Abstract
Phylogenetic analyses indicate that canine influenza viruses (CIVs) (H3N8) evolved from contemporary equine influenza virus (EIV). Despite the genetic relatedness of EIV and CIV, recent evidence suggests that CIV is unable to infect, replicate, and spread among susceptible horses. To determine whether equine H3N8 viruses have equally lost the ability to infect, cause disease, and spread among dogs, we evaluated the infectivity and transmissibility of a recent Florida sublineage EIV isolate in dogs. Clinical signs, nasal virus shedding, and serological responses were monitored in dogs for 21 days after inoculation. Real-time reverse transcription-PCR and hemagglutination inhibition assays showed that both the viruses have maintained the ability to infect and replicate in dogs and result in seroconversion. Transmission of EIV from infected to sentinel dogs, however, was restricted. Furthermore, both CIV and EIV exhibited similar sialic acid-α2,3-gal receptor-binding preferences upon solid-phase binding assays. The results of the in vivo experiments reported here suggesting that dogs are susceptible to EIV and previous reports by members of our laboratory showing limited CIV infection in horses have been mirrored in CIV and EIV infections studies in primary canine and equine respiratory epithelial cells.
Highlights
Due to the partial host range restriction of influenza A viruses, transmission of an influenza virus from one species to another is relatively rare
Phylogenetic analyses of the hemagglutinin protein (HA) genes (Figure 1) demonstrated that Ca/CO-1, Ca/WY, and Ca/CO-2 clustered with the canine isolates and Eq/CO clustered with the contemporary equine viruses, placing them into the previously described distinct canine and equine sublineages of the equine H3 “Florida lineage.”
Several dogs exposed to Ca/WY seroconverted without ever showing evidence of infection by viral shedding. These results suggest that, infection and replication of a contemporary equine influenza virus (EIV) in dogs are experimentally possible, there remains a barrier to transmission among dogs, which is possibly due to differences in EIV and canine influenza viruses (CIVs) gene segment moieties and/or to the early host immune responses these differences elicit
Summary
Due to the partial host range restriction of influenza A viruses, transmission of an influenza virus from one species to another is relatively rare. Such cross-species transmission events do occur and have generated severe disease outbreaks in new host species. The 1918 “Spanish flu” is a classic example of cross-species transmission with devastating results, as the influenza virus involved with the pandemic was likely transmitted directly from birds to humans [1]. Crossspecies transmission of influenza is frequently preceded by an exchange of gene segments between two viruses, “genetic reassortment,” resulting in even greater genetic variability [14,15,16]
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