Identification of CD8+ T cell epitopes that can induce T cells to kill tumor cells is a fundamental step for development of a peptide cancer vaccine. POTE protein is a newly identified cancer antigen that was found to be expressed in a wide variety of human cancers, including prostate, colon, lung, breast, ovary and pancreas. Here, we determined HLA-A2.1-restricted cytotoxic T lymphocyte (CTL) epitopes in the POTE protein, and also designed enhanced epitopes by amino acid (AA) substitutions. Five 9-mer peptides were first selected and their binding affinity to HLA-A2 molecules was measured by the T2 binding assay. POTE 272–280 and POTE 323–331 showed the strongest HLA-A2 binding affinity. AA substituted peptides POTE 252-9V (with valine at position 9), POTE 553-1Y (with tyrosine at position 1) and POTE 323-3F (with phenylalanine at position 3) conferred higher affinity for HLA-A2, and induced CTL responses cross-reactive with wild type antigens. While POTE 252-9V was the strongest in this respect, POTE 323-3F had the greatest increase in immunogenicity compared to wild type. Importantly, two modified epitopes (POTE-553-1Y and POTE-323-3F) induced CTLs that killed NCI-H522, a POTE-expressing HLA-A2+ human non-small cell lung cancer cell line, indicating natural endogenous processing of these epitopes. In conclusion, the immunogenicity of POTE epitopes can be enhanced by peptide modification to induce T cells that kill human cancer cells. A combination of POTE 553-1Y and POTE 323-3F epitopes might be an attractive vaccine strategy for HLA-A2 cancer patients to overcome tolerance induced by tumors and prevent escape.
CD1d-restricted type I NKT cells have been shown to play a critical role in the induction of tumor immunity by producing IFN-γ, which activates effector arms such as NK cells and CD8+ T cells. It has been considered that IFN-γ is necessary for type I NKT cell-induced tumor immunity. In this study, we show that type I NKT cells can induce strong tumor immunity through an IFN-γ-independent pathway when activated with a new type of agonistic antigen, β-mannosylceramide (β-ManCer). The protection induced by β-ManCer treatment was completely abrogated in type I NKT cell deficient Jα18 KO mice. With the observations that in vitro activation of type I NKT cells by β-ManCer was blocked by anti-CD1d blocking monoclonal antibody and that β-ManCer-loaded CD1d dimers bind to type I NKT cells and stimulate type I NKT cell hybridomas in an APC-free system, we concluded that recognition of CD1d presented β-ManCer by a TCR of type I NKT cells is necessary for the protection. Surprisingly β-ManCer-induced protection was not abrogated in IFN-γ deficient mice, which is in contrast with the protection induced by a prototypic agonist α-galactosylceramide (α-GalCer). Instead, β-ManCer-induced protection was dependent on nitric oxide synthase (NOS) and TNF-α since blockade of either completely abrogated the protection while the blockade did not affect protection induced by α-GalCer. The conclusion that NKT cells activated with β-ManCer utilize a different pathway from that used by the cells activated with α-GalCer to enhance tumor immunity was confirmed with the observation that the combination of both antigens synergistically enhanced tumor immunity when suboptimal doses of each were used. These data demonstrate that NKT cells mediate tumor immunity through a TNF-α- and NOS-dependent pathway when stimulated with β-ManCer and that β-ManCer represents a new class of type I NKT cell agonist. Since we observed that human type I NKT cells also can be activated by β-ManCer, β-ManCer may provide a new intervention against cancer. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 4746. doi:10.1158/1538-7445.AM2011-4746
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