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1.
J Med Virol ; 93(9): 5376-5389, 2021 09.
Article in English | MEDLINE | ID: covidwho-1363676

ABSTRACT

The suppression of types I and III interferon (IFN) responses by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) contributes to the pathogenesis of coronavirus disease 2019 (COVID-19). The strategy used by SARS-CoV-2 to evade antiviral immunity needs further investigation. Here, we reported that SARS-CoV-2 ORF9b inhibited types I and III IFN production by targeting multiple molecules of innate antiviral signaling pathways. SARS-CoV-2 ORF9b impaired the induction of types I and III IFNs by Sendai virus and poly (I:C). SARS-CoV-2 ORF9b inhibited the activation of types I and III IFNs induced by the components of cytosolic dsRNA-sensing pathways of RIG-I/MDA5-MAVS signaling, including RIG-I, MDA-5, MAVS, TBK1, and IKKε, rather than IRF3-5D, which is the active form of IRF3. SARS-CoV-2 ORF9b also suppressed the induction of types I and III IFNs by TRIF and STING, which are the adaptor protein of the endosome RNA-sensing pathway of TLR3-TRIF signaling and the adaptor protein of the cytosolic DNA-sensing pathway of cGAS-STING signaling, respectively. A mechanistic analysis revealed that the SARS-CoV-2 ORF9b protein interacted with RIG-I, MDA-5, MAVS, TRIF, STING, and TBK1 and impeded the phosphorylation and nuclear translocation of IRF3. In addition, SARS-CoV-2 ORF9b facilitated the replication of the vesicular stomatitis virus. Therefore, the results showed that SARS-CoV-2 ORF9b negatively regulates antiviral immunity and thus facilitates viral replication. This study contributes to our understanding of the molecular mechanism through which SARS-CoV-2 impairs antiviral immunity and provides an essential clue to the pathogenesis of COVID-19.


Subject(s)
DEAD Box Protein 58/immunology , Immune Evasion/genetics , Interferons/immunology , Nucleotidyltransferases/immunology , Receptors, Immunologic/immunology , SARS-CoV-2/immunology , Toll-Like Receptor 3/immunology , Adaptor Proteins, Signal Transducing/genetics , Adaptor Proteins, Signal Transducing/immunology , Adaptor Proteins, Vesicular Transport/genetics , Adaptor Proteins, Vesicular Transport/immunology , Animals , Chlorocebus aethiops , Coronavirus Nucleocapsid Proteins/genetics , Coronavirus Nucleocapsid Proteins/immunology , DEAD Box Protein 58/genetics , Gene Expression Regulation , HEK293 Cells , HeLa Cells , Humans , I-kappa B Kinase/genetics , I-kappa B Kinase/immunology , Immunity, Innate , Interferon Regulatory Factor-3/genetics , Interferon Regulatory Factor-3/immunology , Interferon-Induced Helicase, IFIH1/genetics , Interferon-Induced Helicase, IFIH1/immunology , Interferons/genetics , Membrane Proteins/genetics , Membrane Proteins/immunology , Nucleotidyltransferases/genetics , Phosphoproteins/genetics , Phosphoproteins/immunology , Plasmids/chemistry , Plasmids/metabolism , /immunology , Receptors, Immunologic/genetics , SARS-CoV-2/genetics , SARS-CoV-2/pathogenicity , Signal Transduction/genetics , Signal Transduction/immunology , Toll-Like Receptor 3/genetics , Transfection , Vero Cells , Virus Replication/immunology
2.
J Med Virol ; 93(9): 5376-5389, 2021 09.
Article in English | MEDLINE | ID: covidwho-1206842

ABSTRACT

The suppression of types I and III interferon (IFN) responses by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) contributes to the pathogenesis of coronavirus disease 2019 (COVID-19). The strategy used by SARS-CoV-2 to evade antiviral immunity needs further investigation. Here, we reported that SARS-CoV-2 ORF9b inhibited types I and III IFN production by targeting multiple molecules of innate antiviral signaling pathways. SARS-CoV-2 ORF9b impaired the induction of types I and III IFNs by Sendai virus and poly (I:C). SARS-CoV-2 ORF9b inhibited the activation of types I and III IFNs induced by the components of cytosolic dsRNA-sensing pathways of RIG-I/MDA5-MAVS signaling, including RIG-I, MDA-5, MAVS, TBK1, and IKKε, rather than IRF3-5D, which is the active form of IRF3. SARS-CoV-2 ORF9b also suppressed the induction of types I and III IFNs by TRIF and STING, which are the adaptor protein of the endosome RNA-sensing pathway of TLR3-TRIF signaling and the adaptor protein of the cytosolic DNA-sensing pathway of cGAS-STING signaling, respectively. A mechanistic analysis revealed that the SARS-CoV-2 ORF9b protein interacted with RIG-I, MDA-5, MAVS, TRIF, STING, and TBK1 and impeded the phosphorylation and nuclear translocation of IRF3. In addition, SARS-CoV-2 ORF9b facilitated the replication of the vesicular stomatitis virus. Therefore, the results showed that SARS-CoV-2 ORF9b negatively regulates antiviral immunity and thus facilitates viral replication. This study contributes to our understanding of the molecular mechanism through which SARS-CoV-2 impairs antiviral immunity and provides an essential clue to the pathogenesis of COVID-19.


Subject(s)
DEAD Box Protein 58/immunology , Immune Evasion/genetics , Interferons/immunology , Nucleotidyltransferases/immunology , Receptors, Immunologic/immunology , SARS-CoV-2/immunology , Toll-Like Receptor 3/immunology , Adaptor Proteins, Signal Transducing/genetics , Adaptor Proteins, Signal Transducing/immunology , Adaptor Proteins, Vesicular Transport/genetics , Adaptor Proteins, Vesicular Transport/immunology , Animals , Chlorocebus aethiops , Coronavirus Nucleocapsid Proteins/genetics , Coronavirus Nucleocapsid Proteins/immunology , DEAD Box Protein 58/genetics , Gene Expression Regulation , HEK293 Cells , HeLa Cells , Humans , I-kappa B Kinase/genetics , I-kappa B Kinase/immunology , Immunity, Innate , Interferon Regulatory Factor-3/genetics , Interferon Regulatory Factor-3/immunology , Interferon-Induced Helicase, IFIH1/genetics , Interferon-Induced Helicase, IFIH1/immunology , Interferons/genetics , Membrane Proteins/genetics , Membrane Proteins/immunology , Nucleotidyltransferases/genetics , Phosphoproteins/genetics , Phosphoproteins/immunology , Plasmids/chemistry , Plasmids/metabolism , /immunology , Receptors, Immunologic/genetics , SARS-CoV-2/genetics , SARS-CoV-2/pathogenicity , Signal Transduction/genetics , Signal Transduction/immunology , Toll-Like Receptor 3/genetics , Transfection , Vero Cells , Virus Replication/immunology
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