克服SARS-CoV-2非结构蛋白15-尼多病毒尿苷酸特异性核糖核酸内切酶(nsp15/NendoU)活性

Future drug discovery Pub Date : 2020-05-01 DOI:10.4155/fdd-2020-0012

Suranga L Senanayake

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引用次数: 12

摘要

COVID-19已成为自1918年西班牙流感以来最严重的全球公共卫生危机。联合抗病毒治疗与改换用途的广谱抗病毒药物具有非常有前途的即时治疗策略，特别是考虑到疫苗疗效和发展时间表的不确定性。在这里，我们描述了一种新的假设方法:将可用的广谱抗病毒药物(如核苷类似物)与NendoU的潜在抑制剂(如nsp15 RNA底物模拟物)结合起来。虽然只是假设生成，但这种方法可能构成“双重打击”，即复制酶-转录酶复合体的两个冠状病毒特有的蛋白质元件同时被抑制;这可能是冠状病毒的致命弱点，会导致致命的突变。结构优化的RNA底物模拟物与临床批准和重新使用的骨干抗病毒药物是否能在体外协同抑制该内切酶，从而实现“双重打击假说”，还有待观察。

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Overcoming nonstructural protein 15-nidoviral uridylate-specific endoribonuclease (nsp15/NendoU) activity of SARS-CoV-2

COVID-19 has become the gravest global public health crisis since the Spanish Flu of 1918. Combination antiviral therapy with repurposed broad-spectrum antiviral agents holds a highly promising immediate treatment strategy, especially given uncertainties of vaccine efficacy and developmental timeline. Here, we describe a novel hypothetical approach: combining available broad-spectrum antiviral agents such as nucleoside analogs with potential inhibitors of NendoU, for example nsp15 RNA substrate mimetics. While only hypothesis-generating, this approach may constitute a ‘double-hit’ whereby two CoV-unique protein elements of the replicase–transcriptase complex are inhibited simultaneously; this may be an Achilles' heel and precipitate lethal mutagenesis in a coronavirus. It remains to be seen whether structurally optimized RNA substrate mimetics in combination with clinically approved and repurposed backbone antivirals can synergistically inhibit this endonuclease in vitro, thus fulfilling the ‘double-hit hypothesis’.

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来源期刊

Future drug discovery

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审稿时长

14 weeks