Abstract
Marginal zone (MZ) B cells, representing a distinct subset of innate-like B cells, mount rapid T-independent responses to blood-borne antigens. They express low-affinity polyreactive antigen receptors that recognize both foreign and self-structures. The spleen is considered the exclusive site for murine MZ B cells. However, we have here identified B cells with a MZ B-cell phenotype in the subcapsular sinuses of mouse lymph nodes. The nodal MZ (nMZ) B cells display high levels of IgM, costimulators and TLRs, and are represented by naïve and memory cells. The frequency of nMZ B cells is about 1–6% of nodal B cells depending on mouse strain, with higher numbers in older mice and a trend of increased numbers in females. There is a significant expansion of nMZ B cells following immunization with an autoantigen, but not after likewise immunization with a control protein or with the adjuvant alone. The nMZ B cells secrete autoantibodies upon activation and can efficiently present autoantigen to cognate T cells in vitro, inducing T-cell proliferation. The existence of self-reactive MZ B cells in lymph nodes may be a source of autoantigen-presenting cells that in an unfortunate environment may activate T cells leading to autoimmunity.
Highlights
The marginal zone (MZ) B cells produce natural antibodies, which recognize both foreign and autologous molecules and may facilitate the clearance of intruding microorganisms and host apoptotic cells
We entitled these cells nodal MZ B cells, which they will be referred to hereafter
The size and signatures of IgMhi, IgDlo and CD9 in contrast to FO B cells verify the similarities between nodal MZ (nMZ) B cells and MZ B cells of the spleen, while the low expression of CD5 and CD11c differentiate the nMZ B cells from the B-1a, B10 and associated B cells (ABCs) subsets
Summary
The MZ B cells produce natural antibodies, which recognize both foreign and autologous molecules and may facilitate the clearance of intruding microorganisms and host apoptotic cells. This delay together with MZ B cells being the first responders to CII lead to the hypothesis that a minor population of self-reactive MZ B cells may exist in lymph nodes of mice, as recognized in humans. To address this issue we undertook a combined phenotypical and functional analysis of mouse lymph node cells, searching for cells with MZ B-cell characteristics. These data suggest that splenic and nodal MZ B cells are closely related B-cell subsets
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