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Germinal Center B Cells (germinal + center_b_cell)

Distribution by Scientific Domains
Medical Sciences80%
Distribution within Medical Sciences
Immunology50%

Selected Abstracts

Flow cytometric evaluation of CD38 expression assists in distinguishing follicular hyperplasia from follicular lymphoma,

CYTOMETRY, Issue 5 2009
Kristin Mantei
Abstract The distinction of follicular lymphoma (FL) from reactive follicular hyperplasia (FH) can be a diagnostic challenge in flow cytometry. In this study, the median fluorescent intensity (MFI) of CD38 as assessed by flow cytometry on B and T cell subpopulations in 102 lymph nodes specimens with histopathologically confirmed FL was compared with 55 cases of FH. The MFI of CD38 was highly significantly reduced in the neoplastic B cells in FL when compared with the reactive germinal center B cells in FH (P < 1.0E-16). The MFI of CD38 did not differ between the non-neoplastic B-cells in FL and nongerminal center B-cells in FH (P = 0.14) or between T-cells and non-neoplastic B-cells in FL (P = 0.63). A marginal increase in the MFI of CD38 was seen for T cells in FL compared with FH (P = 0.04). An increased difference in the MFI of CD38 was identified for T-cells compared with nongerminal center B-cells in FH (P = 0.005). No difference in CD38 expression was seen between Grades 1, 2, or 3 FL. The study also confirmed increased expression of CD10 (P < 1.0E-9), decreased CD19 (P < 1.0E-22), and CD20 (P < 1.0E-16) in FL in comparison with FH, as has been previously reported. This study identified decreased CD38 as a common finding in FL in comparison with FH and provides an additional tool to help differentiate FL from FH by flow cytometry. © 2009 Clinical Cytometry Society [source]

The germinal center response is impaired in the absence of T cell-expressed CXCR5

EUROPEAN JOURNAL OF IMMUNOLOGY, Issue 1 2007
Carrie
Abstract Germinal centers support the differentiation of memory B cells and long-lived antibody-secreting cells during infection or upon vaccination. Here, we constructed mice with T cells that selectively lack the chemokine receptor CXCR5 to determine if expression of this receptor by T cells is mandatory for germinal center formation and function. In these animals, germinal centers that are properly localized in B cell follicles and contain T cells do form after immunization with a thymus-dependent antigen. However, fewer and smaller germinal centers form, resulting in a significant reduction in the frequency of germinal center B cells. The defect in germinal center formation is paralleled by decreased frequencies of isotype-switched antibody-secreting cells in the spleen and bone marrow and reduced serum concentrations of total and high-affinity hapten-specific IgG1. The results demonstrate that although CXCR5-dependent T cell positioning is important for maximal induction and expansion of germinal centers, stimulation of isotype class switching, and development of antibody-secreting cells that seed the spleen and bone marrow, it is not absolutely required for the formation and function of follicular germinal centers. [source]

High expression of B-cell receptor inducible gene BIC in all subtypes of Hodgkin lymphoma

GENES, CHROMOSOMES AND CANCER, Issue 1 2003
Anke van den Berg
In a search for genes specifically expressed in Reed,Sternberg (RS) cells of Hodgkin lymphoma (HL), we applied the serial analysis of gene expression (SAGE) technique on the HL-derived cell line DEV. Genes highly expressed in DEV were subjected to an RT-PCR analysis to confirm the SAGE results. For one of the genes, a high expression was observed in DEV and other HL-derived cell lines but not in non-Hodgkin lymphoma (NHL),derived cell lines and normal controls, suggesting an HL-specific expression. This gene corresponds to the human BIC gene, a member of the noncoding mRNA-like molecules. RNA in situ hybridization (ISH) indicated an exclusive nucleolar localization of BIC transcripts in all RS cells in 91% of HL cases, including nodular lymphocyte predominance (NLP) HL and classical HL. Analyses of normal human tissues revealed BIC transcripts in only a small number of CD20-positive B-cells in lymph node and tonsil tissue, albeit at a much lower level compared to that of RS cells. BIC RT-PCR in the Burkitt lymphoma,derived cell line Ramos demonstrated a significant up-regulation upon cross-linking of the B-cell receptor (BcR). I,B,-mediated blocking of NF-,B translocation in Ramos did not effect the up-regulation of BIC expression upon BcR triggering, suggesting that activation of NF-,B is not involved in regulation of BIC expression. In summary, our data show that expression of BIC is specific for RS cells of HL. In normal tissue, BIC is expressed weakly in a minority of germinal center B cells. Expression of BIC can be modified/influenced by BcR triggering, indicating that BIC might play a role in the selection of B cells. © 2003 Wiley-Liss, Inc. [source]

Transcriptional regulatory cascades controlling plasma cell differentiation

IMMUNOLOGICAL REVIEWS, Issue 1 2003
Kuo-I Lin
Summary:, Plasma cells are the terminally differentiated effector cells of the B lymphocyte lineage. Recently, studies using genetically altered mice and analyses of global gene expression programs have significantly expanded our understanding of the molecular mechanisms regulating plasmacytic differentiation. Specific molecular components of a multistep cascade of transcriptional regulators have been identified. Furthermore, two transcriptional regulators, X box binding protein-1 (XBP-1) and B lymphocyte induced maturation protein-1 (Blimp-1), have been shown to be necessary for plasmacytic differentiation. In addition to providing a mechanistic basis for the induction of genes necessary for immunoglobulin secretion, cessation of cell cycle and other phenotypic changes characteristic of terminally differentiated plasma cells, these studies have led to the important concept that plasmacytic differentiation involves repression of regulators, such as Bcl-6 and Pax5, that are necessary to maintain the earlier developmental phenotype of activated, germinal center B cells. This review describes our current understanding of the transcriptional cascades regulating terminal differentiation of B cells. [source]

Prognostic impact of immunohistochemical biomarkers in diffuse large B-cell lymphoma in the rituximab era

CANCER SCIENCE, Issue 10 2009
Ritsuko Seki
We evaluated the usefulness of prognostic markers in patients with diffuse large B-cell lymphoma (DLBCL) treated with cyclophosphamide, vincristine, doxorubicin, and prednisolone (CHOP) ± rituximab (R-CHOP) in Japan. We studied 730 patients with DLBCL; 451 received CHOP and 279 R-CHOP. We analyzed biopsy samples immunohistochemically for markers of germinal center B cells (CD10, Bcl-6), postgerminal center B cells (Multiple myeloma-1), and apoptosis (Bcl-2). The median follow-up period for surviving patients was 56.4 months for the CHOP group and 25.2 months for the R-CHOP group. DLBCL were categorized as germinal center B (GCB) subtype (352/730; 48.2%) or non-GCB subtype (378/730; 51.8%). In the CHOP group, the high expression of CD10 (P = 0.022) or Bcl-6 (P = 0.021), or GCB subtype (P = 0.05) was associated with better overall survival, whereas the high expression of Bcl-2 (P = 0.001) or MUM1 (P = 0.011), or non-GCB subtype (P = 0.05) was associated with worse overall survival. In the R-CHOP group, however, these biomarkers except Bcl-6 were not significant prognostic factors. The patients with non-GCB subtype showed improved survival in the R-CHOP group (P = 0.756). The International Prognostic Index was a useful clinical marker of survival in the CHOP group (P < 0.001) and also in the R-CHOP group (P < 0.001). Results of improved survival with rituximab addition indicate that the relevance of previously recognized prognostic factors should be re-evaluated. (Cancer Sci 2009; 100: 1842,1847) [source]