Peptide-receptive class I major histocompatibility complex molecules on TAP-deficient and wild-type cells and their roles in the processing of exogenous antigens

摘要

These studies addressed the nature and origin of peptide-receptive class I major histocompatibility complex (MHC-I) molecules used to present exogenous antigens. Peptide-receptive K^b molecules in transporter for antigen presentation (TAP)1^−/− and TAP1^+/+ macrophages were quantitated by exposing cells to exogenous ovalbumin (OVA)(257–264) peptide and then measuring OVA(257–264):K^b complexes with a T hybridoma assay or flow cytometry (using a complex-specific antibody). Relative to TAP1^+/+ cells, TAP1^−/− cells had decreased levels of pre-existing cell-surface peptide-receptive MHC-I molecules at 37°. With continued exposure of viable cells to peptide, however, TAP1^−/− and TAP1^+/+ cells formed similar levels of OVA(257–264):K^b complexes, suggesting that nascent labile MHC-I molecules were captured and stabilized by exogenous peptide. Brefeldin A inhibited generation of OVA(257–264):K^b complexes on TAP1^−/− (but not TAP1^+/+) cells at 37°, confirming the importance of a flux of unstable nascent MHC-I molecules in TAP1^−/− cells at 37°. In contrast, at 26° both TAP1^−/− and TAP1^+/+ cells expressed brefeldin A-resistant, peptide-receptive MHC-I molecules at similar levels. Alternate MHC-I processing of exogenous particulate antigen correlated with ability to present exogenous peptide. Thus, processing was brefeldin A-sensitive with TAP1^−/− macrophages at 37°, but brefeldin A-resistant with TAP1^+/+ cells at 37°, as well as with TAP1^+/+ or TAP1^−/− cells at 26°. We conclude that alternate MHC-I antigen processing normally utilizes pre-existing MHC-I molecules, but TAP1^−/− cells at 37° mainly use nascent MHC-I molecules, because of a lack of pre-existing, stable, peptide-receptive MHC-I molecules. The results support a vacuolar processing mechanism with binding of peptides to MHC-I molecules in post-Golgi compartments or on the cell surface.