A hemagglutinin and neuraminidase biased immunological memory shapes the dynamics of antibody responses to Influenza A virus

Influenza A virus (IAV) infection establishes a more diverse immunological memory to different viral proteins compared to vaccination. We hypothesized that the relative abundance of pre-existing immune memory to different viral antigens could skew post-infection antibody responses. To explore this, we generated mouse models with either an IAV hemagglutinin (HA)- or neuraminidase (NA)-biased immunological memory. We inoculated groups of mice with cocktails of isogenic viruses bearing antigenically-distinct HA (H3v) or NA (N2v) chosen to span the IAV H3N2 human circulation history. We challenged the mice with two H3N2 strains of opposing virulence and antigenic distance (AD) and examined the post-infection antibody landscapes. In both challenges, immune-naïve mice seroconverted to both HA and NA whereas in primed mice, antibody response was detected to the antigen for which there is no pre-existing memory. In cases where the homologous antibody response was blunted, there was diversification on the breadth of response to antigenically-related strains with low baseline titers. Our findings clarifies the concept of “original antigenic sin” and demonstrate a mechanism by which the dynamics of antibody responses to HA and NA after infection can be altered by pre-existing immunity.