Abstract
Antigen‐specific B‐cell responses require endosomal trafficking to regulate antigen uptake and presentation to helper T cells, and to control expression and signaling of immune receptors. However, the molecular composition of B‐cell endosomal trafficking pathways and their specific roles in B‐cell responses have not been systematically investigated. Here, we report high‐throughput identification of genes regulating B‐cell receptor (BCR)‐mediated antigen internalization using genome‐wide functional screens. We show that antigen internalization depends both on constitutive, clathrin‐mediated endocytosis and on antigen‐induced, clathrin‐independent endocytosis mediated by endophilin A2. Although endophilin A2‐mediated endocytosis is dispensable for antigen presentation, it is selectively required for metabolic support of B‐cell proliferation, in part through regulation of iron uptake. Consequently, endophilin A2‐deficient mice show defects in GC B‐cell responses and production of high‐affinity IgG. The requirement for endophilin A2 highlights a unique importance of clathrin‐independent intracellular trafficking in GC B‐cell clonal expansion and antibody responses.
Highlights
Robust antibody responses are crucially dependent on the B cells’ ability to internalize, process, and present foreign antigens
In addition to regulating B-cell receptor (BCR) endocytosis, we show that endophilin A2 is essential in activated B cells to maintain mitochondrial respiration via regulation of transferrin receptor endocytosis and iron uptake
Our study presents a large-scale, unbiased characterization of antigen internalization in B cells enabled by whole-genome CRISPR screening
Summary
Robust antibody responses are crucially dependent on the B cells’ ability to internalize, process, and present foreign antigens. Antigens are recognized by the B-cell receptor (BCR), and their binding triggers rapid BCR endocytosis and trafficking into lysosomal antigen-processing compartments, delivering antigenic peptides for loading onto MHC class II molecules (MHCII) (Lanzavecchia, 1985; Amigorena et al, 1994). Display of peptide-loaded MHCII on B-cell surface solicits interaction with helper T cells, which, together with antigen-induced BCR signaling, stimulates metabolic and transcriptional B-cell activation that culminates in formation of germinal centers (GCs) and production of high-affinity IgG antibodies. BCR-mediated antigen internalization critically determines the outcome of B-cell responses by controlling the number and repertoire of peptide-loaded MHCII molecules available for recognition by cognate T cells. Endocytic trafficking of the BCR modulates BCR signaling strength and duration, in the rapidly proliferating activated B cells (Hoogeboom & Tolar, 2016). The molecular composition of B-cell endocytic and intracellular trafficking pathways remains poorly understood
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