Abstract
The effect on antigenicity of covalent attachment of lipid groups to a protein antigen was investigated. Coupling of palmitic acid to ovalbumin (OVA) enhanced major histocompatibility complex (MHC) class II-restricted presentation to most OVA-specific murine T-cell clones in vitro. The enhanced antigenicity of palmitoylated antigen was localized to the level of presentation of the synthetic peptide epitope, OVA 323-339. T-cell responses to palmitoylated antigen were more difficult to block with anti-MHC class II antibodies than responses to native antigen. However, T-cell proliferation to palmitoyl (p)-OVA and native (n)-OVA were blocked equally by anti-CD4 antibodies. Taken together, the results suggest that lipid conjugation of a protein antigen leads to the formation of a lipopeptide T-cell epitope with increased affinity of binding to MHC class II and/or T-cell receptor (TcR). These results have implications for the design of synthetic peptide vaccines.
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