[Mechanisms of the Anti-Fibrotic Effect of Ginsenoside Rh₁ on Hepatic Fibrosis].

Q3 Medicine

四川大学学报(医学版) Pub Date : 2025-01-20 DOI:10.12182/20250160203

Xuan Chen, Sai Yang, Bo Nan, Jisheng Ma, Yanfang Wang

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引用次数: 0

Abstract

Objective: To investigate whether ginsenoside Rh₁ (G-Rh₁) can alleviate liver fibrosis induced by a choline-deficient, L-amino acid-defined, high-fat diet (CDAHFD) and to explore its underlying mechanisms.

Methods: Male C57BL/6J mice were randomly divided into 6 groups (n = 8 in each group), including a standard diet group (or the control group), a high-fat diet group (or the CDAHFD group), a silymarin group (given silymarin at 5 mg/kg), a low-dose G-Rh₁ group (given G-Rh₁ at 5 mg/kg), a medium-dose G-Rh₁ group (given G-Rh₁ at 10 mg/kg), and a high-dose G-Rh₁ group (given G-Rh₁ at 20 mg/kg). The control group was given a standard feed, while the other groups were fed CDAHFD for 7 weeks to establish the mouse model of liver fibrosis. Starting from the first week, the mice in the treatment groups were administered the corresponding drugs by intragastric gavage once daily for 7 weeks in succession. After the administration of the final drug treatment, the body mass and organ mass of the mice in different groups were measured, and the organ index was obtained according. Liver tissues were examined using HE staining, Sirius red staining, and immunohistochemistry (IHC) staining. Western blot was performed to measure α-smooth muscle actin (α-SMA) and transforming growth factor-β₁ (TGF-β₁), two liver fibrosis-related proteins, and fibroblast growth factor 12 (FGF-12), a pathway-related protein. The serum biochemical indicators, including aspartate transferase (AST), alanine aminotransferase (ALT), total bilirubin (TBIL), and direct bilirubin (DBIL), were measured. Additionally, RAW246.7 cells were randomly divided into 5 groups, including a control group, a lipopolysaccharide (LPS) group, and 3 G-Rh₁ treatment groups. The control group had only RAW246.7 cells in the culture medium. The other groups were given LPS (500 ng/mL), and the 3 treatment groups received G-Rh₁ at 10, 20, and 40 μmol/L in addition. The supernatants from the 5 groups of RAW246.7 cells were collected and cocultured with HSC-T6 cells for 24 hours to observe and compare the effects of G-Rh₁ and LPS on the expression of fibrosis-related proteins, including α-SMA, Col1a1, etc, in HSC-T6 cells and on the expression of fibrotic signaling pathway-related proteins, including fibroblast growth factor 12 (FGF-12) and signal transducer and activator of transcription 3 (STAT3)/phosphorylated STAT3 (p-STAT3), in RAW264.7 cells. Flow cytometry was conducted to analyze the phenotypes of RAW246.7 cells, and ELISA was performed to measure fibrosis-related factors, including monocyte chemoattractant protein-1 (MCP-1) and transforming growth factor-β (TGF-β).

Results: Compared with the control mice, the mice in the CDAHFD group exhibited obvious liver fibrosis. Compared with CDAHFD mice, mice in the G-Rh₁ treatment groups all showed alleviation of liver fibrosis of was alleviated to some extent in a dose-dependent manner, and the improvement effect was superior to that of silymarin, a reference drug. G-Rh1 also alleviated CDAHFD-induced body mass loss (P < 0.01), reduced the liver index (P < 0.01), and significantly decreased the serum levels of AST, ALT, DBIL, and TBIL (P < 0.0001). Significant differences in the protein expression of α-SMA, TGF-β₁, and FGF-12 in the liver were observed (P < 0.01). Compared with the LPS group, the LPS + G-Rh₁ groups exhibited significant differences in the expression of FGF-12 and p-STAT3/STAT3 in RAW246.7 cells, and α-SMA and Col1a1 in HSC-T6 cells (P < 0.001). In the LPS + G-Rh₁ groups (the 20 μmol/L and 40 μmol/L treatment groups), the conversion ratio of Ly6C-low expressing RAW246.7 cells into Ly6C-high expressing RAW246.7 cells decreased significantly (P < 0.0001), while the secretion of fibrosis-related factors MCP-1 and TGF-β decreased (P < 0.0001), which was consistent with the trend of the activation levels of HSC-T6 cells.

Conclusions: G-Rh₁ can prevent and improve CDAHFD-induced liver fibrosis in mice, potentially through mechanisms involving the reduction of RAW264.7 phenotype transformation mediated by FGF-12 overexpression.

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[人参皂苷Rh1抗肝纤维化作用机制研究]。

目的：探讨人参皂苷Rh1 （G-Rh1）是否能减轻胆碱缺乏、l -氨基酸定义的高脂肪饮食（CDAHFD）所致的肝纤维化，并探讨其机制。方法：雄性C57BL/6J小鼠随机分为6组，每组8只，分别为标准饲粮组（或对照组）、高脂饲粮组（或CDAHFD组）、水飞蓟素组（水飞蓟素5 mg/kg）、低剂量G-Rh1组（G-Rh1 5 mg/kg）、中剂量G-Rh1组（G-Rh1 10 mg/kg）、高剂量G-Rh1组（G-Rh1 20 mg/kg）。对照组给予标准饲料，其余各组饲喂CDAHFD，连续7周建立小鼠肝纤维化模型。从第1周开始，给药组小鼠灌胃相应药物，每天1次，连续7周。给药结束后，测量各组小鼠的体重和脏器质量，得出脏器指数。肝组织采用HE染色、天狼星红染色和免疫组化（IHC）染色。Western blot检测肝纤维化相关蛋白α-平滑肌肌动蛋白（α-SMA）、转化生长因子-β1 （TGF-β1）及通路相关蛋白成纤维细胞生长因子12 （FGF-12）。测定血清生化指标，包括天冬氨酸转移酶（AST）、丙氨酸转氨酶（ALT）、总胆红素（TBIL）、直接胆红素（DBIL）。将RAW246.7细胞随机分为5组，包括对照组、脂多糖（LPS）组和3个G-Rh1处理组。对照组培养基中只有RAW246.7细胞。其余组给予LPS (500 ng/mL)， 3个处理组在此基础上分别给予10、20、40 μmol/L的G-Rh1。收集5组RAW246.7细胞上清液，与HSC-T6细胞共培养24h，观察比较G-Rh1和LPS对HSC-T6细胞中α-SMA、Col1a1等纤维化相关蛋白表达的影响，以及对RAW264.7细胞中成纤维细胞生长因子12 （FGF-12）、转录信号传导激活因子3 (STAT3)/磷酸化STAT3 （p-STAT3）等纤维化信号通路相关蛋白表达的影响。采用流式细胞术分析RAW246.7细胞表型，ELISA检测纤维化相关因子，包括单核细胞趋化蛋白-1 （MCP-1）和转化生长因子-β (TGF-β)。结果：与对照组相比，CDAHFD组小鼠肝纤维化明显。与CDAHFD小鼠相比，G-Rh1治疗组小鼠的肝纤维化均有一定程度的缓解，且呈剂量依赖性，改善效果优于对照药水飞蓟素。G-Rh1还能减轻cdahfd引起的体重损失（P < 0.01），降低肝脏指数（P < 0.01），显著降低血清AST、ALT、DBIL和TBIL水平（P < 0.0001）。肝组织α-SMA、TGF-β1、FGF-12蛋白表达差异有统计学意义（P < 0.01）。与LPS组比较，LPS + G-Rh1组RAW246.7细胞中FGF-12和P -STAT3/STAT3的表达以及HSC-T6细胞中α-SMA和Col1a1的表达差异均有统计学意义（P < 0.001）。LPS + G-Rh1组（20 μmol/L和40 μmol/L处理组）低表达ly6c的RAW246.7细胞转化为高表达ly6c的RAW246.7细胞的比例显著降低（P < 0.0001），纤维化相关因子MCP-1和TGF-β的分泌减少（P < 0.0001），这与HSC-T6细胞活化水平的变化趋势一致。结论：G-Rh1可以预防和改善cdahfd诱导的小鼠肝纤维化，其机制可能与减少FGF-12过表达介导的RAW264.7表型转化有关。

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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来源期刊

四川大学学报(医学版) Biochemistry, Genetics and Molecular Biology-Molecular Biology

CiteScore

0.70

自引率

0.00%

发文量

8695

期刊介绍： "Journal of Sichuan University (Medical Edition)" is a comprehensive medical academic journal sponsored by Sichuan University, a higher education institution directly under the Ministry of Education of the People's Republic of China. It was founded in 1959 and was originally named "Journal of Sichuan Medical College". In 1986, it was renamed "Journal of West China University of Medical Sciences". In 2003, it was renamed "Journal of Sichuan University (Medical Edition)" (bimonthly). "Journal of Sichuan University (Medical Edition)" is a Chinese core journal and a Chinese authoritative academic journal (RCCSE). It is included in the retrieval systems such as China Science and Technology Papers and Citation Database (CSTPCD), China Science Citation Database (CSCD) (core version), Peking University Library's "Overview of Chinese Core Journals", the U.S. "Index Medica" (IM/Medline), the U.S. "PubMed Central" (PMC), the U.S. "Biological Abstracts" (BA), the U.S. "Chemical Abstracts" (CA), the U.S. EBSCO, the Netherlands "Abstracts and Citation Database" (Scopus), the Japan Science and Technology Agency Database (JST), the Russian "Abstract Magazine", the Chinese Biomedical Literature CD-ROM Database (CBMdisc), the Chinese Biomedical Periodical Literature Database (CMCC), the China Academic Journal Network Full-text Database (CNKI), the Chinese Academic Journal (CD-ROM Edition), and the Wanfang Data-Digital Journal Group.