The effect of B cell receptor signaling on antigen endocytosis and processing.

B cell receptor (BCR)-mediated antigen processing and presentation involves both the BCR-mediated internalization and processing of cognate antigen as well as the formation and expression of antigenic peptide-MHC class II complexes. While BCR signaling is known to result in changes in the biosynthesis and intracellular trafficking of class II molecules, the effect of BCR signaling on the cell biology of antigen endocytosis and processing is less clear. Therefore, the effect of BCR signaling on the cell biology of fluid phase antigen endocytosis, processing and presentation was analyzed in both B cell lines or in normal splenic B cells. The results demonstrate that BCR signaling alters neither the global level of fluid phase antigen endocytosis nor the duration of intracellular persistence of fluid phase internalized antigen. Moreover, while BCR signal does result in an increase in the level of total cell surface MHC class II molecules as well as specific peptide-class II complexes, stimulation failed to alter the fraction of class II molecules loaded with antigen-derived peptide. These results indicate that while BCR-mediated signaling elicits an increase in the expression of antigenic peptide-class II complexes, signaling does not augment antigen presentation by profoundly altering the basic biology of antigen endocytosis and processing. These results also demonstrate that the high efficiency of BCR-mediated antigen processing (when compared to fluid phase antigen processing) is likely to occur independent of BCR signaling-induced global alterations in the biology of endocytosis, processing and presentation. This finding suggests that if BCR signaling augments the efficiency of processing of cognate antigen, it must impact unique aspects of BCR-mediated antigen processing, such as the intracellular persistence of internalized antigen-BCR complexes.

Lipid raft-independent B cell receptor-mediated antigen internalization and intracellular trafficking.

The Ag-specific B cell receptor (BCR) expressed by B lymphocytes has two distinct functions upon interaction with cognate Ag: signal transduction (generation of intracellular second messenger molecules) and Ag internalization for subsequent processing and presentation. While it is known that plasma membrane domains, termed lipid rafts, are involved in BCR-mediated signal transduction, the precise role of plasma membrane lipid rafts in BCR-mediated Ag internalization and intracellular trafficking is presently unclear. Using a highly characterized model system, it was determined that while plasma membrane lipid rafts can be internalized by B lymphocytes, lipid rafts do not represent a major pathway for the rapid and efficient internalization of cell surface Ag-BCR complexes. Moreover, internalized plasma membrane lipid rafts are delivered to intracellular compartments distinct from those to which the bulk of internalized Ag-BCR complexes are delivered. These results demonstrate that B lymphocytes, like other cell types, possess at least two distinct endocytic pathways (i.e., clathrin-coated pits and plasma membrane lipid rafts) that deliver internalized ligands to distinct intracellular compartments. Furthermore, Ag-BCR complexes differentially access these two distinct internalization pathways.