Both chebulagic acid and punicalagin inhibit respiratory syncytial virus entry via multi-targeting glycoprotein and fusion protein.

IF 4 2区 医学 Q2 VIROLOGY
Yingcai Xiong, Keyu Tao, Tao Li, Yinghui Zhou, Zhaowei Zhang, Weiying Ou, Zhao Wang, Shouchuan Wang, Yayi Hou, Peng Cao, Jianjian Ji
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引用次数: 0

Abstract

Respiratory syncytial virus (RSV) is a leading cause of lower respiratory tract infections, with no currently available small-molecule drugs that are both safe and effective. A major obstacle in antiviral drug development is the rapid emergence of drug-resistant viral strains. Targeting multiple viral compounds may help mitigate the development of resistance. Herein, we conducted a drug screening using the Antiviral Traditional Chinese Medicine Active Compound Library, aiming to identify compounds that simultaneously target the RSV fusion (F) protein, glycoprotein (G), and the host heparan sulfate proteoglycans (HSPGs). From this screening, 10 candidate compounds were identified for their ability to interact with all three targets. Among these 10 candidates, chebulagic acid (CHLA) and punicalagin (PUG) demonstrated the most potent inhibition of RSV replication. In vitro dose-response assays confirmed the antiviral efficacy of CHLA (IC50: 0.07864 µM) and PUG (IC50: 0.08065 µM). Further experiments revealed both CHLA and PUG disrupt RSV attachment and membrane fusion by targeting the RSV-F and G proteins, rather than HSPG. Notably, CHLA and PUG were found to bind to the CX3C motif of the RSV-G protein, with docking assays predicting their binding sites at cysteines 176 and 182. Additionally, CHLA enhanced the conformational stability of the RSV-F protein before fusion. In an in vivo study, both CHLA and PUG were shown to alleviate RSV-induced pulmonary pathology by reducing viral titers, mitigating lung injury, and suppressing the inflammatory responses in the lungs. Our findings suggest that CHLA and PUG hold potential as therapeutic agents for RSV infection.IMPORTANCEA significant challenge in developing anti-respiratory syncytial virus (RSV) agents is the rapid emergence of resistant viral strains. Designing drugs that target multiple viral components can effectively reduce the likelihood of developing resistant strains. In this study, we screened compounds from the Antiviral Traditional Chinese Medicine Active Compound Library, aiming to simultaneously targe the RSV fusion (F) protein, glycoprotein (G), and host heparan sulfate proteoglycans (HSPGs). Our findings revealed that chebulagic acid (CHLA) and punicalagin (PUG) significantly inhibited RSV replication both in vitro and in vivo and interacted with all three targets. Both CHLA and PUG were able to disrupt RSV attachment and membrane fusion. Mechanistically, CHLA and PUG were found to bind to the CX3C motif of the RSV-G protein, with CHLA also enhancing the conformational stability of the RSV-F protein before fusion. In conclusion, our study suggests that CHLA and PUG hold promise as therapeutic agents against RSV infection.

诃子酸和番泻叶苷都能通过多靶点糖蛋白和融合蛋白抑制呼吸道合胞病毒的进入。
呼吸道合胞病毒(RSV)是下呼吸道感染的主要病因,目前尚无安全有效的小分子药物。抗病毒药物开发的一个主要障碍是耐药病毒株的迅速出现。靶向多种病毒化合物可能有助于缓解耐药性的产生。在此,我们利用抗病毒中药活性化合物库进行了一次药物筛选,旨在找出能同时靶向 RSV 融合蛋白(F)、糖蛋白(G)和宿主硫酸肝素蛋白多糖(HSPGs)的化合物。通过这次筛选,确定了 10 种候选化合物,它们能够与所有这三个靶点相互作用。在这 10 种候选化合物中,诃子酸(CHLA)和潘尼卡苷(PUG)对 RSV 复制的抑制作用最强。体外剂量反应试验证实了 CHLA(IC50:0.07864 µM)和 PUG(IC50:0.08065 µM)的抗病毒功效。进一步的实验表明,CHLA 和 PUG 都是通过靶向 RSV-F 和 G 蛋白而不是 HSPG 来破坏 RSV 的附着和膜融合。值得注意的是,CHLA 和 PUG 可与 RSV-G 蛋白的 CX3C 基序结合,对接试验预测它们的结合位点位于半胱氨酸 176 和 182。此外,CHLA 还能增强 RSV-F 蛋白融合前的构象稳定性。在一项体内研究中,CHLA 和 PUG 都能通过降低病毒滴度、减轻肺损伤和抑制肺部炎症反应来减轻 RSV 引起的肺部病理变化。重要意义开发抗呼吸道合胞病毒(RSV)药物的一大挑战是耐药病毒株的快速出现。设计针对多种病毒成分的药物可以有效降低耐药株出现的可能性。在这项研究中,我们筛选了抗病毒中药活性化合物库中的化合物,旨在同时针对 RSV 融合蛋白(F)、糖蛋白(G)和宿主硫酸肝素蛋白多糖(HSPGs)。我们的研究结果表明,诃子酸(CHLA)和潘尼卡苷(PUG)在体外和体内都能显著抑制 RSV 的复制,并与所有三个靶点相互作用。CHLA和PUG都能破坏RSV的附着和膜融合。从机理上讲,CHLA 和 PUG 可与 RSV-G 蛋白的 CX3C 基序结合,CHLA 还能增强 RSV-F 蛋白在融合前的构象稳定性。总之,我们的研究表明 CHLA 和 PUG 有希望成为治疗 RSV 感染的药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Virology
Journal of Virology 医学-病毒学
CiteScore
10.10
自引率
7.40%
发文量
906
审稿时长
1 months
期刊介绍: Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.
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