RNA聚合酶
RNA依赖性RNA聚合酶
核糖核酸
病毒学
生物
酶
病毒
突变体
药物发现
蛋白酶
天然产物
聚合酶
计算生物学
对接(动物)
体内
RNA病毒
冠状病毒
抄写(语言学)
体外
化学
西格玛因子
基因
虚拟筛选
RNA结合蛋白
链霉菌
表面等离子共振
作者
Xu Zheng,Hongji Li,Mengxue Zhang,Zhiyue Qiu,Xingchi Yang,Ziwei Zhou,Wei Wu,Daejung Yu,Xiaofan Zhu,Zhiyong Chu,Haoran Peng,Cuiling Ding,Ping Zhao,Wen Liu,Wanchao Yin,Yangang Liu,Peng Sun
标识
DOI:10.1016/j.apsb.2026.02.021
摘要
RNA viruses, such as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), flaviviruses, and alphaviruses, represent a major source of emerging human infectious diseases. They pose a persistent threat to public health; however, few therapeutic options are available for severe infections. Through a natural product screening campaign, we identified ansatrienin B as a broad-spectrum inhibitor of multiple RNA viruses, including SARS-CoV-2, flaviviruses ( e.g. , YFV, WNV, DENV), and alphaviruses ( e.g. , CHIKV). Time-of-drug-addition assays indicated that ansatrienin B acts at both the early (entry) and intermediate (replication) stages of the viral life cycle. Surface plasmon resonance (SPR) and molecular docking studies validated a direct interaction between ansatrienin B and the RNA-dependent RNA polymerase (RdRp) of SARS-CoV-2 and WNV. Combined RNA pull-down and RdRp enzymatic activity assays (in gel, solution, and cellular forms) further demonstrated that ansatrienin B disrupts both the binding of RdRp to viral RNA and its enzymatic activity. In vivo , ansatrienin B showed significant efficacy in mouse models infected with SARS-CoV-2 or WNV infection. To facilitate screening and elucidate the structure–activity relationship (SAR), we generated a focused ansatrienin library via a mutasynthetic approach. Supplementation of four 3,5-AHBA analogs into a ΔmycB1-B4 mutant strain of Streptomyces flaveolus yielded 30 novel ansatrienin derivatives. Evaluation of anti-SARS-CoV-2 activity identified four analogues with enhanced potency, enabling the establishment of a preliminary SAR. Collectively, these findings establish ansatrienin B as a novel inhibitor targeting RdRp and provide a foundation for the development alternative broad-spectrum antiviral agents. Ansatrienin B, an RdRp-targeting natural product, demonstrates broad-spectrum anti-RNA virus activity and is amenable to structural optimization via mutasynthesis for antiviral development.
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