Early studies by Benner and colleagues followed the development of spontaneous antibody production in gnotobiotic and SPF-housed mice and demonstrated the largely antigen-independent Tipifarnib cost development of spontaneous IgM-secreting cells in two tissues: the spleen and BM 23, 24. However, their phenotype was not defined.

It is also unclear what regulates the induction and maintenance of natural antibody-producing cells and whether natural antibody producing cells follow a similar B-cell differentiation pathway to that of B cells induced by foreign antigen challenge. Resolving these issues requires the unequivocal identification and isolation of natural antibody-secreting B cells. Studies with antibody-treatment generated chimeric mice, in which the B-1 cell subset and their secreting antibodies were distinguished from the conventional (B-2) cells and marginal zone B cells via allotype-specific markers, demonstrated that B-1 cells are the major natural antibody-producing B-cell population in steady state, contributing to natural antibodies in the serum 25, 26 and in the mucosal tissues of the intestinal 13 and the respiratory tract 27. However, B-1 cells (previously known as Ly-1 B cells, or CD5+ B cells) are rare in secondary lymphoid tissues such as LNs and spleen and have not been reported to exist in the BM. Instead they

are the major B-cell population in the peritoneal and pleural cavities (reviewed in 28). Since B-1 cells are readily found in Cabozantinib concentration these cavities, natural IgM secretion has been attributed to those sites 29–32. In contrast, other studies indicate that peritoneal cavity B-1 cells do not spontaneously produce natural IgM, either

in vivo or ex vivo 33–35. However, they can be activated rapidly to differentiate to IgM-secreting cells via cytokines (IL-5 and IL-10) or mitogenic signals 36, 37. Injection of bacteria or LPS into the peritoneal cavity causes the migration of peritoneal cavity B-1 cells into the spleen and their differentiation Olopatadine to IgM-secreting cells 33, 34, 38, 39. Given the importance of natural antibodies in host defense and tissue homeostasis, we decided to revisit the question of what the major tissues and cells are that generate spontaneous natural IgM, using a sensitive chimera approach. Our data demonstrate for the first time that the presence of B-1 cells in the murine BM, together with B-1 cells in the spleen, but not the peritoneal cavities, provide much of the steady-state IgM. To enhance our understanding on the regulation of natural IgM secretion, we aimed to determine its tissue source. Spontaneous IgM production by cells from spleen, peritoneal cavity (PerC), BM and peripheral inguinal lymph nodes (PLNs) of BALB/c mice cultured without further stimulation was assessed (Fig. 1A).