系统药理学探索人参防治心力衰竭的潜在机制。

Kai Gao, Dong Xu, Fei Mu, Meina Zhao, Wei Zhang, Xingru Tao, Chao Guo, Jingwen Wang
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引用次数: 0

摘要

本研究旨在阐明人参对心力衰竭(HF)的药理机制,为人参的临床应用提供理论基础。研究人员利用系统药理学,结合网络药理学、基因表达总库(GEO)分析、分子对接和实验验证,对人参治疗心力衰竭的潜在机制进行了研究。网络药理学用于确定药物-疾病靶点。随后,通过整合网络药理学和 GEO,对核心基因靶点进行了富集分析。利用分子对接预测了已确定靶点与人参化合物之间的结合亲和力。此外,还在异丙肾上腺素(ISO)诱导的大鼠高频模型中验证了人参的疗效。人参对关键信号通路的调节通过 Western 印迹分析得到了证实。通过网络药理学分析,共发现了人参治疗高血压的154个潜在靶点。对GSE71613的分析表明,PI3K-Akt通路、活性氧、氧化磷酸化、MAPK信号转导和Ras信号转导通路主要与心房颤动患者有关。通过整合网络药理学和 GEO 分析的结果,人参皂苷 Rg1 和人参皂苷 Rb3 被确认为人参中的潜在成分,而 FN1 和 PRKAA2 被确认为分别参与 PI3K-AKT 和 AMPK 通路的关键靶点。分子对接分析表明,人参中的潜在成分与已确定的核心靶点之间具有很强的亲和力。体内实验表明,人参提取物(EPG)通过改善心脏参数,如左心室收缩内径、左心室舒张末期容积、左心室收缩末期容积和左心室射血分数,显著改善了 ISO 诱导的心功能障碍,同时还减少了丙二醛的产生。此外,EPG 还能提高超氧化物歧化酶活性和 ATP 水平,同时降低白细胞介素 (IL)-1β、IL-6 和 TNF-α 的水平。提取物还能降低心肌耗氧量、炎症细胞浸润和受损心肌纤维的数量。此外,还观察到 EPG 能上调 p-PI3K、p-AKT、p-AMPK 和 Bcl-2 的表达,同时下调 p-NFκB、TGF-β 和 Bax 的表达。人参对高血压的治疗作用主要是通过 PI3K-Akt 和 AMPK 途径介导的。人参皂苷 Rg1 和人参皂苷 Rb3 已被确定为治疗高血压的潜在药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Systems Pharmacology to Explore the Potential Mechanism of Ginseng Against Heart Failure.

The aim of this study is to elucidate the pharmacological mechanism underlying the effects of Ginseng Radix et Rhizoma (ginseng) in heart failure (HF), providing a theoretical foundation for its clinical application. The potential mechanism of ginseng in the context of HF was investigated using systems pharmacology that combined network pharmacology, Gene Expression Omnibus (GEO) analysis, molecular docking, and experimental verification. Network pharmacology was employed to identify drug-disease targets. Core gene targets were subsequently subjected to enrichment analysis by integrating network pharmacology with GEO. Molecular docking was utilized to predict the binding affinities between identified targets and ginseng compounds. Furthermore, the therapeutic efficacy of ginseng was validated in an isoproterenol (ISO)-induced rat model of HF. The modulation of key signaling pathways by ginseng was confirmed through Western blot analysis. A total of 154 potential targets of ginseng in the treatment of HF were identified through network pharmacology analysis. The analysis of GSE71613 revealed that the PI3K-Akt pathway, reactive oxygen species, oxidative phosphorylation, MAPK signaling, and Ras signaling pathways are predominantly associated with patients with HF. By integrating the findings from network pharmacology and GEO analysis, ginsenoside Rg1 and ginsenoside Rb3 were identified as the potential components in ginseng, while FN1 and PRKAA2 were recognized as key targets involved in the PI3K-AKT and AMPK pathways, respectively. Molecular docking analysis revealed a strong affinity between the potential components and the identified core targets. In vivo experiments indicated that the extract of ginseng (EPG) significantly ameliorated ISO-induced cardiac dysfunction by improving cardiac parameters such as cardiac left ventricular internal systolic diameter, left ventricular end-diastolic volume, left ventricular end systolic volume, and left ventricular ejection fraction, while also reducing malondialdehyde production. In addition, EPG was found to enhance superoxide dismutase activity and ATP levels, while concurrently reducing the levels of interleukin (IL)-1β, IL-6, and TNF-α. The extract also reduced myocardial oxygen consumption, inflammatory cell infiltration, and the number of damaged myocardial fibers. Moreover, EPG was observed to upregulate the expression of p-PI3K, p-AKT, p-AMPK, and Bcl-2, while downregulating the expression of p-NFκB, TGF-β, and Bax. The therapeutic effects of ginseng on HF are primarily mediated through the PI3K-Akt and AMPK pathways. Ginsenoside Rg1 and ginsenoside Rb3 have been identified as potential therapeutic agents for HF.

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