IBS008738, a TAZ activator, facilitates muscle repair and inhibits muscle injury in a mouse model of sport-induced injury.

IF 2 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Cytotechnology Pub Date : 2025-02-01 Epub Date: 2024-11-19 DOI:10.1007/s10616-024-00667-6

Yiming Wang, Datian Liu, Sining Wang, Yiliang Li, Guanming Liu

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Abstract

High-intensity exercise can cause excessive generation of ROS and induce oxidative stress injury in the body, which is a major reason accounting for muscle damage following exercise. The previous study demonstrated that IBS008738, the activator of TZA, was able to enhance myogenesis in mouse myogenic C2C12 cells, prevent dexamethasone-induced muscle atrophy, and facilitate muscle repair in cardiotoxin-induced muscle injury. Accordingly, our study was designed to probe into the potential role of IBS008738 in muscle damage in mouse models induced by high-intensity exercise. Mice were first administrated with IBS008738, and then subjected to high-intensity eccentric exercise to induce muscle damage after 24 h. During the experiment, mouse weight change and food take were recorded. At the end of the experiment, blood samples were collected through cardiac puncture and centrifugated. Serum levels of blood urea nitrogen (BUN), creatinine, glucose, lactate dehydrogenase (LDH), creatinine kinase (CK), and C-related protein were evaluated using an autoanalyzer. After mice were sacrificed, the gastrocnemius muscles were dissected for DCFH-DA assay of ROS generation, thiobarbituric acid-reactive substances (TBARS) assay of MDA content, hematoxylin-eosin (H&E) staining of histological examination, and western blotting analysis of Akt/mTOR/S6K1 signaling expression. IBS008738 and/or exercise exert significant effects on mouse weight and food take. High-intensity exercise markedly increased ROS generation and lipid peroxidation, upregulated serum levels of CK, LDH, and C-related protein, ameliorated muscle histological damage, and reduced TAZ, phosphorylated (p)-Akt, p-mTOR, and p-S6K1 protein levels in mice. However, IBS008738 administration reversed the above changes induced by high-intensity exercise in mice. IBS008738 alleviates oxidative stress and muscle damage in mice after high-intensity exercise by activating TAZ and the Akt/mTOR/S6K1 signaling pathway.

Supplementary information: The online version contains supplementary material available at 10.1007/s10616-024-00667-6.

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IBS008738 是一种 TAZ 激活剂，它能促进小鼠运动损伤模型中的肌肉修复并抑制肌肉损伤。

高强度运动会导致体内产生过多的ROS，诱发氧化应激损伤，这是运动后肌肉损伤的主要原因。之前的研究表明，TZA的激活剂IBS008738能够增强小鼠肌原性C2C12细胞的肌生成，防止地塞米松诱导的肌肉萎缩，并促进心脏毒素诱导的肌肉损伤的肌肉修复。因此，我们的研究旨在探究 IBS008738 在高强度运动诱导的小鼠模型肌肉损伤中的潜在作用。首先给小鼠注射 IBS008738，然后进行高强度偏心运动，24 小时后诱导肌肉损伤。实验结束后，通过心脏穿刺采集血液样本并离心。使用自动分析仪评估血清中血尿素氮（BUN）、肌酐、葡萄糖、乳酸脱氢酶（LDH）、肌酸激酶（CK）和 C 相关蛋白的水平。小鼠被处死后，解剖腓肠肌，用 DCFH-DA 法测定 ROS 的产生，用硫代巴比妥酸反应物质（TBARS）法测定 MDA 的含量，用苏木精-伊红（H&E）染色法进行组织学检查，用 Western 印迹法分析 Akt/mTOR/S6K1 信号的表达。IBS008738和/或运动对小鼠体重和摄食量有显著影响。高强度运动明显增加了 ROS 的产生和脂质过氧化，上调了 CK、LDH 和 C 相关蛋白的血清水平，改善了肌肉组织学损伤，降低了 TAZ、磷酸化 (p)-Akt、p-mTOR 和 p-S6K1 蛋白水平。然而，服用 IBS008738 可逆转高强度运动引起的小鼠上述变化。IBS008738通过激活TAZ和Akt/mTOR/S6K1信号通路，减轻了小鼠高强度运动后的氧化应激和肌肉损伤：在线版本包含补充材料，可查阅 10.1007/s10616-024-00667-6。

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

Cytotechnology 生物-生物工程与应用微生物

CiteScore

4.10

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The scope of the Journal includes: 1. The derivation, genetic modification and characterization of cell lines, genetic and phenotypic regulation, control of cellular metabolism, cell physiology and biochemistry related to cell function, performance and expression of cell products. 2. Cell culture techniques, substrates, environmental requirements and optimization, cloning, hybridization and molecular biology, including genomic and proteomic tools. 3. Cell culture systems, processes, reactors, scale-up, and industrial production. Descriptions of the design or construction of equipment, media or quality control procedures, that are ancillary to cellular research. 4. The application of animal/human cells in research in the field of stem cell research including maintenance of stemness, differentiation, genetics, and senescence, cancer research, research in immunology, as well as applications in tissue engineering and gene therapy. 5. The use of cell cultures as a substrate for bioassays, biomedical applications and in particular as a replacement for animal models.