Background: Both pandemic and interpandemic influenza is associated with high morbidity and mortality worldwide. Seasonal epidemics are caused by both influenza A and B virus strains that cocirculate with varying predominance and may give rise to severe illness equally. According to World Health Organization recommendations, current annual vaccines are composed of 2 type A and 1 type B virus-specific component.
Methods: As a novel attenuated live vaccine against influenza B virus, we generated a hemagglutinin cleavage site mutant of strain B/Lee/40 by replacing the common monobasic cleavage site recognized by trypsinlike proteases with an elastase-sensitive site, and we investigated the in vitro properties, attenuation, humoral responses, and efficacy in mice.
Results: This mutant virus replicated in cell culture equally well as the wild type but in a strictly elastase-dependent manner. In contrast to the mouse-pathogenic parental virus, the cleavage site mutant was fully attenuated in mice and not detectable in their lungs. After 1 intranasal immunization, the animals survived lethal challenge with wild-type virus without weight loss or any other signs of disease. Furthermore, no challenge virus could be reisolated from the lungs of vaccinated mice.
Conclusions: These findings demonstrate that proteolytic activation mutants can serve as live vaccine against influenza B virus.