Anti-fibrosis effect and its mechanism of atractylenolide III on post-traumatic extending knee joint contracture in rats

IF 4.3

Experimental gerontology Pub Date : 2025-02-12 DOI:10.1016/j.exger.2025.112708

Bin-Bin Zhang , Lei Xu , Quan-Bing Zhang , Yan Wang , Chen Chen , Jin-Niu Zhang , Xian-Liang Rao , Bing-Jing Zhu , Xue-Ming Li , De-Ting Zhu , Xiu-Li Kan , Jing Mao , Run Zhang , Yun Zhou

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引用次数: 0

Abstract

Objectives

Atractylenolide III (ATL III) is the major bioactive component found in Atractylodes macrocephala, which has shown a range of benefits in pharmacological studies, including neuroprotection, anti-neuroinflammatory properties, antioxidant effects, anti-allergic effects, anti-cancer properties and antifibrotic abilities. Here, we investigated the therapeutic potential and underlying mechanisms of ATL III in the treatment of post-traumatic joint contracture (PTJC) in rat knees.

Methods

The rat PTJC model and TGF-β1-induced a primary synovial fibroblast model were used to observe several fibrotic markers (α-SMA、TGF-β1、FGF2、COL1A1and COL3A1) using histological staining, immunofluorescence and western blot. Additionally, the effects of ATL III on synovial fibroblasts in vitro were evaluated through CCK-8 assays and migration assays to ascertain both cell viability and migratory behaviors. Furthermore, molecular docking studies were performed to elucidate the potential binding affinity of ATL III for Silent information regulator of transcription 1 (Sirt1), thereby providing insights into the underlying molecular mechanisms implicated in fibrosis modulation.

Results

ATL III treatment was observed to reduce proliferating cells, inflammatory cells and collagen accumulation in a rat model of traumatic rat knee fibrosis. In vitro, ATL III treatment was found to significantly reduce fibrosis and collagen-associated protein expression and inhibit synovial fibroblast proliferation and migration. Molecular docking identified Sirt1 as a potential target of ATL III. Interestingly, Sirt1 and Smad3 can interact and act to deacetylate Smad3, and in vitro and in vivo ATL III treatment significantly reduced Smad3 acetylation levels.

Conclusion

ATL III produces a therapeutic effect on knee fibrosis probably because Sirt1 deacetylates Smad3 and thus relieves knee fibrosis in rats.

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白术内酯III对大鼠外伤性延伸性膝关节挛缩的抗纤维化作用及其机制。

目的：苍术内酯III （ATL III）是在苍术中发现的主要生物活性成分，在药理学研究中显示出一系列的益处，包括神经保护、抗神经炎症、抗氧化、抗过敏、抗癌和抗纤维化能力。在这里，我们研究了ATL III治疗大鼠膝关节创伤后关节挛缩（PTJC）的治疗潜力和潜在机制。方法：采用大鼠PTJC模型和TGF-β1诱导的原代滑膜成纤维细胞模型，采用组织学染色、免疫荧光和western blot观察α-SMA、TGF-β1、FGF2、col1a1、COL3A1等纤维化标志物。此外，通过CCK-8实验和迁移实验评估ATL III对体外滑膜成纤维细胞的影响，以确定细胞活力和迁移行为。此外，进行了分子对接研究，以阐明ATL III对转录沉默信息调节剂1 （Sirt1）的潜在结合亲和力，从而深入了解与纤维化调节有关的潜在分子机制。结果：观察到ATL III治疗可减少创伤性大鼠膝关节纤维化模型中的增殖细胞、炎症细胞和胶原积累。在体外，ATL III治疗可显著降低纤维化和胶原相关蛋白的表达，抑制滑膜成纤维细胞的增殖和迁移。分子对接发现Sirt1是ATL III的潜在靶点。有趣的是，Sirt1和Smad3可以相互作用并作用于Smad3去乙酰化，体外和体内ATL III治疗显著降低Smad3乙酰化水平。结论：ATL III对大鼠膝关节纤维化的治疗作用可能与Sirt1使Smad3去乙酰化从而减轻大鼠膝关节纤维化有关。

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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