Honglin Xu , Haifeng Miao , Guanghong Chen , Guoyong Zhang , Yue Hua , Yuting Wu , Tong Xu , Xin Han , Changlei Hu , Mingjie Pang , Leyi Tan , Bin Liu , Yingchun Zhou
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Echocardiography, hematoxlin-eosin and Masson staining, Western-blot and immunohistochemistry, CCK8 and Edu were used to study the effects of Rg3 on myocardial fibrosis and TGFBR1 signaling. The combination mechanism of Rg3 and TGFBR1 was explored by surface plasmon resonance imaging (SPRi). Moreover, myocardial <em>Tgfbr1</em>-deficient mice and TGFBR1 adenovirus were adopted to confirm the pharmacological mechanism of Rg3.</p></div><div><h3>Results</h3><p><em>In vivo</em> experiments, Rg3 ameliorated myocardial fibrosis and hypertrophy and enhanced cardiac function. Rg3-TGFBR1 had the 1.78 × 10<sup>−7</sup> M equilibrium dissociation constant based on SPRi analysis, and Rg3 inhibited the activation of TGFBR1/Smads signaling dose-dependently. Cardiac-specific <em>Tgfbr1</em> knockdown abolished Rg3's protection against myocardial fibrosis post-MI. In addition, Rg3 down-regulated the TGF-β1-mediated CFs growth together with collagen production <em>in vitro</em> through TGFBR1 signaling. Moreover, TGFBR1 adenovirus partially blocked the inhibitory effect of Rg3.</p></div><div><h3>Conclusion</h3><p>Rg3 improves myocardial fibrosis and cardiac function through suppressing CFs proliferation along with collagen deposition by inactivation of TGFBR1 pathway.</p></div>","PeriodicalId":16035,"journal":{"name":"Journal of Ginseng Research","volume":null,"pages":null},"PeriodicalIF":6.8000,"publicationDate":"2023-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1226845323000738/pdfft?md5=233d9e4efb492af19ea96fd3ad09020b&pid=1-s2.0-S1226845323000738-main.pdf","citationCount":"0","resultStr":"{\"title\":\"20(S)-ginsenoside Rg3 exerts anti-fibrotic effect after myocardial infarction by alleviation of fibroblasts proliferation and collagen deposition through TGFBR1 signaling pathways\",\"authors\":\"Honglin Xu , Haifeng Miao , Guanghong Chen , Guoyong Zhang , Yue Hua , Yuting Wu , Tong Xu , Xin Han , Changlei Hu , Mingjie Pang , Leyi Tan , Bin Liu , Yingchun Zhou\",\"doi\":\"10.1016/j.jgr.2023.06.007\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>Myocardial fibrosis post-myocardial infarction (MI) can induce maladaptive cardiac remodeling as well as heart failure. 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引用次数: 0
摘要
心肌梗死后心肌纤维化可引起心脏重构不良和心力衰竭。虽然20(S)-人参皂苷Rg3 (Rg3)已被应用于心血管疾病,但其在心肌纤维化中的疗效和具体分子机制尚不清楚。在此,我们旨在探讨TGFBR1信号是否参与Rg3在心肌梗死后的抗纤维化作用。方法采用左前降支冠脉结扎诱导心肌梗死小鼠和TGF-β1刺激的原代心肌成纤维细胞(CFs)。采用超声心动图、苏木精-伊红和Masson染色、Western-blot和免疫组织化学、CCK8和Edu研究Rg3对心肌纤维化和TGFBR1信号通路的影响。采用表面等离子体共振成像(SPRi)技术探讨Rg3与TGFBR1的结合机制。此外,采用心肌TGFBR1缺陷小鼠和TGFBR1腺病毒验证Rg3的药理机制。结果在体内实验中,Rg3能改善心肌纤维化和肥厚,增强心功能。根据SPRi分析,Rg3-TGFBR1的平衡解离常数为1.78 × 10−7 M, Rg3抑制TGFBR1/Smads信号通路的激活呈剂量依赖性。心脏特异性Tgfbr1敲低可消除Rg3对心肌梗死后心肌纤维化的保护作用。此外,Rg3通过TGFBR1信号通路下调TGF-β1介导的体外CFs生长及胶原生成。此外,TGFBR1腺病毒部分阻断了Rg3的抑制作用。结论rg3通过灭活TGFBR1通路,抑制CFs增殖和胶原沉积,改善心肌纤维化和心功能。
20(S)-ginsenoside Rg3 exerts anti-fibrotic effect after myocardial infarction by alleviation of fibroblasts proliferation and collagen deposition through TGFBR1 signaling pathways
Background
Myocardial fibrosis post-myocardial infarction (MI) can induce maladaptive cardiac remodeling as well as heart failure. Although 20(S)-ginsenoside Rg3 (Rg3) has been applied to cardiovascular diseases, its efficacy and specific molecular mechanism in myocardial fibrosis are largely unknown. Herein, we aimed to explore whether TGFBR1 signaling was involved in Rg3's anti-fibrotic effect post-MI.
Methods
Left anterior descending (LAD) coronary artery ligation-induced MI mice and TGF-β1-stimulated primary cardiac fibroblasts (CFs) were adopted. Echocardiography, hematoxlin-eosin and Masson staining, Western-blot and immunohistochemistry, CCK8 and Edu were used to study the effects of Rg3 on myocardial fibrosis and TGFBR1 signaling. The combination mechanism of Rg3 and TGFBR1 was explored by surface plasmon resonance imaging (SPRi). Moreover, myocardial Tgfbr1-deficient mice and TGFBR1 adenovirus were adopted to confirm the pharmacological mechanism of Rg3.
Results
In vivo experiments, Rg3 ameliorated myocardial fibrosis and hypertrophy and enhanced cardiac function. Rg3-TGFBR1 had the 1.78 × 10−7 M equilibrium dissociation constant based on SPRi analysis, and Rg3 inhibited the activation of TGFBR1/Smads signaling dose-dependently. Cardiac-specific Tgfbr1 knockdown abolished Rg3's protection against myocardial fibrosis post-MI. In addition, Rg3 down-regulated the TGF-β1-mediated CFs growth together with collagen production in vitro through TGFBR1 signaling. Moreover, TGFBR1 adenovirus partially blocked the inhibitory effect of Rg3.
Conclusion
Rg3 improves myocardial fibrosis and cardiac function through suppressing CFs proliferation along with collagen deposition by inactivation of TGFBR1 pathway.
期刊介绍:
Journal of Ginseng Research (JGR) is an official, open access journal of the Korean Society of Ginseng and is the only international journal publishing scholarly reports on ginseng research in the world. The journal is a bimonthly peer-reviewed publication featuring high-quality studies related to basic, pre-clinical, and clinical researches on ginseng to reflect recent progresses in ginseng research.
JGR publishes papers, either experimental or theoretical, that advance our understanding of ginseng science, including plant sciences, biology, chemistry, pharmacology, toxicology, pharmacokinetics, veterinary medicine, biochemistry, manufacture, and clinical study of ginseng since 1976. It also includes the new paradigm of integrative research, covering alternative medicinal approaches. Article types considered for publication include review articles, original research articles, and brief reports.
JGR helps researchers to understand mechanisms for traditional efficacy of ginseng and to put their clinical evidence together. It provides balanced information on basic science and clinical applications to researchers, manufacturers, practitioners, teachers, scholars, and medical doctors.
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