A naturally occurring HA-stabilizing amino acid (HA1-Y17) in an A(H9N2) low-pathogenic influenza virus contributes to airborne transmission

Airborne transmissibility is a prerequisite for a pandemic influenza A virus (IAV), and a better understanding of how zoonotic IAV evolves to acquire a transmissible phenotype is essential for pandemic preparedness. Select contemporary influenza A(H9N2) viruses such as A/Anhui-Lujiang/39/2018 (AL/39) have exhibited a limited transmission capability by the airborne route in the ferret model; therefore, it is of great importance to identify viral factors that contribute to enhanced transmission. To investigate the role of virus acid stability in virus airborne transmission, we rescued a pair of isogenic A(H9N2) viruses, including the wild-type (wt) AL/39 and the mutant virus bearing a naturally occurring substitution HA1-Y17H, with a resulting difference in virus pH thresholds for hemagglutinin activation. We next assessed virus replication, airborne transmission, and fitness in a co-infection competition model in ferrets. We found that the HA1-Y17H mutant virus yielded only non-productive airborne transmission despite possessing a comparative replication as the wt virus in the ferret upper respiratory tract. Furthermore, ferrets inoculated with the wt virus emitted more virus-laden particles into the air than the HA1-Y17H mutant virus-inoculated animals. During ferret co-infection experiments, the wt virus was the dominant species in multiple types of specimens following different inoculation routes. Taken together, our study demonstrates that an acid-stable IAV had a greater capacity to establish a productive infection in the ferret upper respiratory tract and was emitted in greater quantities from infected animals, features that may contribute to virus airborne transmission in a synergistic manner in mammalian hosts.IMPORTANCEDespite the accumulation of evidence showing that airborne transmissible influenza A virus (IAV) typically has a lower pH threshold for hemagglutinin (HA) fusion activation, the underlying mechanism for such a link remains unclear. In our study, by using a pair of isogenic ...