而 NOX4(NADPH 氧化酶 4)在 TGFB 介导的细胞信号转导中起着至关重要的作用。阿奇霉素 (AZM),一种第二代抗菌大环内酯类药物,对包括蛋白质稳态在内的细胞过程具有多效作用。因此,我们假设 AZM 可能通过调节蛋白质稳态机制来调节 NOX4 水平,从而抑制 TGFB 相关的肺纤维化发展。我们使用人肺成纤维细胞 (LF) 来评估 TGFB 诱导的肌成纤维细胞分化。关于通过蛋白质稳态调节 NOX4,进行了巨自噬/自噬、未折叠蛋白反应 (UPR) 和蛋白酶体活性测定。通过使用博来霉素 (BLM) 诱导的肺纤维化小鼠模型来检测 AZM 的潜在抗纤维化特性。AZM 处理明显抑制了 LF 中的 TGFB 诱导的 NOX4 和肌成纤维细胞分化。用蛋白酶体抑制剂 MG132 处理可恢复 AZM 介导的 NOX4 减少。AZM 抑制自噬并增强 UPR。AZM 通过增加 E3 泛素连接酶 STUB1(STIP1 同源和 U 盒包含蛋白 1)的蛋白水平,使 NOX4 发生泛素化,从而导致自噬抑制。AZM 增强的 UPR 与增强的蛋白酶体活性相关。AZM 抑制 BLM 诱导的肺纤维化发展,同时降低 NOX4 蛋白水平并增强蛋白酶体激活。这些结果表明,AZM 通过促进蛋白酶体降解来抑制 NOX4,从而抑制 TGFB 诱导的肌成纤维细胞分化和肺纤维化发展。AZM 可能是治疗纤维化肺部疾病 IPF 的候选药物。