Identification of HER-2/neu peptide p373-382 as a naturally processed immunodominant HLA-A2 binding epitope (46.11)

Abstract

Abstract HER2 is a prime target for cancer therapeutics due to its high overexpression in tumors. Advanced clinical trials, in breast and prostate cancer, investigating the use of the HLA-A2-binding HER2 peptide p369-377 (E75) as a vaccine are ongoing. In the present study, we investigated the proteasomal processing of p369-377 and other epitopes from HER2. We did not detect processing of p369-377 by either the proteasome or immunoproteasome in vitro, suggesting that tumor cells do not naturally process this epitope from HER2 for presentation on HLA-A2. However, other HER2 peptides were found to be consistently processed by the proteasome and immunoproteasome. One newly identified processed peptide, HER2 p373-382, was found to bind HLA-A2 stronger than p369-377, despite algorithms that predicted p369-377 as a stronger binder. Cytotoxic T lymphocytes (CTL) specific for p373-382 recognized target cells pulsed with either p373-382 or p369-377. CTL specific for p373-382 also lysed HER2+HLA-A2+ human breast cancer cells more efficiently than p369-377-specific CTL. These results suggest that cancer cells are naturally processing and presenting p373-382. Furthermore, our results suggest that T cells generated against p369-377 in previous studies may have been cross-reacting with p373-382. Thus, the newly identified p373-382 peptide may be a more appropriate candidate for vaccines with this new evidence that it is processed and presented by HLA-A2 for recognition by HER2-specific CTL.