圣约翰草的主要代谢物金丝桃素具有泛冠状病毒抗病毒活性

Imelda Raczkiewicz, Céline Rivière, Peggy Bouquet, L. Desmarets, Audrey Tarricone, Charline Camuzet, N. François, Gabriel Lefèvre, Fabiola Silva Angulo, C. Robil, François Trottein, S. Sahpaz, Jean Dubuisson, S. Belouzard, Anne Goffard, K. Séron
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摘要

由 SARS-CoV-2 病毒引起的 COVID-19 大流行凸显了开发能有效针对冠状病毒的抗病毒化合物的迫切性。本研究首次证明了金丝桃素的抗病毒功效,它是圣约翰草的一种主要代谢物,在人体中的安全性和生物利用度已经得到证实。我们在细胞培养中用四种人类冠状病毒进行了抗病毒试验:三种高致病性冠状病毒(SARS-CoV-2、SARS-CoV 和 MERS-CoV)和一种引起轻微症状的冠状病毒(HCoV-229E)。抗病毒活性还在人类原发性气道上皮细胞中进行了评估。为了确定金丝桃素抑制病毒的步骤,进行了添加时间测定。结果表明,金丝桃素对四种受测人类冠状病毒具有显著的抗病毒活性,IC50 值介于 0.24 至 2.55 µM。动力学研究表明,所观察到的活性发生在后进入步骤,可能是在复制过程中。金丝桃素的抗病毒功效还在人类原发性气道上皮细胞中得到了证实。结果表明,细胞内和细胞外的 SARS-CoV-2 病毒 RNA 都减少了,这证实了金丝桃素针对的是复制步骤。最后,当金丝桃素与雷米替韦联合使用时,观察到了对 SARS-CoV-2 的叠加抗病毒效果。总之,金丝桃素已被确定为一种新型泛冠状病毒抑制剂,在冠状病毒的临床前模型--人类原发性气道上皮细胞中具有活性。这些发现共同表明,金丝桃素有可能成为一种候选的抗病毒药物,用于对抗当前和未来的人类冠状病毒。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hyperforin, the major metabolite of St. John’s wort, exhibits pan-coronavirus antiviral activity
The COVID-19 pandemic caused by the SARS-CoV-2 virus has underscored the urgent necessity for the development of antiviral compounds that can effectively target coronaviruses. In this study, we present the first evidence of the antiviral efficacy of hyperforin, a major metabolite of St. John’s wort, for which safety and bioavailability in humans have already been established.Antiviral assays were conducted in cell culture with four human coronaviruses: three of high virulence, SARS-CoV-2, SARS-CoV, and MERS-CoV, and one causing mild symptoms, HCoV-229E. The antiviral activity was also evaluated in human primary airway epithelial cells. To ascertain the viral step inhibited by hyperforin, time-of-addition assays were conducted. Subsequently, a combination assay of hyperforin with remdesivir was performed.The results demonstrated that hyperforin exhibited notable antiviral activity against the four tested human coronaviruses, with IC50 values spanning from 0.24 to 2.55 µM. Kinetic studies indicated that the observed activity occur at a post-entry step, potentially during replication. The antiviral efficacy of hyperforin was additionally corroborated in human primary airway epithelial cells. The results demonstrated a reduction in both intracellular and extracellular SARS-CoV-2 viral RNA, confirming that hyperforin targeted the replication step. Finally, an additive antiviral effect on SARS-CoV-2 was observed when hyperforin was combined with remdesivir.In conclusion, hyperforin has been identified as a novel pan-coronavirus inhibitor with activity in human primary airway epithelial cells, a preclinical model for coronaviruses. These findings collectively suggest that hyperforin has potential as a candidate antiviral agent against current and future human coronaviruses.
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