In a previous vaccination study in pigs, heterologous prime-boost vaccination with whole-inactivated H1N1 virus vaccines (WIV) induced superior antibody responses and protection compared to homologous prime-boost vaccination. However, no pan-H1 antibody response was induced. Therefore, to stimulate both local and systemic immune responses, we first vaccinated pigs intranasally with a pseudorabies vector vaccine expressing the pH1N1 hemagglutinin (prvCA09) followed by a homologous or heterologous WIV booster vaccine. Homologous and heterologous WIV-WIV vaccinated groups and mock-vaccinated or prvCA09 single-vaccinated pigs served as control groups. Five weeks after the second vaccination, pigs were challenged with a homologous pH1N1 or one of two heterologous H1N2 swine influenza A virus strains. A single prvCA09 vaccination resulted in complete protection against homologous challenge, and vector-WIV vaccinated groups were significantly better protected against heterologous challenge compared to the challenge control group or WIV-WIV vaccinated groups. Furthermore, vector-WIV vaccination resulted in broader hemagglutination inhibition antibody responses compared to WIV-WIV vaccination and higher numbers of antibody-secreting cells in peripheral blood, draining lymph nodes and nasal mucosa. However, even though vector-WIV vaccination induced stronger antibody responses and protection, we still failed to induce a pan-H1 antibody response.
Keywords: ELISPOT; H1N1; antibody cross-reactivity; attenuated PrV strain Bartha; cross-protection; heterologous prime-boost; swine influenza A virus; vaccination; vectored vaccine.