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α-酮酰胺作为冠状病毒和肠病毒复制的广谱抑制剂:基于结构的设计、合成和活性评估。

α-Ketoamides as Broad-Spectrum Inhibitors of Coronavirus and Enterovirus Replication: Structure-Based Design, Synthesis, and Activity Assessment.

机构信息

Institute of Biochemistry, Center for Structural and Cell Biology in Medicine, University of Lübeck, 23562 Lübeck, Germany.

German Center for Infection Research (DZIF), Hamburg-Lübeck-Borstel-Riems Site, University of Lübeck, 23562 Lübeck, Germany.

出版信息

J Med Chem. 2020 May 14;63(9):4562-4578. doi: 10.1021/acs.jmedchem.9b01828. Epub 2020 Feb 24.

DOI:10.1021/acs.jmedchem.9b01828
PMID:32045235
Abstract

The main protease of coronaviruses and the 3C protease of enteroviruses share a similar active-site architecture and a unique requirement for glutamine in the P1 position of the substrate. Because of their unique specificity and essential role in viral polyprotein processing, these proteases are suitable targets for the development of antiviral drugs. In order to obtain near-equipotent, broad-spectrum antivirals against alphacoronaviruses, betacoronaviruses, and enteroviruses, we pursued a structure-based design of peptidomimetic α-ketoamides as inhibitors of main and 3C proteases. Six crystal structures of protease-inhibitor complexes were determined as part of this study. Compounds synthesized were tested against the recombinant proteases as well as in viral replicons and virus-infected cell cultures; most of them were not cell-toxic. Optimization of the P2 substituent of the α-ketoamides proved crucial for achieving near-equipotency against the three virus genera. The best near-equipotent inhibitors, (P2 = cyclopentylmethyl) and (P2 = cyclohexylmethyl), display low-micromolar EC values against enteroviruses, alphacoronaviruses, and betacoronaviruses in cell cultures. In Huh7 cells, exhibits three-digit picomolar activity against the Middle East Respiratory Syndrome coronavirus.

摘要

冠状病毒的主要蛋白酶和肠病毒的 3C 蛋白酶具有相似的活性位点结构,并且对底物 P1 位置的谷氨酰胺有独特的要求。由于它们在病毒多蛋白加工中的独特特异性和重要作用,这些蛋白酶是开发抗病毒药物的合适靶点。为了获得针对α冠状病毒、β冠状病毒和肠病毒的近等活性、广谱抗病毒药物,我们进行了基于结构的设计,将肽拟似物α-酮酰胺作为主要蛋白酶和 3C 蛋白酶的抑制剂。作为这项研究的一部分,确定了六个蛋白酶-抑制剂复合物的晶体结构。合成的化合物针对重组蛋白酶以及病毒复制子和病毒感染的细胞培养物进行了测试;它们大多数没有细胞毒性。对α-酮酰胺的 P2 取代基的优化对于实现对三种病毒属的近等活性至关重要。最佳的近等效抑制剂(P2 = 环戊基甲基)和(P2 = 环己基甲基)在细胞培养物中对肠病毒、α冠状病毒和β冠状病毒的 EC 值均为低微摩尔。在 Huh7 细胞中,(P2 = 环戊基甲基)对中东呼吸综合征冠状病毒具有三位数皮摩尔级的活性。

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