Drug Design and Development Research Group, University of Malaya, Kuala Lumpur, Malaysia.
Department of Pharmacy, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia.
Chem Biol Drug Des. 2018 Feb;91(2):448-455. doi: 10.1111/cbdd.13091. Epub 2017 Sep 13.
Dengvaxia (CTD-TDV), the only licensed tetravalent dengue vaccine by Sanofi Pasteur, was made available since 2015. However, administration of CTD-TDV, in general, has not received the prequalification recommendation from the World Health Organization. Having a universal antidengue agent for treatment will therefore beneficial. Accordingly, the development of nucleoside inhibitors specific to dengue viral polymerase that perturb dengue infection has been studied by many. Alternatively, we have used a marketed anti-HCV prodrug sofosbuvir to study its in silico and in vitro effects against dengue. As a result, the active metabolite of sofosbuvir (GS-461203) was predicted to bind to the catalytic motif (Gly-Asp-Asp) of dengue viral polymerase with binding affinity of -6.9 kcal/mol. Furthermore, sofosbuvir demonstrated excellent in vitro viral inhibition with an EC of 0.4 μm. In addition, this study demonstrated the requirement of specific liver enzymes to activate the prodrug into GS-461203 to exert its antidengue potential. All in all, sofosbuvir should be subjected to in-depth studies to provide information of its efficacy toward dengue and its lead potential as DENV polymerase inhibitor in human subjects. In conclusion, we have expended the potential of the clinically available drug sofosbuvir as treatment for dengue.
登革热疫苗(CTD-TDV)是赛诺菲巴斯德公司生产的唯一一种已获得许可的四价登革热疫苗,自 2015 年以来已经上市。然而,CTD-TDV 的使用一般没有获得世界卫生组织的预认证推荐。因此,开发一种通用的抗登革热药物将是有益的。因此,许多人研究了针对登革病毒聚合酶的核苷抑制剂的开发,这些抑制剂会干扰登革热感染。作为替代方案,我们使用已上市的抗 HCV 前药索非布韦来研究其针对登革热的计算机模拟和体外效果。结果表明,索非布韦的活性代谢物(GS-461203)与登革病毒聚合酶的催化基序(甘氨酸-天冬氨酸-天冬氨酸)结合,结合亲和力为-6.9 kcal/mol。此外,索非布韦在体外显示出优异的病毒抑制活性,EC 为 0.4 μm。此外,本研究表明需要特定的肝脏酶将前药激活为 GS-461203,以发挥其抗登革热的潜力。总之,应该对索非布韦进行深入研究,以提供其对登革热疗效的信息及其作为人类 DENV 聚合酶抑制剂的潜在用途。总之,我们已经扩展了临床可用药物索非布韦作为治疗登革热的潜力。
