Evolution of influenza A virus hemagglutinin H1 and H3 across host species

The Influenza A virus (IAV) hemagglutinin protein (HA) has been studied extensively, but its evolution has not been thoroughly compared among major host species. We compared H3 and H1 evolutionary rates among 49 lineages differentiated by host (avian, canine, equine, human, swine), phylogeny, and geography. Rates of nonsynonymous evolution, relative to synonymous rates, were higher in mammalian than avian hosts. Human seasonal HA and classical swine H1 accumulated 11-13 glycosylation sites, primarily in the antigenically important head domain, whereas lower numbers were maintained in other hosts. Canines had the highest ratio of nonsynonymous to synonymous changes in the more conserved stalk domain. Amino acid changes in canine viruses occurred disproportionately at residues located at protein interfaces. This suggests that they were adaptations affecting the major structural rearrangement of HA, which is critical for cell entry. These findings invite further study of how host ecology and physiology affect natural selection. AUTHOR SUMMARY Influenza virus evolution is of practical importance to health in addition to being an excellent system for the study of parasite/host evolution. Our work explores a largely untapped aspect of influenza evolution: sequence evolution in non-human hosts. This is important in its own right, in terms of both science and domestic animal health. It also puts the evolution of human influenza in a larger, comparative context. Our results also provide evidence concerning the evolution of the hemagglutinin stem domain, which has not been a focus of study but has new importance due to the development of stem-based universal influenza vaccines. ### Competing Interest Statement The authors have declared no competing interest.