Discovery of novel favipiravir derivatives with improved pharmacokinetic properties as anti-SFTSV agents

Xiaomeng He , Fan Wu , Wei Li , Runze Zhang , Ruiyang Sun , Zhihong Hu , Wu Zhong , Manli Wang
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Abstract

Favipiravir is a nucleobase analogue that exhibits antiviral activities against a variety of RNA viruses. Due to the lack of antivirals to combat SFTS, an emerging tickborne epidemic caused by a RNA virus belonging to the Phenuividae family within Bunyavirales, Favipiravir has been put brand new attention as optimal SFTS clinical candidate. We here disclose chemical synthesis of novel derivatives of Favipiravir. All derivatives showed favorable inhibitory effect on SFTSV replication in vitro. The 50 % effective concentration (EC50) of the most active compound H3 was 12.06 μM, better than that of Favipiravir (15.51 μM). Most importantly, compared with the clinical candidate Favipiravir, pharmacokinetic studies conducted on rats demonstrated enhanced pharmacokinetic properties for H2 and H3 including parameters of T1/2, Cmax and AUC. These combined attributes identified novel promising drug candidates for the treatment of SFTSV infection.

Abstract Image

发现具有更好药代动力学特性的新型法非拉韦衍生物作为抗 SFTSV 药物
Favipiravir 是一种核碱基类似物,对多种 RNA 病毒具有抗病毒活性。SFTS 是一种由布尼亚病毒科 Phenuividae 家族的 RNA 病毒引起的新兴蜱媒流行病,由于缺乏抗病毒药物,Favipiravir 作为 SFTS 的最佳临床候选药物受到了新的关注。我们在此揭示了法维拉韦新型衍生物的化学合成。所有衍生物在体外对 SFTSV 复制均表现出良好的抑制作用。活性最高的化合物 H3 的 50 % 有效浓度(EC50)为 12.06 μM,优于法维拉韦(15.51 μM)。最重要的是,与临床候选药物法维拉韦相比,在大鼠身上进行的药代动力学研究表明,H2 和 H3 的药代动力学特性(包括 T1/2、Cmax 和 AUC 等参数)更强。这些综合特性确定了治疗 SFTSV 感染的新型候选药物。
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CiteScore
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