Kenneth G. C. Smith scite author profile

Follicular helper (TFH) cells provide crucial signals to germinal center B cells undergoing somatic hypermutation and selection that results in affinity maturation. Tight control of TFH numbers maintains self-tolerance. We describe a population of Foxp3+Blimp-1+CD4+ T cells constituting 10-25% of the CXCR5highPD-1highCD4+ T cells found in germinal center after immunization. These follicular regulatory T cells (TFR) share phenotypic characteristics with TFH and conventional Foxp3+ regulatory T cells (Treg) yet are distinct from either. Similar to TFH cells, TFR development depends on Bcl-6, SAP, CD28 and B cells; however TFR originate from thymic-derived Foxp3+ precursors, not naïve or TFH cells. TFR are suppressive in vitro and limit TFH and germinal center B cell numbers in vivo. In the absence of TFR, an outgrowth of non-antigen-specific B cells in germinal centers leads to fewer antigen-specific cells. Thus, Treg cells use the TFH differentiation pathway to produce specialized suppressor cells that control the germinal center response.

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Competence and competition: the challenge of becoming a long-lived plasma cell

Radbruch

et al. 2006

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Plasma cells provide humoral immunity. They have traditionally been viewed mainly as short-lived end-stage products of B-cell differentiation that deserve little interest. This view is changing, however, because we now know that plasma cells can survive for long periods in the appropriate survival niches and that they are an independent cellular component of immunological memory. Studies of the biology of plasma cells reveal a mechanism of intriguing simplicity and elegance that focuses memory provided by plasma cells on recently encountered pathogens while minimizing the 'fading' of memory for pathogens encountered in the distant past. This mechanism is based on competition for survival niches between newly generated plasmablasts and older plasma cells.

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microRNA-155 Regulates the Generation of Immunoglobulin Class-Switched Plasma Cells

et al. 2007

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microRNA-155 (miR-155) is expressed by cells of the immune system after activation and has been shown to be required for antibody production after vaccination with attenuated Salmonella. Here we show the intrinsic requirement for miR-155 in B cell responses to thymus-dependent and -independent antigens. B cells lacking miR-155 generated reduced extrafollicular and germinal center responses and failed to produce high-affinity IgG1 antibodies. Gene-expression profiling of activated B cells indicated that miR-155 regulates an array of genes with diverse function, many of which are predicted targets of miR-155. The transcription factor Pu.1 is validated as a direct target of miR155-mediated inhibition. When Pu.1 is overexpressed in wild-type B cells, fewer IgG1 cells are produced, indicating that loss of Pu.1 regulation is a contributing factor to the miR-155-deficient phenotype. Our results implicate post-transcriptional regulation of gene expression for establishing the terminal differentiation program of B cells.

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Kenneth G. C. Smith

Foxp3+ follicular regulatory T cells control the germinal center response

Competence and competition: the challenge of becoming a long-lived plasma cell

microRNA-155 Regulates the Generation of Immunoglobulin Class-Switched Plasma Cells

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