Abstract
Current influenza vaccines are effective but imperfect, failing to cover against emerging strains of virus and requiring seasonal administration to protect against new strains. A key step to improving influenza vaccines is to improve our understanding of vaccine-induced protection. While it is clear that antibodies play a protective role, vaccine-induced CD8+ T cells can improve protection. To further explore the role of CD8+ T cells, we used a DNA vaccine that encodes antigen dimerized to an immune cell targeting module. Immunizing CB6F1 mice with the DNA vaccine in a heterologous prime-boost regime with the seasonal protein vaccine improved the resolution of influenza disease compared with protein alone. This improved disease resolution was dependent on CD8+ T cells. However, DNA vaccine regimes that induced CD8+ T cells alone were not protective and did not boost the protection provided by protein. The MHC-targeting module used was an anti-I-Ed single chain antibody specific to the BALB/c strain of mice. To test the role of MHC targeting, we compared the response between BALB/c, C57BL/6 mice, and an F1 cross of the two strains (CB6F1). BALB/c mice were protected, C57BL/6 were not, and the F1 had an intermediate phenotype; showing that the targeting of antigen is important in the response. Based on these findings, and in agreement with other studies using different vaccines, we conclude that, in addition to antibody, inducing a protective CD8 response is important in future influenza vaccines.
Highlights
The annual burden of influenza is significant, with the WHO estimating one billion cases of infection a year
The DNA vaccine construct for these studies encoded the HA gene from influenza Eng/195 (H1N1) dimerized to an anti-I-Ed MHC class II scFv with a dimerization unit consisting of h1 + h4 + CH3 domains from human IgG3
CB6F1 mice were used for these studies, and they are the F1 cross of BALB/c (I-Ed) and C57BL/6 (I-Eb) strains
Summary
The annual burden of influenza is significant, with the WHO estimating one billion cases of infection a year. An estimate from 2008 suggests that about 90 million cases are in children under 5 years of age [1]. This huge burden of disease is in spite of there being seasonal vaccines for influenza: these vaccines are not available for the global population and, due to the changing. For the current generation of strain-specific protein vaccines, antibody is a valuable correlate of protection. HAI titer fails to take into account the role of T cells in the vaccine response to influenza, which may contribute to cross protection [3]
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