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Identification and Characterization of a Human Agonist Cytotoxic T-Lymphocyte Epitope of Human Prostate-specific Antigen

Laboratory of Tumor Immunology and Biology, Center for Cancer Research, National Cancer Institute, NIH, Bethesda, Maryland 20892

One potential target of vaccine therapy for human prostate cancer is the prostate-specific antigen (PSA). One strategy to enhance the immunogenicity of a self-antigen such as PSA is to develop agonist epitopes that are potentially more immunogenic. The studies described here report the design and analysis of an agonist epitope designated PSA-3A ("A" for agonist) of the PSA-3 CTL epitope. Studies demonstrate that when compared with the native PSA-3 epitope, the PSA-3A agonist demonstrates enhanced binding to the MHC class I A2 allele as well as enhanced stability of the peptide-MHC complex. T-cell lines generated with either the PSA-3 or the PSA-3A peptide showed higher levels of lysis of targets pulsed with the PSA-3A peptide than those targets pulsed with the PSA-3 peptide; this was observed when both the concentration of peptide and the ratio of effector to target cells were titrated. T cells stimulated with dendritic cells (DCs) pulsed with PSA-3A peptide produced higher levels of IFN- than did DCs pulsed with PSA-3 peptide; however, no increase in apoptosis was seen in T cells stimulated with the PSA-3A agonist compared with those stimulated with PSA-3. Human T-cell lines generated with the PSA-3A agonist had the ability to lyse human prostate carcinoma cells expressing native PSA in an MHC-restricted manner. Recombinant vaccinia viruses were also constructed that contained the entire PSA transgene with and without the single amino acid change that constitutes the PSA-3A epitope; DCs infected with the recombinant vector containing the agonist amino acid change within the entire PSA gene (designated rV-PSA-3A) were more effective than DCs infected with the rV-PSA vector in enhancing IFN- production by T cells. Finally, the PSA-3A agonist was shown to induce higher levels of T-cell activation, compared with the PSA-3 peptide, in an in vivo model using HLA-A2.1/K^b transgenic mice. These studies thus demonstrate the potential use of the PSA-3A agonist epitope in both peptide- and vector-mediated immunotherapy protocols for prostate cancer.

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