CD21highIgMhigh Splenic B Cells Enriched in the Marginal Zone: Distinct Phenotypes and Functions

CD22 [Siglec-2 (sialic acid-binding, immunoglobulin-like lectin-2)], a negative regulator of B-cell signalling, binds to α2,6- sialic acid-linked glycoconjugates, including a sialyl-Tn antigen that is one of the typical tumour-associated carbohydrate antigens expressed on various mucins. Many epithelial tumours secrete mucins into tissues and/or the bloodstream. Mouse mammary adenocarcinoma cells, TA3-Ha, produce a mucin named epiglycanin, but a subline of them, TA3-St, does not. Epiglycanin binds to CD22 and inhibits B-cell signalling in vitro. The in vivo effect of mucins in the tumour-bearing state was investigated using these cell lines. It should be noted that splenic MZ (marginal zone) B-cells were dramatically reduced in the mice bearing TA3-Ha cells but not in those bearing TA3-St cells, this being consistent with the finding that the thymus-independent response was reduced in these mice. When the mucins were administered to normal mice, a portion of them was detected in the splenic MZ associated with the MZ B-cells. Furthermore, administration of mucins to normal mice clearly reduced the splenic MZ B-cells, similar to tumour-bearing mice. These results indicate that mucins in the bloodstream interacted with CD22, which led to impairment of the splenic MZ B-cells in the tumour-bearing state.

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Notch2-mediated plasticity between marginal zone and follicular B cells

Nature Communications ◽

10.1038/s41467-021-21359-1 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Markus Lechner ◽

Thomas Engleitner ◽

Tea Babushku ◽

Marc Schmidt-Supprian ◽

Roland Rad ◽

...

Keyword(s):

B Cells ◽

B Cell ◽

Marginal Zone ◽

Close Contact ◽

Immunological Function ◽

Transitional B Cells ◽

Bona Fide ◽

Fate Decision ◽

Follicular B Cells ◽

Cell Follicle

AbstractFollicular B (FoB) and marginal zone B (MZB) cells are functionally and spatially distinct mature B cell populations in the spleen, originating from a Notch2-dependent fate decision after splenic influx of immature transitional B cells. In the B cell follicle, a Notch2-signal is provided by DLL-1-expressing fibroblasts. However, it is unclear whether FoB cells, which are in close contact with these DLL-1 expressing fibroblasts, can also differentiate to MZB cells if they receive a Notch2-signal. Here, we show induced Notch2IC-expression in FoB cells re-programs mature FoB cells into bona fide MZB cells as is evident from the surface phenotype, localization, immunological function and transcriptome of these cells. Furthermore, the lineage conversion from FoB to MZB cells occurs in immunocompetent wildtype mice. These findings demonstrate plasticity between mature FoB and MZB cells that can be driven by a singular signaling event, the activation of Notch2.

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Marginal zone B cells: From housekeeping function to autoimmunity?

Journal of Autoimmunity ◽

10.1016/j.jaut.2021.102627 ◽

2021 ◽

Vol 119 ◽

pp. 102627

Author(s):

Anna-Karin E. Palm ◽

Sandra Kleinau

Keyword(s):

B Cells ◽

Marginal Zone ◽

Marginal Zone B Cells

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WASP confers selective advantage for specific hematopoietic cell populations and serves a unique role in marginal zone B-cell homeostasis and function

Blood ◽

10.1182/blood-2008-02-140715 ◽

2008 ◽

Vol 112 (10) ◽

pp. 4139-4147 ◽

Cited By ~ 71

Author(s):

Lisa S. Westerberg ◽

Miguel A. de la Fuente ◽

Fredrik Wermeling ◽

Hans D. Ochs ◽

Mikael C. I. Karlsson ◽

...

Keyword(s):

T Cells ◽

B Cells ◽

B Cell ◽

Marginal Zone ◽

Hematopoietic Cells ◽

Selective Advantage ◽

Relative Contribution ◽

B Cell Homeostasis ◽

And Function

Abstract Development of hematopoietic cells depends on a dynamic actin cytoskeleton. Here we demonstrate that expression of the cytoskeletal regulator WASP, mutated in the Wiskott-Aldrich syndrome, provides selective advantage for the development of naturally occurring regulatory T cells, natural killer T cells, CD4+ and CD8+ T lymphocytes, marginal zone (MZ) B cells, MZ macrophages, and platelets. To define the relative contribution of MZ B cells and MZ macrophages for MZ development, we generated wild-type and WASP-deficient bone marrow chimeric mice, with full restoration of the MZ. However, even in the presence of MZ macrophages, only 10% of MZ B cells were of WASP-deficient origin. We show that WASP-deficient MZ B cells hyperproliferate in vivo and fail to respond to sphingosine-1-phosphate, a crucial chemoattractant for MZ B-cell positioning. Abnormalities of the MZ compartment in WASP−/− mice lead to aberrant uptake of Staphylococcus aureus and to a reduced immune response to TNP-Ficoll. Moreover, WASP-deficient mice have increased levels of “natural” IgM antibodies. Our findings reveal that WASP regulates both development and function of hematopoietic cells. We demonstrate that WASP deficiency leads to an aberrant MZ that may affect responses to blood-borne pathogens and peripheral B-cell tolerance.

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