Abstract
For a vaccine to be effective it must induce a sufficiently robust and specific immune response. Multi-site injection protocols can increase the titers of rabies virus-neutralizing antibodies. Hypothetically, spreading a vaccine dose across multiple lymphatic drainage regions could also potentiate T cell responses. We used a replication-deficient adenovirus serotype 5-vectored cancer vaccine targeting the melanoma-associated antigen dopachrome tautomerase. Clinically, high numbers of tumor-infiltrating CD8+ T cells are a positive prognostic indicator. As such, there is interest in maximizing tumor-specific T cell responses. Our findings confirm a positive correlation between the number of tumor-specific T cells and survival. More importantly, we show for the first time that using multiple injection sites could increase the number of vaccine-induced CD8+ T cells specific for a self-tumor antigen. Further, the number of tumor antigen-specific antibodies, as well CD8+ T cells specific for a foreign antigen could also be enhanced. Our results show that multi-site vaccination induces higher magnitude immune responses than a single-bolus injection. This provides a very simple and almost cost-free strategy to potentially improve the efficacy of any current and future vaccine. Broader clinical adoption of multi-site vaccination protocols for the treatment of cancers and infectious diseases should be given serious consideration.
Highlights
Increasing the number of injection sites for a cancer vaccine correlates with higher magnitude tumour-specific T cell and antibody responses
We always delivered pre-clinical cancer vaccines intramuscularly into both hind limbs of mice instead of as a single bolus. This assumed that higher magnitude tumor-specific immune responses would translate into better efficacy
We leveraged the relatively broad range in the magnitude of immune responses that could be generated in a large number of mice using the two-site injection protocol to determine if T cell numbers correlated with survival in a metastatic model of B16-F10 melanoma in the brain[9]
Summary
Increasing the number of injection sites for a cancer vaccine correlates with higher magnitude tumour-specific T cell and antibody responses. Eleven days post-vaccination (peak of the primary response), blood-derived CD8+ T cells specific for the immunodominant self-epitope DCT180-188 were quantified. Knowing that Ad5-DCT-induced immune responses in blood correlated with survival, we focused on testing the hypothesis that multi-site vaccination could induce more transgene-specific T cells than a single-bolus delivery.
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