Browsing Department of molecular bacteriology (MOBA) by Authors
B-1-cell subpopulations contribute differently to gut immunity.Roy, Bishnudeo; Agarwal, Shiwani; Brennecke, Anne-Margarete; Krey, Martina; Pabst, Oliver; Düber, Sandra; Weiss, Siegfried; Molecular Immunology, Helmholtz Centre for Infection Research (HZI), Braunschweig, Germany. (2013-08)In mice, B-1 (B1a/B1b) cells are mainly located in the peritoneal cavity. B-1 cells are well known for their role in the early stages of Ab-mediated immune responses against pathogenic invasion as well as for the production of natural IgM antibodies. Although such B cells have been claimed to give rise to intestinal plasma cells producing IgA, a clear role of B-1 cells in IgA production in the gut-associated tissues is still not defined. Here, we employed the transgenic L2 mouse model characterized by the lack of B-2 cells and presence of B-1 cells as major B-cell subpopulation. The oligoclonality of the Ab repertoire in this mouse allowed us to take typical B1a cell VH sequences as indicators of the presence of IgM-producing B-1a cells in Peyer's patches as well as in lamina propria. However, amongst the IgAVH sequences recovered from the same tissues, none of the sequences showed B1a-cell specificity. Interestingly, all IgAVH sequences derived from the lamina propria of L2 mice displayed extensive numbers of nucleotide exchanges, indicating somatic hypermutation, and affinity maturation. This suggests that the contribution of natural unmutated IgA by B-1a cells to intestinal immunity is negligible.
An Intrinsic Propensity of Murine Peritoneal B1b Cells to Switch to IgA in Presence of TGF-β and Retinoic Acid.Roy, Bishnudeo; Brennecke, Anne-Margarete; Agarwal, Shiwani; Krey, Martina; Düber, Sandra; Weiss, Siegfried (2013)In the present study we have investigated the comparative switching propensity of murine peritoneal and splenic B cell subpopulations to IgA in presence of retinoic acid (RA) and TGF-β.