Delivery of tumor-associated Ag-derived peptides in a high immunogenic form represents one of the key issues for effective peptide-based cancer vaccine development. We report herein the ability of nonpathogenic filamentous bacteriophage fd virions to deliver HLA-A2-restricted MAGE-A10(254-262)- or MAGE-A3(271-279)-derived peptides and to elicit potent specific CTL responses in vitro and in vivo. Interestingly, human anti-MAGE-A3(271-279)-specific CTLs were able to kill human MAGE-A3(+) tumor cells, even if these cells naturally express a low amount of MAGE-A3(271-279) peptide-HLA epitope surface complexes and are usually not recognized by CTLs generated by conventional stimulation procedures. MAGE-A3(271-279)-specific/CD8(+) CTL clones were isolated from in vitro cultures, and their high avidity for Ag recognition was assessed. Moreover, in vivo tumor protection assay showed that vaccination of humanized HHD (HLA-A2.1(+)/H2-D(b+)) transgenic mice with phage particles expressing MAGE-A3(271-279)-derived peptides hampered tumor growth. Overall, these data indicate that engineered filamentous bacteriophage virions increase substantially the immunogenicity of delivered tumor-associated Ag-derived peptides, thus representing a novel powerful system for the development of effective peptide-based cancer vaccines.
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| http://dx.doi.org/10.4049/jimmunol.180.6.3719 | DOI Listing |
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