Metformin reduces myogenic contracture and myofibrosis induced by rat knee joint immobilization via AMPK-mediated inhibition of TGF-β1/Smad signaling pathway.

IF 2.8 4区医学 Q3 CELL BIOLOGY

Connective Tissue Research Pub Date : 2023-01-01 DOI:10.1080/03008207.2022.2088365

Feng Wang, Chen Xu Zhou, Zhi Zheng, Du Juan Li, Wen Li, Yun Zhou

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引用次数: 7

Abstract

Purpose: The two structural components contributing to joint contracture formation are myogenic and arthrogenic contracture, and myofibrosis is an important part of myogenic contracture. Myofibrosis is a response to long-time immobilization and is described as a condition with excessive deposition of endomysial and perimysial connective tissue components in skeletal muscle. The purpose of this study was to confirm whether metformin can attenuate the formation of myogenic contracture and myofibrosis through the phosphorylation level of adenosine monophosphate-activated protein kinase (AMPK) and inhabitation of subsequent transforming growth factor beta (TGF-β) 1/Smad signaling pathway.

Materials and methods: An immobilized rat model was used to determine whether metformin could inhibit myogenic contracture and myofibrosis. The contents of myogenic contracture of knee joint was calculated by measuring instrument of range of motion (ROM), and myofibrosis of rectus femoris were determined by ultrasound shear wave elastography and Masson staining. Protein expression of AMPK and subsequent TGF-β1/Smad signaling pathway were determined by western blot. Subsequently, Compound C, a specific AMPK inhibitor, was used to further clarify the role of the AMPK-mediated inhibition of TGF-β1/Smad signaling pathway.

Results: We revealed that the levels of myogenic contracture and myofibrosis were gradually increased during immobilization, and overexpression of TGF-β1-induced formation of myofibrosis by activating Smad2/3 phosphorylation. Activation of AMPK by metformin suppressed overexpression of TGF-β1 and TGF-β1-induced Smad2/3 phosphorylation, further reducing myogenic contracture and myofibrosis during immobilization. In contrast, inhibition of AMPK by Compound C partially counteracted the inhibitory effect of TGF-β1/Smad signaling pathway by metformin.

Conclusion: Notably, we first illustrated the therapeutic effect of metformin through AMPK-mediated inhibition of TGF-β1/Smad signaling pathway in myofibrosis, which may provide a new therapeutic strategy for myogenic contracture.

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二甲双胍通过ampk介导的TGF-β1/Smad信号通路抑制大鼠膝关节固定所致的肌原性挛缩和肌纤维化。

目的:导致关节挛缩形成的两种结构成分是肌原性挛缩和关节原性挛缩，而肌纤维化是肌原性挛缩的重要组成部分。肌纤维化是对长期固定的反应，被描述为骨骼肌肌内膜和膜周结缔组织成分过度沉积的一种情况。本研究的目的是证实二甲双胍是否可以通过腺苷单磷酸活化蛋白激酶(AMPK)的磷酸化水平和随后转化生长因子β (TGF-β) 1/Smad信号通路的激活来减轻肌原性挛缩和肌纤维化的形成。材料与方法:采用固定化大鼠模型，观察二甲双胍对肌原性挛缩和肌纤维化的抑制作用。采用关节活动度测量仪(ROM)计算膝关节肌原性挛缩的含量，采用超声剪切波弹性成像和马松染色法测定股直肌肌纤维化情况。western blot检测AMPK及TGF-β1/Smad信号通路的蛋白表达。随后，我们利用特异性AMPK抑制剂化合物C进一步阐明AMPK介导的对TGF-β1/Smad信号通路的抑制作用。结果:我们发现，肌原性挛缩和肌纤维化水平在固定期间逐渐升高，TGF-β1的过表达通过激活Smad2/3磷酸化诱导肌纤维化的形成。二甲双胍激活AMPK抑制TGF-β1的过表达和TGF-β1诱导的Smad2/3磷酸化，进一步减少固定期间的肌原性挛缩和肌纤维化。相反，化合物C对AMPK的抑制作用部分抵消了二甲双胍对TGF-β1/Smad信号通路的抑制作用。结论:值得注意的是，我们首次阐明了二甲双胍通过ampk介导抑制TGF-β1/Smad信号通路在肌纤维化中的治疗作用，这可能为肌原性挛缩提供新的治疗策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Connective Tissue Research 生物-细胞生物学

CiteScore

6.60

自引率

3.40%

发文量

审稿时长

2 months

期刊介绍： The aim of Connective Tissue Research is to present original and significant research in all basic areas of connective tissue and matrix biology. The journal also provides topical reviews and, on occasion, the proceedings of conferences in areas of special interest at which original work is presented. The journal supports an interdisciplinary approach; we present a variety of perspectives from different disciplines, including Biochemistry Cell and Molecular Biology Immunology Structural Biology Biophysics Biomechanics Regenerative Medicine The interests of the Editorial Board are to understand, mechanistically, the structure-function relationships in connective tissue extracellular matrix, and its associated cells, through interpretation of sophisticated experimentation using state-of-the-art technologies that include molecular genetics, imaging, immunology, biomechanics and tissue engineering.