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Induction of antitumor immunity by CTL epitopes genetically linked to membrane-anchored beta2-microglobulin.

Journal of immunology (Baltimore, Md. : 1950) (2005-12-21)
Alon Margalit, Helena M Sheikhet, Yaron Carmi, Dikla Berko, Esther Tzehoval, Lea Eisenbach, Gideon Gross
RESUMEN

Level and persistence of antigenic peptides presented by APCs on MHC class I (MHC-I) molecules influence the magnitude and quality of the ensuing CTL response. We recently demonstrated the unique immunological properties conferred on APCs by expressing beta2-microglobulin (beta2m) as an integral membrane protein. In this study, we explored membrane-anchored beta2m as a platform for cancer vaccines using as a model MO5, an OVA-expressing mouse B16 melanoma. We expressed in mouse RMA-S cells two H-2Kb binding peptides from MO5, OVA257-264, and TRP-2181-188, each genetically fused with the N terminus of membranal beta2m via a short linker. Specific Ab staining and T cell hybridoma activation confirmed that OVA257-264 was properly situated in the MHC-I binding groove. In vivo, transfectants expressing both peptides elicited stronger CTLs and conferred better protection against MO5 than peptide-saturated RMA-S cells. Cells expressing OVA257-264/beta2m were significantly superior to OVA257-264-charged cells in their ability to inhibit the growth of pre-established MO5 tumors. Our results highlight the immunotherapeutic potential of membranal beta2m as a universal scaffold for optimizing Ag presentation by MHC-I molecules.

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Monoclonal Anti-β2-Microglobulin antibody produced in mouse, clone BM-63, ascites fluid