Suppression of vaccination-induced antigen-specific regulatory T cells enhances the antiviral immunity against influenza virus infection

Abstract

Abstract T cell immunity targeting the conserved epitopes of influenza virus has the potential to provide cross-protection against distinctly-related strains. Peptide vaccines are an ideal strategy to induce specific antiviral T cell immunity, but subimmunogenic stimulation by peptide vaccines tend to induce regulatory T (Treg) cells. However, it remains unclear about the roles of vaccine-induced antigen-specific Treg cells in vivo. Here, we aimed to investigate how vaccine-induced antigen-specific Treg cells respond during acute influenza virus infection, and the effects of adjuvants on them. By adoptive transfer experiments with OT-II TCR transgenic T cells, we found that the OVA OT-II peptide vaccine induced Treg cells and secondary vaccination further expanded them. Infection with influenza virus containing the OVA OT-II peptide also drove the expansion of pre-existing vaccine-induced Treg cells. Importantly, specific depletion of vaccine-induced antigen-specific Treg cells enhanced the antiviral immunity. Vaccination combined with adjuvants, especially with CpG, suppressed the development of vaccine-induced antigen-specific Treg cells. Finally, CpG-adjuvanted OVA protein or whole inactivated influenza vaccine by the subcutaneous-prime-intranasal-boost strategy reduced the ratio of antigen-specific Treg cells in lung and protected mice from the heterosubtypic influenza infection. In conclusion, unadjuvanted peptide vaccines promoted antigen-specific Treg cells, which were further expanded upon acute influenza infection. The CpG adjuvant restricted the development of vaccine-induced antigen-specific Treg cells, and enhanced the antiviral T cell immunity against heterosubtypic influenza infection.