Role of N Terminus-Truncated NS1 Proteins of Influenza A Virus in Inhibiting IRF3 Activation

Kuo, Rei-Lin; Li, Li-Hsin; Lin, Shaofu; Li, Zong-Hua; Chen, Guang-Wu; Chang, Chun‐Wei; Wang, Yiren; Tam, Ee-Hong; Gong, Yu-Nong; Krug, Robert M.; Shih, Shin‐Ru

doi:10.1128/jvi.02843-15

Cited by 35 publications

(40 citation statements)

References 26 publications

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“…As new variant proteins are identified by the influenza research community and reported in the scientific literature (26), the IRD team evaluates the strength of evidence for the presence and importance of these novel proteins, determines the sequence signals that can be used to predict their expression, and adds the specific prediction algorithm to our variant protein prediction infrastructure, making these sequence annotations uniquely available in IRD for user query and downstream analysis.…”

Section: Future Developmentsmentioning

confidence: 99%

Influenza Research Database: An integrated bioinformatics resource for influenza virus research

et al. 2016

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The Influenza Research Database (IRD) is a U.S. National Institute of Allergy and Infectious Diseases (NIAID)-sponsored Bioinformatics Resource Center dedicated to providing bioinformatics support for influenza virus research. IRD facilitates the research and development of vaccines, diagnostics and therapeutics against influenza virus by providing a comprehensive collection of influenza-related data integrated from various sources, a growing suite of analysis and visualization tools for data mining and hypothesis generation, personal workbench spaces for data storage and sharing, and active user community support. Here, we describe the recent improvements in IRD including the use of cloud and high performance computing resources, analysis and visualization of user-provided sequence data with associated metadata, predictions of novel variant proteins, annotations of phenotype-associated sequence markers and their predicted phenotypic effects, hemagglutinin (HA) clade classifications, an automated tool for HA subtype numbering conversion, linkouts to disease event data and the addition of host factor and antiviral drug components. All data and tools are freely available without restriction from the IRD website at https://www.fludb.org.

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Section: Future Developmentsmentioning

confidence: 99%

Influenza Research Database: An integrated bioinformatics resource for influenza virus research

et al. 2016

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“…One function of the NS1 protein is to bind the TRIM25 E3 ligase, inhibiting its multimerization and thus its ligase activity, an action that was postulated to block activation of the RIG-I pathway (Gack et al, 2009). However, not all human-circulating influenza A virus strains block RIG-I-mediated activation of IRF3 and interferon-β transcription (Kuo et al, 2016; 2010), although the NS1 proteins of all tested strains bind TRIM25 (Gack et al, 2009; Kuo et al, 2010; Rajsbaum et al, 2012). Notably, strong activation of IRF3 and interferon-β transcription still occurs in cells infected with viruses expressing NS1 proteins of human-circulating H3N2 and H2N2 viruses (Kuo et al, 2010; 2016).…”

Section: Introductionmentioning

confidence: 99%

“…However, not all human-circulating influenza A virus strains block RIG-I-mediated activation of IRF3 and interferon-β transcription (Kuo et al, 2016; 2010), although the NS1 proteins of all tested strains bind TRIM25 (Gack et al, 2009; Kuo et al, 2010; Rajsbaum et al, 2012). Notably, strong activation of IRF3 and interferon-β transcription still occurs in cells infected with viruses expressing NS1 proteins of human-circulating H3N2 and H2N2 viruses (Kuo et al, 2010; 2016). Consequently, binding of TRIM25 by the NS1 protein does not directly correlate to the suppression of interferon-β induction in influenza A virus-infected cells.…”

Section: Introductionmentioning

confidence: 99%

Nuclear TRIM25 Specifically Targets Influenza Virus Ribonucleoproteins to Block the Onset of RNA Chain Elongation

Meyerson

Zhou²,

Guo

et al. 2017

Cell Host & Microbe

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TRIM25 is an E3 ubiquitin ligase that activates RIG-I to promote the antiviral interferon response. The NS1 protein from all strains of influenza A virus binds TRIM25, although not all virus strains block the interferon response, suggesting alternative mechanisms for TRIM25 action. Here we present a nuclear role for TRIM25 in specifically restricting influenza A virus replication. TRIM25 inhibits viral RNA synthesis through a direct mechanism that is independent of its ubiquitin ligase activity and the interferon pathway. This activity can be inhibited by the viral NS1 protein. TRIM25 inhibition of viral RNA synthesis results from its binding to viral ribonucleoproteins (vRNPs), the structures containing individual viral RNA segments, the viral polymerase, and multiple viral nucleoproteins. TRIM25 binding does not inhibit initiation of capped-RNA-primed viral mRNA synthesis by the viral polymerase. Rather, the onset of RNA chain elongation is inhibited because TRIM25 prohibits the movement of RNA into the polymerase complex.

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“…The data are presented as the means ± SD derived from three repeat experiments. *P < 0.05 or **P < 0.01, ***P < 0.001 (Student's t-test).Qian et al NS1 Inhibits IFN-β through TRAF3 Frontiers in Immunology | www.frontiersin.org July 2017 | Volume 8 | Article 779translated from internal AUGs at positions 235 and 241 of the NS1 open reading frame, were found to inhibit the activation of IRF3 and IFN-β transcription(41). This observation is supported by our findings that the influenza A virus NS1 ED plays an important role in the ability of the NS1 protein to inhibit IFN-β pathway.…”

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confidence: 99%

The C-Terminal Effector Domain of Non-Structural Protein 1 of Influenza A Virus Blocks IFN-β Production by Targeting TNF Receptor-Associated Factor 3

et al. 2017

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Influenza A virus non-structural protein 1 (NS1) antagonizes interferon response through diverse strategies, particularly by inhibiting the activation of interferon regulatory factor 3 (IRF3) and IFN-β transcription. However, the underlying mechanisms used by the NS1 C-terminal effector domain (ED) to inhibit the activation of IFN-β pathway are not well understood. In this study, we used influenza virus subtype of H5N1 to demonstrate that the NS1 C-terminal ED but not the N-terminal RNA-binding domain, binds TNF receptor-associated factor 3 (TRAF3). This results in an attenuation of the type I IFN signaling pathway. We found that the NS1 C-terminal ED (named NS1/126-225) inhibits the active caspase activation and recruitment domain-containing form of RIG-I [RIG-I(N)]-induced IFN-β reporter activity, the phosphorylation of IRF3, and the induction of IFN-β. Further analysis showed that NS1/126-225 binds to TRAF3 through the TRAF domain, subsequently decreasing TRAF3 K63-linked ubiquitination. NS1/126-225 binding also disrupted the formation of the mitochondrial antiviral signaling (MAVS)–TRAF3 complex, increasing the recruitment of IKKε to MAVS; ultimately shutting down the RIG-I(N)-mediated signal transduction and cellular antiviral responses. This attenuation of cellular antiviral responses leads to evasion of the innate immune response. Taken together, our findings offer an important insight into the interplay between the influenza virus and host innate immunity.

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Role of N Terminus-Truncated NS1 Proteins of Influenza A Virus in Inhibiting IRF3 Activation

Cited by 35 publications

References 26 publications

Influenza Research Database: An integrated bioinformatics resource for influenza virus research

Influenza Research Database: An integrated bioinformatics resource for influenza virus research

Nuclear TRIM25 Specifically Targets Influenza Virus Ribonucleoproteins to Block the Onset of RNA Chain Elongation

The C-Terminal Effector Domain of Non-Structural Protein 1 of Influenza A Virus Blocks IFN-β Production by Targeting TNF Receptor-Associated Factor 3

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