二甲双胍通过抑制NOX4减轻肺纤维化的发展。

Metformin attenuates lung fibrosis development via NOX4 suppression.

作者信息

Sato Nahoko, Takasaka Naoki, Yoshida Masahiro, Tsubouchi Kazuya, Minagawa Shunsuke, Araya Jun, Saito Nayuta, Fujita Yu, Kurita Yusuke, Kobayashi Kenji, Ito Saburo, Hara Hiromichi, Kadota Tsukasa, Yanagisawa Haruhiko, Hashimoto Mitsuo, Utsumi Hirofumi, Wakui Hiroshi, Kojima Jun, Numata Takanori, Kaneko Yumi, Odaka Makoto, Morikawa Toshiaki, Nakayama Katsutoshi, Kohrogi Hirotsugu, Kuwano Kazuyoshi

机构信息

Division of Respiratory Diseases; Department of Internal Medicine, Jikei University School of Medicine, 3-25-8 Nishi-shimbashi, Minato-ku, Tokyo, 105-8461, Japan.

Department of Respiratory Medicine, Faculty of Life Science, Kumamoto University, Kumamoto, Japan.

出版信息

Respir Res. 2016 Aug 30;17(1):107. doi: 10.1186/s12931-016-0420-x.

DOI:10.1186/s12931-016-0420-x

PMID:27576730

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5006432/

Abstract

BACKGROUND

Accumulation of profibrotic myofibroblasts in fibroblastic foci (FF) is a crucial process for development of fibrosis during idiopathic pulmonary fibrosis (IPF) pathogenesis, and transforming growth factor (TGF)-β plays a key regulatory role in myofibroblast differentiation. Reactive oxygen species (ROS) has been proposed to be involved in the mechanism for TGF-β-induced myofibroblast differentiation. Metformin is a biguanide antidiabetic medication and its pharmacological action is mediated through the activation of AMP-activated protein kinase (AMPK), which regulates not only energy homeostasis but also stress responses, including ROS. Therefore, we sought to investigate the inhibitory role of metformin in lung fibrosis development via modulating TGF-β signaling.

METHODS

TGF-β-induced myofibroblast differentiation in lung fibroblasts (LF) was used for in vitro models. The anti-fibrotic role of metfromin was examined in a bleomycin (BLM)-induced lung fibrosis model.

RESULTS

We found that TGF-β-induced myofibroblast differentiation was clearly inhibited by metformin treatment in LF. Metformin-mediated activation of AMPK was responsible for inhibiting TGF-β-induced NOX4 expression. NOX4 knockdown and N-acetylcysteine (NAC) treatment illustrated that NOX4-derived ROS generation was critical for TGF-β-induced SMAD phosphorylation and myofibroblast differentiation. BLM treatment induced development of lung fibrosis with concomitantly enhanced NOX4 expression and SMAD phosphorylation, which was efficiently inhibited by metformin. Increased NOX4 expression levels were also observed in FF of IPF lungs and LF isolated from IPF patients.

CONCLUSIONS

These findings suggest that metformin can be a promising anti-fibrotic modality of treatment for IPF affected by TGF-β.

摘要

背景

在特发性肺纤维化（IPF）发病机制中，成纤维细胞灶（FF）中促纤维化肌成纤维细胞的积累是纤维化发展的关键过程，转化生长因子（TGF）-β在肌成纤维细胞分化中起关键调节作用。活性氧（ROS）被认为参与了TGF-β诱导的肌成纤维细胞分化机制。二甲双胍是一种双胍类抗糖尿病药物，其药理作用通过激活AMP激活的蛋白激酶（AMPK）介导，AMPK不仅调节能量稳态，还调节包括ROS在内的应激反应。因此，我们试图研究二甲双胍通过调节TGF-β信号通路对肺纤维化发展的抑制作用。

方法

以TGF-β诱导的肺成纤维细胞（LF）肌成纤维细胞分化作为体外模型。在博来霉素（BLM）诱导的肺纤维化模型中检测二甲双胍的抗纤维化作用。

结果

我们发现二甲双胍处理可明显抑制LF中TGF-β诱导的肌成纤维细胞分化。二甲双胍介导的AMPK激活负责抑制TGF-β诱导的NOX4表达。NOX4基因敲低和N-乙酰半胱氨酸（NAC）处理表明，NOX4产生的ROS对TGF-β诱导的SMAD磷酸化和肌成纤维细胞分化至关重要。BLM处理诱导肺纤维化发展，同时NOX4表达和SMAD磷酸化增强，而二甲双胍可有效抑制这一过程。在IPF肺的FF和从IPF患者分离的LF中也观察到NOX4表达水平升高。

结论

这些发现表明，二甲双胍可能是一种有前景的治疗受TGF-β影响的IPF的抗纤维化药物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f18a/5006432/b69e2013fed7/12931_2016_420_Fig1_HTML.jpg

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二甲双胍通过抑制NOX4减轻肺纤维化的发展。

Metformin attenuates lung fibrosis development via NOX4 suppression.

作者信息

机构信息

Division of Respiratory Diseases; Department of Internal Medicine, Jikei University School of Medicine, 3-25-8 Nishi-shimbashi, Minato-ku, Tokyo, 105-8461, Japan.

Department of Respiratory Medicine, Faculty of Life Science, Kumamoto University, Kumamoto, Japan.