Showing papers by "B Benacerraf published in 1991"

The generation of immunogenic peptides can be selectively increased or decreased by proteolytic enzyme inhibitors.

Abstract: The ability of splenic APC and a B cell hybridoma (LS.102.9) to process and present OVA to a panel of T-T hybridomas with different fine specificities was investigated. Splenic APC process and present OVA to all the T-T hybrids. The B cell hybridoma could similarly process and present OVA to some T-T hybrids but was very inefficient in stimulating two of the T cell hybridomas. The presentation of native OVA to these two T-T hybrids was significantly increased by leupeptin. Pulsing experiments demonstrated that leupeptin acted on the APC at a step before the processed Ag was displayed on the cell surface in association with MHC molecules. Leupeptin has no effect on the presentation of OVA peptides by LS.102.9 to the T-T hybrids. Leupeptin inhibits the generation of the epitopes of OVA that LS.102.9 produces under basal conditions. We also surveyed the effect of other protease inhibitors and observed similar augmenting and inhibitory effects on the presentation of selected OVA epitopes. The augmentation of processing by a protease inhibitor indicates that in the lysosomal/endosomal compartment proteases have capacity to both generate and destroy immunogenic peptides. Our data suggest that protease inhibitors could potentially be used as immunomodulators and are discussed in terms of physiology of the lysosomal/endosomal compartment.

Weak base amines can inhibit class I MHC-restricted antigen presentation.

Abstract: This report describes the effects of NH4Cl, CH3NH2, and chloroquine on class I and II MHC-restricted Ag presentation. OVA-specific T-T hybridomas were used to detect processed OVA in association with class I, H-2Kb, and class II, I-Ad/b, molecules on a B lymphoblastoid APC. OVA, internalized by APC under hypertonic conditions, was presented in association with class I and II MHC molecules. Treating the APC with NH4Cl or CH3NH2 inhibited class I- and II-restricted Ag presentation. In contrast, chloroquine markedly inhibited class II, but not class I-restricted Ag presentation. Controls indicated that drug-treated APC were fully competent to interact with T cells and present processing-independent antigenic peptides in association with both class I and II MHC molecules. NH4Cl and CH3NH2 did not inhibit the uptake of radiolabeled Ag by the APC. After the proteolytic removal of H-2Kb from the surface of APC, NH4Cl and CH3NH2-treated and control APC regenerated identical amounts of surface H-2Kb and this regeneration required de novo protein synthesis. These latter results indicate that NH4Cl and CH3NH2 can inhibit Ag presentation without affecting the synthesis, transport, or surface expression of H-2Kb. Also, NH4Cl did not affect the transport of H-2Db to the surface of mutant RMA-S cells that were cultured with exogenous peptides. Taken together these results strongly suggest that NH4Cl and CH3NH2 but not chloroquine can inhibit a critical and early intracellular step in class I-restricted Ag presentation while simultaneously inhibiting class II-restricted Ag presentation.