Enteroantigen (eAg)-binding B lymphocytes in the mouse - phenotype, distribution, function and eAg-specific antibody secretion

Abstract

Studies reporting beneficial effects of B lymphocytes in autoimmune diseases have been accumulating and a regulatory role for certain B cell subsets is hence getting more and more recognition. Recently, B cells were shown to exhibit a regulatory effect in a T cell transfer model of colitis. Here, B cells exposed to enteroantigen (eAg) ex vivo abrogated the colitogenic effect if co-transplanted with Treg-depleted (CD4+CD25-) T cells into severe combined immune deficiency (SCID) mice. These data may imply a role for B cells that bind eAg (eAg+ B cells) in the immunopathology of colitis. Here, we report the detection of a subset of eAg+ B cells, including both B2 and B1 lineages, and show that these cells are present in all peripheral lymphoid organs of the mouse including the peritoneal cavity. eAg+ B cells are far more efficient as eAg-presenting cells than unfractionated splenocytes or eAg- B cells in causing proliferation of eAg-specific T cells. In comparison with eAg- B cells, eAg+ B cells secrete a significant amount of IL-10 in vitro, suggesting an anti-inflammatory potential. Compared with wild-type B cells, B cell receptor (BCR) transgenic, hen egg lysozyme-specific B cells show inferior eAg binding and T cell stimulatory activity suggesting involvement of the BCR in eAg binding and processing. After activation of CD19(+) B cells by eAg and hybridization with hypoxanthine-aminopterin-thymidine (HAT) sensitive ×63 lymphoma cells followed by cloning at limiting dilution conditions, around 10% of the hybridoma cells secrete eAg-specific antibodies.