Department of Pharmaceutical and Biomedical Sciences, College of Pharmacy, University of Georgia, 120 W. Green Street, Athens, Georgia 30602, United States.
Department of Chemistry, University of Georgia, 140 Cedar Street, Athens, Georgia 30602, United States.
ACS Infect Dis. 2022 Mar 11;8(3):596-611. doi: 10.1021/acsinfecdis.1c00631. Epub 2022 Feb 24.
Over the last 20 years, both severe acute respiratory syndrome coronavirus-1 and severe acute respiratory syndrome coronavirus-2 have transmitted from animal hosts to humans causing zoonotic outbreaks of severe disease. Both viruses originate from a group of betacoronaviruses known as subgroup 2b. The emergence of two dangerous human pathogens from this group along with previous studies illustrating the potential of other subgroup 2b members to transmit to humans has underscored the need for antiviral development against them. Coronaviruses modify the host innate immune response in part through the reversal of ubiquitination and ISGylation with their papain-like protease (PLpro). To identify unique or overarching subgroup 2b structural features or enzymatic biases, the PLpro from a subgroup 2b bat coronavirus, BtSCoV-Rf1.2004, was biochemically and structurally evaluated. This evaluation revealed that PLpros from subgroup 2b coronaviruses have narrow substrate specificity for K48 polyubiquitin and ISG15 originating from certain species. The PLpro of BtSCoV-Rf1.2004 was used as a tool alongside PLpro of CoV-1 and CoV-2 to design 30 novel noncovalent drug-like pan subgroup 2b PLpro inhibitors that included determining the effects of using previously unexplored core linkers within these compounds. Two crystal structures of BtSCoV-Rf1.2004 PLpro bound to these inhibitors aided in compound design as well as shared structural features among subgroup 2b proteases. Screening of these three subgroup 2b PLpros against this novel set of inhibitors along with cytotoxicity studies provide new directions for pan-coronavirus subgroup 2b antiviral development of PLpro inhibitors.
在过去的 20 年中,严重急性呼吸综合征冠状病毒-1 和严重急性呼吸综合征冠状病毒-2 都从动物宿主传播到人类,导致了人畜共患的严重疾病爆发。这两种病毒都起源于一组被称为亚组 2b 的贝塔冠状病毒。这组病毒中出现了两种危险的人类病原体,加上以前的研究表明其他亚组 2b 成员有传播给人类的潜力,这突显出需要开发针对它们的抗病毒药物。冠状病毒通过其木瓜样蛋白酶(PLpro)逆转泛素化和 ISG 化,在一定程度上改变宿主先天免疫反应。为了确定亚组 2b 中独特或普遍存在的结构特征或酶学偏向性,对来自亚组 2b 蝙蝠冠状病毒 BtSCoV-Rf1.2004 的 PLpro 进行了生化和结构评估。该评估表明,亚组 2b 冠状病毒的 PLpro 对来自某些物种的 K48 多泛素和 ISG15 具有较窄的底物特异性。BtSCoV-Rf1.2004 的 PLpro 与 CoV-1 和 CoV-2 的 PLpro 一起被用作工具,设计了 30 种新型非共价类药样泛亚组 2b PLpro 抑制剂,包括确定在这些化合物中使用以前未探索过的核心连接子的效果。两种与这些抑制剂结合的 BtSCoV-Rf1.2004 PLpro 的晶体结构有助于化合物设计以及亚组 2b 蛋白酶之间的共享结构特征。对这三种亚组 2b PLpro 对这一组新型抑制剂的筛选以及细胞毒性研究为泛冠状病毒亚组 2b PLpro 抑制剂的抗病毒药物开发提供了新的方向。
