Emerging Microbes and Infections (Jan 2016)

Middle East respiratory syndrome coronavirus M protein suppresses type I interferon expression through the inhibition of TBK1-dependent phosphorylation of IRF3

  • Pak-Yin Lui,
  • Lok-Yin Roy Wong,
  • Cheuk-Lai Fung,
  • Kam-Leung Siu,
  • Man-Lung Yeung,
  • Kit-San Yuen,
  • Chi-Ping Chan,
  • Patrick Chiu-Yat Woo,
  • Kwok-Yung Yuen,
  • Dong-Yan Jin

DOI
https://doi.org/10.1038/emi.2016.33
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 9

Abstract

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Middle East respiratory syndrome coronavirus (MERS-CoV) infection has claimed hundreds of lives and has become a global threat since its emergence in Saudi Arabia in 2012. The ability of MERS-CoV to evade the host innate antiviral response may contribute to its severe pathogenesis. Many MERS-CoV-encoded proteins were identified to have interferon (IFN)-antagonizing properties, which correlates well with the reduced IFN levels observed in infected patients and ex vivo models. In this study, we fully characterized the IFN-antagonizing property of the MERS-CoV M protein. Expression of MERS-CoV M protein suppressed type I IFN expression in response to Sendai virus infection or poly(I:C) induction. This suppressive effect was found to be specific for the activation of IFN regulatory factor 3 (IRF3) but not nuclear factor-κB. MERS-CoV M protein interacted with TRAF3 and disrupted TRAF3–TBK1 association leading to reduced IRF3 activation. M proteins from MERS-CoV and SARS-CoV have three highly similar conserved N-terminal transmembrane domains and a C-terminal region. Using chimeric and truncation mutants, the N-terminal transmembrane domains of the MERS-CoV M protein were found to be sufficient for its inhibitory effect on IFN expression, whereas the C-terminal domain was unable to induce this suppression. Collectively, our findings suggest a common and conserved mechanism through which highly pathogenic MERS-CoV and SARS-CoV harness their M proteins to suppress type I IFN expression at the level of TBK1-dependent phosphorylation and activation of IRF3 resulting in evasion of the host innate antiviral response.Emerging Microbes and Infections (2016) 5, e39; doi:10.1038/emi.2016.33; published online 20 April 2016

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