2 min readAvian Influenza Virus Isolated in Harbor Seals Poses a Threat to Humans
Memphis, TN — A study led by St. Jude Children’s Research Hospital scientists found the avian influenza A H3N8 virus that killed harbour seals along the New England coast can spread through respiratory droplets and poses a threat to humans.
The research appears in the current issue of the scientific journal Nature Communications.
The avian H3N8 virus was isolated by scientists investigating the 2011 deaths of more than 160 harbour seals. Researchers discovered the virus had naturally acquired mutations in a key protein that previous laboratory research had shown allowed the highly pathogenic avian H5N1 virus to spread though respiratory droplets. Scientists reported that the avian H3N8 seal virus infected and grew in human lung cells. Researchers also found that the virus spread in ferrets though respiratory transmission, which is uncommon for avian flu viruses and raises concerns about possible person-to-person airborne spread of the harbour seal virus. Investigators found no evidence of human immunity to the strain.
“This study highlights a gain-of-function experiment that occurred in nature and shows us there are avian flu viruses out there beyond H5N1 and H7N9 that could pose a threat to humans,” said corresponding author Dr. Stacey Schultz-Cherry, a member of the St. Jude Department of Infectious Diseases. In recent years, human cases of highly pathogenic avian H5N1 and H7N9 flu have been confirmed in countries around the world, with mortality rates approaching 60 percent.
“Avian H3N8 viruses are established in horses and dogs. This study raises a red flag about the threat this strain poses to humans exposed to animals infected with the virus,” Schultz-Cherry said. While no human illness was linked to the 2011 harbour seal virus, a different flu virus has spread from infected seals to humans who came in close contact with the animals. Avian H3N8 is also believed to have triggered a human flu pandemic in the 1880s.
The findings reinforce the need for continued surveillance of flu viruses circulating in wild and domestic animals to understand the risk the viruses pose to humans, said the study’s first author Dr. Erik Karlsson, a St. Jude postdoctoral fellow.
The H3N8 harbour seal virus caught the attention of researchers when sequencing showed the virus included two particular mutations in the hemagglutinin (HA) protein and a change in the PB2 gene. HA is carried on the surface of the flu virus. The virus depends on HA to bind to and infect cells. The PB2 mutation was associated with more severe illness in mice. The HA and PB2 changes were among a handful of genetic alterations that in 2012 other scientists reported were sufficient to allow the highly pathogenic H5N1 to spread in ferrets via respiratory droplets.
In this study, two of the three animals exposed to the harbour seal virus via respiratory transmission became infected, although symptoms were mild. Airborne transmission did not occur with the five other avian viruses tested, but two of the viruses spread in ferrets that shared cages. Both viruses were close genetic relatives of the harbour seal virus. Scientists want to understand the genetic changes that make respiratory transmission of avian H3N8 virus possible and the likelihood that related flu viruses will or have acquired those alterations.
Researchers also checked blood samples from 102 individuals vaccinated against seasonal flu strains between 2009 and 2011, including the human H3N2 flu strain. There was no evidence that seasonal flu vaccines protected against the harbour seal virus. “The transmissibility of the seal H3N8 virus coupled with the apparent lack of immunity makes this strain a concern,” researchers noted.
Article adapted from a St. Jude Children’s Research Hospital news release.
Publication: Respiratory transmission of an avian H3N8 influenza virus isolated from a harbour seal. Erik A. Karlsson, Hon S. Ip, Jeffrey S. Hall, Sun Woo Yoon, Jordan Johnson, Melinda A. Beck, Richard J. Webby, Stacey Schultz-Cherry. Nature Communications, 2014): Click here to view.