Author: Ju, Jingyue; Li, Xiaoxu; Kumar, Shiv; Jockusch, Steffen; Chien, Minchen; Tao, Chuanjuan; Morozova, Irina; Kalachikov, Sergey; Kirchdoerfer, Robert N.; Russo, James J.
Title: Nucleotide analogues as inhibitors of SARSâ€CoV Polymerase Cord-id: 1mkhopi3 Document date: 2020_10_30
ID: 1mkhopi3
Snippet: SARSâ€CoVâ€2, a member of the coronavirus family, has caused a global public health emergency. Based on our analysis of hepatitis C virus and coronavirus replication, and the molecular structures and activities of viral inhibitors, we previously reasoned that the FDAâ€approved hepatitis C drug EPCLUSA (Sofosbuvir/Velpatasvir) should inhibit coronaviruses, including SARSâ€CoVâ€2. Here, using model polymerase extension experiments, we demonstrate that the active triphosphate form of Sofosbuvi
Document: SARSâ€CoVâ€2, a member of the coronavirus family, has caused a global public health emergency. Based on our analysis of hepatitis C virus and coronavirus replication, and the molecular structures and activities of viral inhibitors, we previously reasoned that the FDAâ€approved hepatitis C drug EPCLUSA (Sofosbuvir/Velpatasvir) should inhibit coronaviruses, including SARSâ€CoVâ€2. Here, using model polymerase extension experiments, we demonstrate that the active triphosphate form of Sofosbuvir is incorporated by lowâ€fidelity polymerases and SARSâ€CoV RNAâ€dependent RNA polymerase (RdRp), and blocks further incorporation by these polymerases; the active triphosphate form of Sofosbuvir is not incorporated by a hostâ€like highâ€fidelity DNA polymerase. Using the same molecular insight, we selected 3’â€fluoroâ€3’â€deoxythymidine triphosphate and 3’â€azidoâ€3’â€deoxythymidine triphosphate, which are the active forms of two other antiâ€viral agents, Alovudine and AZT (an FDAâ€approved HIV/AIDS drug) for evaluation as inhibitors of SARSâ€CoV RdRp. We demonstrate the ability of two of these HIV reverse transcriptase inhibitors to be incorporated by SARSâ€CoV RdRp where they also terminate further polymerase extension. Given the 98% amino acid similarity of the SARSâ€CoV and SARSâ€CoVâ€2 RdRps, we expect these nucleotide analogues would also inhibit the SARSâ€CoVâ€2 polymerase. These results offer guidance to further modify these nucleotide analogues to generate more potent broadâ€spectrum antiâ€coronavirus agents.
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