Middle East respiratory syndrome coronavirus nonstructural protein 16 is necessary for interferon resistance and viral pathogenesis

Vineet D. Menachery, Lisa E. Gralinski, Hugh D. Mitchell, Kenneth H. Dinnon, Sarah R. Leist, Boyd L. Yount, Rachel L. Graham, Eileen T. McAnarney, Kelly G. Stratton, Adam S. Cockrell, Kari Debbink, Amy C. Sims, Katrina M. Waters, Ralph S. Baric

Research output: Contribution to journalArticlepeer-review

52 Scopus citations


Coronaviruses (CoVs) encode a mixture of highly conserved and novel genes, as well as genetic elements necessary for infection and pathogenesis, raising the possibility of common targets for attenuation and therapeutic design. In this study, we focused on highly conserved nonstructural protein 16 (NSP16), a viral 2'Omethyltransferase (2'O-MTase) that encodes critical functions in immune modulation and infection. Using reverse genetics, we disrupted a key motif in the conserved KDKE motif of Middle East respiratory syndrome CoV (MERS-CoV) NSP16 (D130A) and evaluated the effect on viral infection and pathogenesis. While the absence of 2'OMTase activity had only a marginal impact on propagation and replication in Vero cells, dNSP16 mutant MERS-CoV demonstrated significant attenuation relative to the control both in primary human airway cell cultures and in vivo. Further examination indicated that dNSP16 mutant MERS-CoV had a type I interferon (IFN)-based attenuation and was partially restored in the absence of molecules of IFN-induced proteins with tetratricopeptide repeats. Importantly, the robust attenuation permitted the use of dNSP16 mutant MERS-CoV as a live attenuated vaccine platform protecting from a challenge with a mouse-adapted MERS-CoV strain. These studies demonstrate the importance of the conserved 2'O-MTase activity for CoV pathogenesis and highlight NSP16 as a conserved universal target for rapid live attenuated vaccine design in an expanding CoV outbreak setting.

Original languageEnglish (US)
Article numbere00346-17
Issue number6
StatePublished - Nov 1 2017


  • Coronavirus
  • Emerging virus
  • IFIT
  • Live attenuated
  • MERS-CoV
  • Methyltransferase
  • SARS-CoV
  • Vaccine

ASJC Scopus subject areas

  • Microbiology
  • Molecular Biology


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