PLoS Pathogens (Feb 2019)

Absence of adaptive evolution is the main barrier against influenza emergence in horses in Asia despite frequent virus interspecies transmission from wild birds.

  • Henan Zhu,
  • Batchuluun Damdinjav,
  • Gaelle Gonzalez,
  • Livia Victoria Patrono,
  • Humberto Ramirez-Mendoza,
  • Julien A R Amat,
  • Joanna Crispell,
  • Yasmin Amy Parr,
  • Toni-Ann Hammond,
  • Enkhtuvshin Shiilegdamba,
  • Y H Connie Leung,
  • Malik Peiris,
  • John F Marshall,
  • Joseph Hughes,
  • Martin Gilbert,
  • Pablo R Murcia

DOI
https://doi.org/10.1371/journal.ppat.1007531
Journal volume & issue
Vol. 15, no. 2
p. e1007531

Abstract

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Virus ecology and evolution play a central role in disease emergence. However, their relative roles will vary depending on the viruses and ecosystems involved. We combined field studies, phylogenetics and experimental infections to document with unprecedented detail the stages that precede initial outbreaks during viral emergence in nature. Using serological surveys we showed that in the absence of large-scale outbreaks, horses in Mongolia are routinely exposed to and infected by avian influenza viruses (AIVs) circulating among wild birds. Some of those AIVs are genetically related to an avian-origin virus that caused an epizootic in horses in 1989. Experimental infections showed that most AIVs replicate in the equine respiratory tract without causing lesions, explaining the absence of outbreaks of disease. Our results show that AIVs infect horses but do not spread, or they infect and spread but do not cause disease. Thus, the failure of AIVs to evolve greater transmissibility and to cause disease in horses is in this case the main barrier preventing disease emergence.