Calycosin alleviates myocardial fibrosis after myocardial infarction by restoring fatty acid metabolism homeostasis through inhibiting FAP

IF 6.7 1区医学 Q1 CHEMISTRY, MEDICINAL

Phytomedicine Pub Date : 2025-07-03 DOI:10.1016/j.phymed.2025.157045

Shu-Ning Sun , Xin Liu , Xing-Ling Chen , Shu-Lin Liang , Jin Li , Hui-Li Liao , Hong-Cheng Fang , Shi-Hao Ni , Yue Li , Lu Lu , Zhong-Qi Yang , Hui Wu , Ling-Jun Wang

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引用次数: 0

Abstract

Background

Myocardial fibrosis is a pivotal pathological mechanism underlying heart failure (HF) following myocardial infarction (MI). Natural herbal compounds exhibit great potential for anti-fibrotic applications, thereby warranting further in-depth investigation and development.

Objective

To find the critical gene characteristic of the early myocardial fibrosis following MI and identify the specifically targeted natural herbal compounds.

Methods

Through bioinformatics analysis and molecular phenotypic screening combined with various drug target validation methods, we sought to identify key fibrosis regulatory factors and related targeted natural herbal components. RNA-seq analysis was employed to explore potential downstream mechanisms. Both in vitro and in vivo experiments were conducted to evaluate the effects of FAP and Calycosin (CA) on fibrosis and lipid metabolism phenotypes in fibroblasts and cardiac tissues.

Results

RNA-Seq analysis revealed FAP as a core regulator of early post-MI fibrosis. CA, a natural herbal compound, could effectively inhibit FAP, thereby improving post-MI cardiac dysfunction via regulating FAP-mediated myocardial fibrosis. Further investigations demonstrated the pro-fibrotic efficacy of FAP may be closely related to its induction of lipid metabolic disorders. Correcting fatty acid (FA) metabolic disorders could abolish the pro-fibrotic effects of FAP. CA could ameliorate FA metabolic disorders in fibroblasts and cardiac tissues by inhibiting FAP. PPARα may be a downstream target of FAP to induce FA metabolic disorders, and CA could restore cardiac PPARα expression level by inhibiting FAP.

Conclusion

CA could alleviate post-MI myocardial fibrosis through inhibiting FAP, with the underlying mechanism involving the restoration of FA metabolism homeostasis by inhibiting FAP.

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毛蕊异黄酮通过抑制FAP恢复脂肪酸代谢稳态，减轻心肌梗死后心肌纤维化

背景心肌纤维化是心肌梗死（MI）后心力衰竭（HF）的关键病理机制。天然草药化合物在抗纤维化方面具有巨大的应用潜力，值得进一步深入研究和开发。目的探讨心肌梗死（MI）早期心肌纤维化的关键基因特征，寻找特异性靶向的天然中草药。方法通过生物信息学分析和分子表型筛选，结合多种药物靶点验证方法，寻找关键的纤维化调节因子和相关的靶向天然草药成分。RNA-seq分析用于探索潜在的下游机制。体外和体内实验研究了FAP和Calycosin （CA）对成纤维细胞和心脏组织纤维化和脂质代谢表型的影响。结果rna - seq分析显示FAP是心肌梗死后早期纤维化的核心调节因子。CA是一种天然草药化合物，可有效抑制FAP，通过调节FAP介导的心肌纤维化改善心肌梗死后心功能障碍。进一步研究表明，FAP的促纤维化作用可能与其诱导脂质代谢紊乱密切相关。纠正脂肪酸代谢紊乱可消除FAP的促纤维化作用。CA可通过抑制FAP改善成纤维细胞和心脏组织FA代谢紊乱。PPARα可能是FAP诱导FA代谢紊乱的下游靶点，CA可通过抑制FAP恢复心脏PPARα的表达水平。结论ca可通过抑制FAP减轻心肌梗死后心肌纤维化，其机制可能与通过抑制FAP恢复FA代谢稳态有关。

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

Phytomedicine 医学-药学

CiteScore

10.30

自引率

5.10%

发文量

670

审稿时长

91 days

期刊介绍： Phytomedicine is a therapy-oriented journal that publishes innovative studies on the efficacy, safety, quality, and mechanisms of action of specified plant extracts, phytopharmaceuticals, and their isolated constituents. This includes clinical, pharmacological, pharmacokinetic, and toxicological studies of herbal medicinal products, preparations, and purified compounds with defined and consistent quality, ensuring reproducible pharmacological activity. Founded in 1994, Phytomedicine aims to focus and stimulate research in this field and establish internationally accepted scientific standards for pharmacological studies, proof of clinical efficacy, and safety of phytomedicines.