Altered Peptide Ligands Revisited: Vaccine Design Through Chemically Modified HLA-A2-restricted T Cell Epitopes

Overview

Journal J Immunol

Specialty Allergy & Immunology

Date 2014 Oct 15

PMID 25311806

Citations 29

Authors

Rieuwert Hoppes

Rimke Oostvogels

Jolien J Luimstra

Kim Wals

Mireille Toebes

Laura Bies

Reggy Ekkebus

Pramila Rijal

Patrick H N Celie

Julie H Huang

Maarten E Emmelot

Robbert M Spaapen

Henk Lokhorst

Ton N M Schumacher

Tuna Mutis

Boris Rodenko

Huib Ovaa

Affiliations

Soon will be listed here.

Abstract

Virus or tumor Ag-derived peptides that are displayed by MHC class I molecules are attractive starting points for vaccine development because they induce strong protective and therapeutic cytotoxic T cell responses. In thus study, we show that the MHC binding and consequent T cell reactivity against several HLA-A*02 restricted epitopes can be further improved through the incorporation of nonproteogenic amino acids at primary and secondary anchor positions. We screened more than 90 nonproteogenic, synthetic amino acids through a range of epitopes and tested more than 3000 chemically enhanced altered peptide ligands (CPLs) for binding affinity to HLA-A*0201. With this approach, we designed CPLs of viral epitopes, of melanoma-associated Ags, and of the minor histocompatibility Ag UTA2-1, which is currently being evaluated for its antileukemic activity in clinical dendritic cell vaccination trials. The crystal structure of one of the CPLs in complex with HLA-A*0201 revealed the molecular interactions likely responsible for improved binding. The best CPLs displayed enhanced affinity for MHC, increasing MHC stability and prolonging recognition by Ag-specific T cells and, most importantly, they induced accelerated expansion of antitumor T cell frequencies in vitro and in vivo as compared with the native epitope. Eventually, we were able to construct a toolbox of preferred nonproteogenic residues with which practically any given HLA-A*02 restricted epitope can be readily optimized. These CPLs could improve the therapeutic outcome of vaccination strategies or can be used for ex vivo enrichment and faster expansion of Ag-specific T cells for transfer into patients.

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