Author: Jin, Zhenming; Du, Xiaoyu; Xu, Yechun; Deng, Yongqiang; Liu, Meiqin; Zhao, Yao; Zhang, Bing; Li, Xiaofeng; Zhang, Leike; Peng, Chao; Duan, Yinkai; Yu, Jing; Wang, Lin; Yang, Kailin; Liu, Fengjiang; Jiang, Rendi; Yang, Xinglou; You, Tian; Liu, Xiaoce; Yang, Xiuna; Bai, Fang; Liu, Hong; Liu, Xiang; Guddat, Luke W.; Xu, Wenqing; Xiao, Gengfu; Qin, Chengfeng; Shi, Zhengli; Jiang, Hualiang; Rao, Zihe; Yang, Haitao
Title: Structure of Mpro from COVID-19 virus and discovery of its inhibitors Cord-id: wx7nheay Document date: 2020_3_29
ID: wx7nheay
Snippet: A new coronavirus (CoV) identified as COVID-19 virus is the etiological agent responsible for the 2019-2020 viral pneumonia outbreak that commenced in Wuhan1–4. Currently there is no targeted therapeutics and effective treatment options remain very limited. In order to rapidly discover lead compounds for clinical use, we initiated a program of combined structure-assisted drug design, virtual drug screening and high-throughput screening to identify new drug leads that target the COVID-19 virus
Document: A new coronavirus (CoV) identified as COVID-19 virus is the etiological agent responsible for the 2019-2020 viral pneumonia outbreak that commenced in Wuhan1–4. Currently there is no targeted therapeutics and effective treatment options remain very limited. In order to rapidly discover lead compounds for clinical use, we initiated a program of combined structure-assisted drug design, virtual drug screening and high-throughput screening to identify new drug leads that target the COVID-19 virus main protease (Mpro). Mpro is a key CoV enzyme, which plays a pivotal role in mediating viral replication and transcription, making it an attractive drug target for this virus5,6. Here, we identified a mechanism-based inhibitor, N3, by computer-aided drug design and subsequently determined the crystal structure of COVID-19 virus Mpro in complex with this compound. Next, through a combination of structure-based virtual and high-throughput screening, we assayed over 10,000 compounds including approved drugs, drug candidates in clinical trials, and other pharmacologically active compounds as inhibitors of Mpro. Six of these inhibit Mpro with IC50 values ranging from 0.67 to 21.4 μM. Ebselen also exhibited promising antiviral activity in cell-based assays. Our results demonstrate the efficacy of this screening strategy, which can lead to the rapid discovery of drug leads with clinical potential in response to new infectious diseases where no specific drugs or vaccines are available.
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