Abstract
BackgroundH5N2 avian influenza viruses (AIVs) can infect individuals that are in frequent contact with infected birds. In 2013, we isolated a novel reassortant highly pathogenic H5N2 AIV strain [A/duck/Zhejiang/6DK19/2013(H5N2) (6DK19)] from a duck in Eastern China. This study was undertaken to understand the adaptive processes that led enhanced replication and increased virulence of 6DK19 in mammals. 6DK19 was adapted to mice using serial lung-to-lung passages (10 passages total). The virulence of the wild-type virus (WT-6DK19) and mouse-adapted virus (MA-6DK19) was determined in mice. The whole-genome sequences of MA-6DK19 and WT-6DK19 were compared to determine amino acid differences.FindingsAmino acid changes were identified in the MA-DK19 PB2 (E627K), PB1 (I181T), HA (A150S), NS1 (seven amino acid extension “WRNKVAD” at the C-terminal), and NS2 (E69G) proteins. Survival and histology analyses demonstrated that MA-6DK19 was more virulent in mice than WT-6DK19.ConclusionOur results suggest that these substitutions are involved in the enhanced replication efficiency and virulence of H5N2 AIVs in mammals. Continuing surveillance for H5N2 viruses in poultry that are carrying these mutations is required.Electronic supplementary materialThe online version of this article (doi:10.1186/s12985-016-0612-5) contains supplementary material, which is available to authorized users.
Highlights
H5N2 avian influenza viruses (AIVs) can infect individuals that are in frequent contact with infected birds
Our results suggest that these substitutions are involved in the enhanced replication efficiency and virulence of H5N2 AIVs in mammals
Given that highly pathogenic H5 AIVs continue to cross into the human population and that humans lack pre-existing immunity to the viruses, there is the possibility that a pandemic human influenza virus will emerge
Summary
H5N2 avian influenza viruses (AIVs) can infect individuals that are in frequent contact with infected birds. In addition to active surveillance of LPMs for emergent AIVs, it is necessary to understand the adaptive processes that cause H5N2 AIVs to become highly pathogenic (defined as enhanced replication and increased virulence) in mammals. This study was undertaken to investigate the amino acid substitutions associated with adaptation of 6DK19 to mammals, and to determine the virulence of mouse-adapted 6DK19 in vivo.
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