Tâm D. Quách scite author profile

Transitional cells represent a crucial step in the differentiation and selection of the mature B cell compartment. Human transitional B cells have previously been variably identified based on the high level of expression of CD10, CD24, and CD38 relative to mature B cell populations and are expanded in the peripheral blood following rituximab-induced B cell-depletion at reconstitution. In this study, we take advantage of the gradual acquisition of the ABCB1 transporter during B cell maturation to delineate refined subsets of transitional B cells, including a late transitional B cell subset with a phenotype intermediate between T2 and mature naive. This late transitional subset appears temporally following the T1 and T2 populations in the peripheral compartment after rituximab-induced B cell reconstitution (and is thus termed T3) and is more abundant in normal peripheral blood than T1 and T2 cells. The identity of this subset as a developmental intermediate between early transitional and mature naive B cells was further supported by its ability to differentiate to naive during in vitro culture. Later transitional B cells, including T2 and T3, are found at comparatively increased frequencies in cord blood and spleen but were relatively rare in bone marrow. Additional studies demonstrate that transitional B cells mature across a developmental continuum with gradual up-regulation of mature markers, concomitant loss of immature markers, and increased responsiveness to BCR cross-linking in terms of proliferation, calcium flux, and survival. The characterization of multiple transitional B cell subpopulations provides important insights into human B cell development.

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Human B‐1 cells take the stage

Rothstein

Griffin

Holodick

et al. 2013

Annals of the New York Academy of Sciences

145

156

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B-1cells play critical roles in defending against microbial invasion and in housekeeping removal of cellular debris. B-1cells secrete natural antibody and manifest functions that influence T cell expansion and differentiation and in these and other ways differ from conventional B-2 cells. B-1-cells were originally studied in mice where they are easily distinguished from B-2cells, but their identity in the human system remained poorly defined for many years. Recently, functional criteria for human B-1cells were established on the basis of murine findings, and reverse engineering resulted in identification of the phenotypic profile, CD20+CD27+CD43+CD70−, for B-1cells found in both umbilical cord blood and adult peripheral blood. Human B-1cells may contribute to multiple disease states through production of autoantibody and stimulation/modulation of T cell activity. Human B-1cells could be a rich source of antibodies useful in treating diseases present in elderly populations where natural antibody protection may have eroded. Manipulation of human B-1cell numbers and/or activity may be a new avenue for altering T cell function and treating immune dyscrasias.

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Anergic Responses Characterize a Large Fraction of Human Autoreactive Naive B Cells Expressing Low Levels of Surface IgM

et al. 2011

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B cell anergy represents an important mechanism of peripheral immunological tolerance for mature autoreactive B cells that escape central tolerance enforced by receptor editing and clonal deletion. While well documented in mice, the extent of its participation in human B cell tolerance remains to be fully established. In this study, we characterize the functional behavior of strictly defined human naïve B cells separated on the basis of their surface IgM (sIgM) expression levels. We demonstrate that cells with lower sIgM levels (IgMlo) are impaired in their ability to flux calcium in response to either anti-IgM or anti-IgD cross-linking, and contain a significantly increased frequency of autoreactive cells compared to naïve B cells with higher levels of sIgM. Phenotypically, in healthy subjects, IgMlo cells are characterized by the absence of activation markers, reduction of co-stimulatory molecules (CD19 and CD21) and increased levels of inhibitory CD22. Functionally, IgMlo cells display significantly weaker proliferation, impaired differentiation, and poor antibody production. In aggregate, the data indicates that hypo-responsiveness to BCR cross-linking associated with sIgM down-regulation is present in a much larger fraction of all human naïve B cells than previously reported, and is likely to reflect a state of anergy induced by chronic autoantigen stimulation. Finally, our results indicate that in SLE patients, naïve IgMlo cells display increased levels of CD95 and decreased levels of CD22, a phenotype consistent with enhanced activation of autoreactive naïve B cells in this autoimmune disease.

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Pleural innate response activator B cells protect against pneumonia via a GM-CSF-IgM axis

et al. 2014

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Distinctions among Circulating Antibody-Secreting Cell Populations, Including B-1 Cells, in Human Adult Peripheral Blood

Quách

Rodríguez-Zhurbenko

Hopkins

et al. 2016

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Human antibody secreting cell (ASC) populations in circulation are not well studied. In addition to B-1 (CD20+CD27+CD38lo/intCD43+) cell and the conventional plasmablast (CD20-CD27hiCD38hi) cell populations, here we identified a novel B cell population termed 20+38hi B cells (CD20+CD27hiCD38hi) that spontaneously secretes antibody. At steady state, 20+38hi B cells are distinct from plasmablasts on the basis of CD20 expression, amount of antibody production, frequency of mutation, and diversity of B cell receptor repertoire. However, cytokine treatment of 20+38hi B cells induces loss of CD20 and acquisition of CD138, suggesting that 20+38hi B cells are precursors to plasmablasts, or pre-plasmablasts. We then evaluated similarities and differences between CD20+CD27+CD38lo/intCD43+ B-1 cells, CD20+CD27hiCD38hi 20+38hi B cells, CD20-CD27hiCD38hi plasmablasts, and CD20+CD27+CD38lo/intCD43- memory B cells. We found that B-1 cells differ from 20+38hi B cells and plasmablasts in numbers of ways, including antigen expression, morphological appearance, transcriptional profiling, antibody skewing, antibody repertoire, and secretory response to stimulation. In terms of gene expression, B-1 cells align more closely with memory B cells than with 20+38hi B cells or plasmablasts, but differ in that memory B cells do not express antibody secretion related genes. We found that, B-1 cell antibodies utilize Vh4-34, which is often associated with autoreactivity, 3 to 6-fold more often than other B cell populations. Along with selective production of IgM anti-PC, this data suggests that human B-1 cells might be preferentially selected for autoreactivity/natural-specificity. In sum, our results indicate that human healthy adult peripheral blood at steady state consists of 3 distinct ASC populations.

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Tâm D. Quách

Novel Human Transitional B Cell Populations Revealed by B Cell Depletion Therapy

Human B‐1 cells take the stage

Anergic Responses Characterize a Large Fraction of Human Autoreactive Naive B Cells Expressing Low Levels of Surface IgM

Pleural innate response activator B cells protect against pneumonia via a GM-CSF-IgM axis

Distinctions among Circulating Antibody-Secreting Cell Populations, Including B-1 Cells, in Human Adult Peripheral Blood

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