Abstract
Vaccines that incorporate peptide mimics of tumor antigens, or mimotope vaccines, are commonly used in cancer immunotherapy and function by eliciting increased numbers of T cells that cross-react with the native tumor antigen. Unfortunately, they often elicit T cells that do not cross-react with or that have low affinity for the tumor antigen. Using a high affinity tumor-specific T cell clone, we identified a panel of mimotope vaccines for the dominant peptide antigen from a mouse colon tumor that elicits a range of tumor protection following vaccination. The TCR from this high affinity T cell clone was rarely identified in ex vivo evaluation of tumor-specific T cells elicited by mimotope vaccination. Conversely, a low affinity clone found in the tumor and following immunization was frequently identified. Using peptide libraries, we determined if this frequently identified TCR improved the discovery of efficacious mimotopes. We demonstrated that the representative TCR identified more protective mimotopes than the high affinity TCR. These results suggest that targeting a dominant fraction of tumor-specific T cells generates potent immunity and that consideration of the available T cell repertoire is necessary for targeted T cell therapy. These results have important implications when optimizing mimotope vaccines for cancer immunotherapy.
Highlights
Vaccination with mimotopes, peptide mimics of epitopes, stimulates a range of T cell protection
Using a high affinity tumorspecific T cell clone, we identified a panel of mimotope vaccines for the dominant peptide antigen from a mouse colon tumor that elicits a range of tumor protection following vaccination
We asked here whether the CT T cell clone was appropriate for effective mimotope selection because it has high affinity for the dominant tumor antigen and effectively kills CT26 tumor cells [37]
Summary
Vaccination with mimotopes, peptide mimics of epitopes, stimulates a range of T cell protection. T cell tolerance, low affinity of self-antigens for MHCs or TCRs, and the immunosuppressive environment of tumors may all contribute to the minimal expansion of tumor-specific T cells in response to peptide vaccines used to treat cancer patients [20]. Using the mouse colon carcinoma CT26, we have applied several screening techniques for peptide mimics of the immunodominant self-antigen gp70432-431 (AH1), including positional scanning formats [37], combinatorial peptide libraries [36], and baculovirus-encoded peptide libraries [38] We screened these peptide libraries for candidate mimotope vaccines based on the response of a high affinity tumor-specific T cell clone, CT, which was propagated after limiting dilution of T cells from a CT26-GM-vaccinated mouse [37]. Recent advances in sequencing technology allowed for in depth investigation of endogenous T cell responses within tumors and the identification of optimal TCRs to be exploited for mimotope discovery
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