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01.12.2007 | Original Article

HAGE, a cancer/testis antigen with potential for melanoma immunotherapy: identification of several MHC class I/II HAGE-derived immunogenic peptides

verfasst von: Morgan G. Mathieu, Ashley J. Knights, Graham Pawelec, Catherine L. Riley, Dorothee Wernet, François A. Lemonnier, Per Thor Straten, Ludmila Mueller, Robert C. Rees, Stephanie E. B. McArdle

Erschienen in: Cancer Immunology, Immunotherapy | Ausgabe 12/2007

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Abstract

There remains a need to identify novel epitopes of potential tumour target antigens for use in immunotherapy of cancer. Here, several melanoma tissues and cell lines but not normal tissues were found to overexpress the cancer-testis antigen HAGE at the mRNA and protein level. We identified a HAGE-derived 15-mer peptide containing a shorter predicted MHC class I-binding sequence within a class II-binding sequence. However, only the longer peptide was found to be both endogenously processed and immunogenic for T cells in transgenic mice in vivo, as well as for human T cells in vitro. A different class I-binding peptide, not contained within a longer class II sequence, was subsequently found to be both immunogenic and endogenously processed in transgenic mice, as was a second class II epitope. These novel HAGE-derived epitopes may contribute to the range of immunotherapeutic targets for use in cancer vaccination programs.

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Titel: HAGE, a cancer/testis antigen with potential for melanoma immunotherapy: identification of several MHC class I/II HAGE-derived immunogenic peptides
verfasst von: Morgan G. Mathieu
Ashley J. Knights
Graham Pawelec
Catherine L. Riley
Dorothee Wernet
François A. Lemonnier
Per Thor Straten
Ludmila Mueller
Robert C. Rees
Stephanie E. B. McArdle
Publikationsdatum: 01.12.2007
Verlag: Springer-Verlag
Erschienen in: Cancer Immunology, Immunotherapy / Ausgabe 12/2007
Print ISSN: 0340-7004
Elektronische ISSN: 1432-0851
DOI: https://doi.org/10.1007/s00262-007-0331-2

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HAGE, a cancer/testis antigen with potential for melanoma immunotherapy: identification of several MHC class I/II HAGE-derived immunogenic peptides

Abstract

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