Murine Cross-Reactive Nonneutralizing Polyclonal IgG1 Antibodies Induced by Influenza Vaccine Inhibit the Cross-Protective Effect of IgG2 against Heterologous Virus in Mice
Meito Shibuya, Taiki Aoshi, Etsushi Kuroda, Yasuo Yoshioka
Abstract
Current influenza vaccines are generally effective against highly similar virus strains by inducing neutralizing antibodies. However, these antibodies fail to neutralize antigenically mismatched (heterologous) strains and therefore provide limited protection against them. Efforts are being made to develop vaccines with cross-protective ability that would protect broadly against heterologous strains, because the mismatch between predicted and epidemic strains cannot always be avoided, resulting in low vaccine efficacy. Here, we show that nonneutralizing IgG2 antibodies induced by an optimal adjuvant play a crucial role in cross-protection against heterologous virus challenge in mice. Furthermore, nonneutralizing polyclonal IgG1 suppressed the cross-protective effects of nonneutralizing polyclonal IgG2 by competitively blocking the binding of IgG2 to its antigen. These data shed new light on the importance of IgG isotypes and the selection of appropriate adjuvants for the development of universal influenza vaccines. Furthermore, our findings are applicable to the rational design of vaccines against other pathogens.