Remdesivir is active in vitro against tick-borne encephalitis virus and selects for resistance mutations in the viral RNA-dependent RNA polymerase.

Infectious diseases (London, England) Pub Date : 2025-07-01 Epub Date: 2025-02-20 DOI:10.1080/23744235.2025.2468510

Kristina Nyström, Edward Trybala, Joanna Said, Anette Roth, Marianela Patzi Churqui, Ambjörn Kärmander, Tomas Cihlar, John P Bilello, Tomas Bergström, Martin Lagging

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Abstract

Background: Tick-borne encephalitis (TBE) is a neurological disease caused by the tick-borne encephalitis virus (TBEV). Despite available vaccines, breakthrough infections occur, some fatal.

Objectives: As no antiviral therapy for TBE is currently approved, this study evaluated the in vitro activity of already licenced remdesivir (RDV) and sofosbuvir (SOF) for possible drug repurposing against TBEV.

Methods: TBEV was cultured in A549 cells, and the inhibitory effects of RDV (GS-5734), its parent nucleotide GS-441524, and SOF (GS-7977) were assessed.

Results: After 78 h, RDV demonstrated significantly lower EC₅₀ values than SOF (0.14 vs. 11 µM) based on TBEV RNA levels measured by RT-qPCR. RDV also had a lower mean EC₅₀ (0.55 µM) compared to GS-441524 and SOF (>8.9 and 13.1 µM, respectively) using crystal violet staining after 5 days. After 11 passages of TBEV in the presence of RDV, emergence of virus with a higher EC₅₀ (1.32 vs. 0.55 µM) was detected with two mutations (L3122F and Y3278F) in NS5, the viral RNA-dependent RNA polymerase (RdRp), and one substitution in envelope (E) protein (E402G). Similarly, SOF resistance appeared after 20 passages, increasing EC₅₀ values (35.5 vs. 10 µM).

Conclusion: RDV exhibits potent in vitro antiviral activity against TBEV via specific targeting of the viral RdRp as confirmed by the emergence of resistance-associated double NS5 substitutions in vitro in the presence of RDV. While the potential in vivo implications of the observed RDV resistance remain to be determined, these in vitro data support further assessment of RDV for the treatment of TBEV infection.

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瑞德西韦在体外对蜱传脑炎病毒有活性，并在病毒RNA依赖的RNA聚合酶中选择耐药突变。

背景：蜱传脑炎（TBE）是由蜱传脑炎病毒（TBEV）引起的一种神经系统疾病。尽管有疫苗可用，但突破性感染仍时有发生，有些甚至致命：由于目前尚未批准针对 TBEV 的抗病毒疗法，本研究评估了已获许可的雷米替韦（RDV）和索非布韦（SOF）的体外活性，以便对 TBEV 进行药物再利用：在A549细胞中培养TBEV，评估RDV（GS-5734）、其母体核苷酸GS-441524和SOF（GS-7977）的抑制作用：结果：78小时后，根据RT-qPCR测定的TBEV RNA水平，RDV的EC50值明显低于SOF（0.14 vs. 11 µM）。在 5 天后使用水晶紫染色，RDV 的平均 EC50 值（0.55 µM）也低于 GS-441524 和 SOF（分别大于 8.9 µM 和 13.1 µM）。在有 RDV 存在的情况下，TBEV 经过 11 次传代后，在病毒 RNA 依赖性 RNA 聚合酶（RdRp）的 NS5 中发现了两个突变（L3122F 和 Y3278F），在包膜（E）蛋白中发现了一个替换（E402G），从而检测到病毒出现了更高的 EC50（1.32 对 0.55 µM）。同样，SOF 抗性在 20 次传代后出现，EC50 值增加（35.5 对 10 µM）：结论：RDV通过特异性靶向病毒RdRp对TBEV表现出强大的体外抗病毒活性，体外抗药性相关的双NS5置换在RDV存在的情况下出现也证实了这一点。虽然观察到的 RDV 耐药性对体内的潜在影响仍有待确定，但这些体外数据支持对 RDV 治疗 TBEV 感染的进一步评估。

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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Infectious diseases (London, England)

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