Emerging Infectious Diseases (Dec 2021)

Surface‒Aerosol Stability and Pathogenicity of Diverse Middle East Respiratory Syndrome Coronavirus Strains, 2012‒2018

  • Neeltje van Doremalen,
  • Michael Letko,
  • Robert J. Fischer,
  • Trenton Bushmaker,
  • Jonathan Schulz,
  • Claude K. Yinda,
  • Stephanie N. Seifert,
  • Nam Joong Kim,
  • Maged G. Hemida,
  • Ghazi Kayali,
  • Wan Beom Park,
  • Ranawaka A.P.M. Perera,
  • Azaibi Tamin,
  • Natalie J. Thornburg,
  • Suxiang Tong,
  • Krista Queen,
  • Maria D. van Kerkhove,
  • Young Ki Choi,
  • Myoung-don Oh,
  • Abdullah M. Assiri,
  • Malik Peiris,
  • Susan I. Gerber,
  • Vincent J. Munster

DOI
https://doi.org/10.3201/eid2712.210344
Journal volume & issue
Vol. 27, no. 12
pp. 3052 – 3062

Abstract

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Middle East respiratory syndrome coronavirus (MERS-CoV) infects humans and dromedary camels and is responsible for an ongoing outbreak of severe respiratory illness in humans in the Middle East. Although some mutations found in camel-derived MERS-CoV strains have been characterized, most natural variation found across MERS-CoV isolates remains unstudied. We report on the environmental stability, replication kinetics, and pathogenicity of several diverse isolates of MERS-CoV, as well as isolates of severe acute respiratory syndrome coronavirus 2, to serve as a basis of comparison with other stability studies. Although most MERS-CoV isolates had similar stability and pathogenicity in our experiments, the camel-derived isolate C/KSA/13 had reduced surface stability, and another camel isolate, C/BF/15, had reduced pathogenicity in a small animal model. These results suggest that although betacoronaviruses might have similar environmental stability profiles, individual variation can influence this phenotype, underscoring the need for continual global viral surveillance.

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