UMLS:C0079731 - FACTA Search

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Query: UMLS:C0079731 (B-cell lymphoma)
16,671 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In t(14;18) lymphomas, bcl-2 gene is activated by the juxtaposition of immunoglobulin (Ig) gene. The fused bcl-2-Ig gene generates chimeric mRNAs which consist of bcl-2 at 5' side and Ig at 3' side. Chimeric mRNA does not disrupt the bcl-2 coding frame of 239 amino acid polypeptide. Activated bcl-2 gene introduced in normal B lymphoblastoid cells (LCL) demonstrated an increased cloning efficiency in soft agar but failed to confer tumorigenicity to LCLs as a single agent. bcl-2 gene rearrangement in Japaneses B cell lymphoma was studied and found that 10 out of 32 cases of follicular lymphoma (31%) and 5 out of 56 cases of diffuse lymphoma (9%) were rearranged, suggesting less frequency of B cell lymphoma, particularly follicular lymphoma in Japan is partly due to less bcl-2 involvement than American cases. Three cases out of 15 cases with bcl-2 rearrangement demonstrated a unique pattern of rearrangement. Two cases of the three were analysed and found that both cases were translocated at the later step than DH-JH joining of Ig rearrangement. Thus, bcl-2 translocation in Japanese B cell lymphomas might occur at the later stage of B cell development, when compared with that in American cases. Less involvement of bcl-2 in Japanese B cell lymphoma may be explained by low susceptibility to bcl-2 rearrangement at the step of DH-JH recombination.
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PMID:[bcl-2 gene in B cell lymphoma]. 189 Jul 41

In t(14;18) (q32;q21) lymphomas, bcl-2 gene is activated by the juxtaposition of immunoglobulin (Ig) gene. The fused bcl-2-Ig gene generates chimeric mRNAs which consist of bcl-2 at 5' portion and Ig at 3' portion. Chimeric mRNA does not disrupt the bcl-2 coding frame of 239 amino acid polypeptide. Bcl-2-Ig transgenic mice demonstrated the extended B cell survival and the follicular lymphoproliferation, but they did not develop a malignancy until 25 weeks. Ten percent of them, however, developed malignant diffuse large-cell lymphomas after a long latency. Forty percent of these malignancies demonstrated the c-myc rearrangement, indicating that multiple step changes are required for malignant transformation in bcl-2 activated cells. Study on the bcl-2 gene rearrangement in Japanese B cell lymphoma and B-CLL revealed that 10 out of 32 cases of follicular lymphoma (31%), 5 out of 56 cases of diffuse lymphoma (9%) and 2 out of 30 cases of B-CLL (7%) were rearranged. Less frequency of B cell lymphoma, particularly follicular lymphoma in Japan might be partly due to the less bcl-2 involvement than in American cases. The ratio of bcl-2 involvement in B-CLL is not significantly different between Japan and U.S.A.. bcl-2 rearrangement at 5' promoter region is noted for Japanese B-CLL which was demonstrated for American cases. The clinical application of polymerase chain reaction for bcl-2 translocation was also discussed.
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PMID:[BCL-2 gene in lymphocytic malignancy]. 205 69

Emerging evidence implicates germline immunoglobulin heavy chain gene transcription in the targeting of heavy chain genes for switch recombination. In this study, cloned cDNA copies of the major germline alpha heavy chain transcript expressed in the murine B cell lymphoma 1.29 mu, a cell line that switches to IgA in culture, have been used to characterize the germline alpha transcription unit. The 5' end of these transcripts are heterogeneous, being derived from an exon denoted I alpha located approximately 2.2 kb 5' of the alpha switch region. Sequence analysis of cDNA and genomic clones reveals that alternate splice donor sites generate I alpha exons of varying length. While the two smaller spliced forms of I alpha contain stop codons in the open reading frame of the C alpha gene, transcripts utilizing the 3' most splice donor signal may encode a protein in which amino acids derived from the 3' end of the I alpha exon are fused to the C alpha domain.
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PMID:RNA splicing generates alternate forms of germline immunoglobulin alpha heavy chain transcripts. 212 5

One of the difficulties encountered with the treatment of human B cell malignancies with anti-Id antibodies is the emergence of Id variants. The current study was designed to investigate this phenomenon further by using the murine B cell lymphoma model 38C13. Tumors were harvested that developed despite treatment with the anti-Id antibody S1C5 in mice inoculated with 38C13 cells and evaluated by immunofluorescence. Various phenotypes were found among escaping tumor cells. Some cells continued to react with S1C5 whereas others lost S1C5 reactivity. Among these latter cells, some continued to express surface IgM kappa, whereas others no longer expressed surface mu or kappa. After Id variant cell lines were established, immunofluorescence and ELISA of cell lysates from the surface IgM kappa- lines revealed persistent intracellular mu H chain but no detectable kappa. Surface IgM kappa+ lines were fused with myeloma cells and the Ig proteins secreted by the resultant hybridomas analyzed. The apparent m.w. of the mu-chains of these rescued Ig was the same as wild-type 38C13, whereas the kappa-chains were either the same or different in m.w. from the wild type. The IgM kappa of the variant line, T3C, weakly reacted with S1C5 and did not react with other anti-Id antibodies. The IgM kappa of the other variants were nonreactive with all the antibodies. Immunofluorescence of these surface Ig+ variants confirmed this finding. Some of the surface Ig+ and Ig- variant lines grew identically to wild-type tumor in vivo, but only the weakly S1C5-reactive variant T3C was inhibited in its growth by S1C5. Moreover, T3C was the only one of these lines capable of being lysed in vitro with S1C5 by antibody-dependent cellular cytotoxicity. Further studies revealed that surface Ig+ and Ig- variants emerge in escaping tumors with similar frequency and that these variants represent a major mode of tumor escape from anti-Id treatment in this model.
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PMID:Idiotype variants emerging after anti-idiotype monoclonal antibody therapy of a murine B cell lymphoma. 278 25

mAb directed toward the idiotype of the 38C13 murine B cell lymphoma can be used to treat and cure a high percentage of mice challenged previously with an otherwise lethal dose of tumor cells. Tumors developing in animals despite antibody therapy were examined by immunofluorescence and found to demonstrate either loss of surface Ig, or expression of an altered idiotype that no longer bound the antibody used for treatment. Further immunofluorescence analysis of the variant tumors revealed individual patterns of cross-reactivity with anti-38C13 idiotype mAb other than that used for therapy. The variant tumor cells were fused to myeloma cells and hybrids were isolated which secreted large quantities of the altered idiotype proteins. Polyclonal antibodies and mAb prepared against the mutant proteins demonstrated cross-reactivity with the original 38C13 protein and its other variants. But the variants and wild type cells could be distinguished from each other by their patterns of reactivity with the panels of anti-idiotype antibodies. Differences in apparent m.w. were demonstrated in the L chains of each of the mutant proteins. Southern blot analysis of the H chain locus of these mutants established that they were all clonally related; however, the L chain loci were grossly different. Thus, rare cells with alteration in their Ig L chain genes and expressed proteins can give rise to idiotype variants in this B cell tumor.
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PMID:Heterogeneity of a murine B cell lymphoma. Isolation and characterization of idiotypic variants. 313 5

Tumor cells from a patient with B-cell lymphoma were fused with a mouse myeloma cell line. A set of heterohybridomas was thus derived, each of which represented a separate clonal derivative from the tumor cell population. The immunoglobulins secreted by these cell lines reacted variably with a panel of anti-idiotypic antibodies, indicating that the tumor was heterogeneous; however, one antibody, 4D6, reacted strongly with the product of all the heterohybridomas. cDNA for the immunoglobulin heavy chain variable-region genes expressed in these heterohybridomas was cloned and sequenced. Comparison of these sequences indicated that the cells expressing them were clonally related but that they had undergone considerable mutation. Despite mutation, the cells in this tumor population continued to express a functional immunoglobulin molecule and to retain, over a span of 3 years, the idiotypic determinant defined by the 4D6 monoclonal antibody. Thus a selective force existed within the host to retain tumor cells bearing an immunoglobulin molecule with a particular idiotypic structure.
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PMID:Retention of an idiotypic determinant in a human B-cell lymphoma undergoing immunoglobulin variable-region mutation. 349 1

The uses of GM-CSF as an immunomodulator and vaccine adjuvant are reviewed. GM-CSF has a variety of effects on immune responses: it induces class II major histocompatibility complex antigen expression on the surface of macrophages; it enhances dendritic cell maturation and migration; it results in a localized inflammation at the injection site; and it has marked effects on maturation of haematopoietic progenitor cells in the bone marrow. Animal and human studies suggest that administration of GM-CSF can increase antibody titres to foreign antigens. Monkeys injected with human interleukin (IL)-3 plus GM-CSF, at a different injection site, developed peak antibody titres which were 8- to 30-fold higher than those in monkeys injected with IL-3 alone. In a study of ovarian cancer patients receiving GM-CSF to prevent chemotherapy-induced neutropenia, two patients who had demonstrated a low titre of antithyroid antibodies prior to the study showed an increase in antibody titre and transient thyroiditis after administration of GM-CSF. Recently a GM-CSF/antigen fusion protein has been tested. An antibody corresponding to a specific idiotype expressed on B-cell lymphomas was fused to GM-CSF and injected into mice with B-cell lymphoma xenografts. The mice developed antibodies to the lymphoma and there was a protective effect against disease progression. Preliminary results of clinical trials using GM-CSF in humans suggest that it enhances antibody responses to hepatitis B vaccine. On the basis of these preliminary results, several clinical trials are being planned and it would appear that GM-CSF has potential as a vaccine adjuvant.
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PMID:Potential role of granulocyte-macrophage colony-stimulating factor as vaccine adjuvant. 787 53

Chromosomal analysis of a non-Hodgkin's lymphoma revealed a t(11;14)(q23;q32) translocation amongst other abnormalities. To investigate the molecular basis of this translocation, a cosmid library was constructed from the tumour DNA and the rearranged IGH locus was isolated in a single cosmid. Fluorescence in situ hybridization confirmed that the cloned region contained sequences from chromosome 11q23 fused to chromosome 14q32. Sequence analysis identified the breakpoint as a fusion between a region from the switch segment of the C gamma 4 gene of the IGH locus and an unknown sequence on chromosome 11. The chromosome 11 sequence maps proximal to the CD3 gene cluster and is therefore distinct from both the HTRX1 gene (rearranged in acute leukaemias) and the RCK gene (rearranged in a cell line derived from a histiocytic B-cell lymphoma). This newly identified region contains a cluster of rare cutting restriction enzyme sites located within 200 bases of the breakpoint, suggestive of a CpG island. Although this t(11;14)(q23;q32) translocation and that in the RC-K8 cell line affect different regions on chromosome 11, the breakpoints on chromosome 14 were found to have occurred at equivalent positions of S gamma 2 and S gamma 4 segments.
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PMID:Molecular cloning of a novel 11q23 breakpoint associated with non-Hodgkin's lymphoma. 810 33

4-1BB is expressed on activated murine T cells and may function as an accessory signaling molecule during T-cell activation. To identify putative 4-1BB ligands, a fusion protein consisting of the extracellular domain of 4-1BB fused to human placental alkaline phosphatase (4-1BB-AP) was constructed. Alkaline phosphatase activity could then be used as an indicator of the relative amount of bound 4-1BB. These studies indicated that 4-1BB-AP specifically bound to the surface of various mature B and macrophage cell lines. 4-1BB-AP bound at low levels to T cell lines (non-activated and anti-CD3-activated), pre-B-cell lines, and an immature macrophage cell line. 4-1BB-AP did not bind to a glial tumor cell line, HeLa cells, or COS cells. In addition, 4-1BB-AP bound at higher levels to F(ab')2 anti-mu-activated primary B cells compared to anti-CD3-activated primary T cells. Scatchard analysis indicated that the A20 B cell lymphoma expressed 3680 binding sites per cell with a Kd of 1.86 nM. Affinity cross-linking studies demonstrated that a major cell surface species of 120 kDa bound to 4-1BB-AP; 4-1BB-AP also bound to a minor species of approximately 60 kDa. The addition of paraformaldehyde-fixed SF21 cells expressing recombinant 4-1BB synergized with F(ab')2 anti-mu in inducing splenic B cell proliferation suggesting that 4-1BB may function as a regulator of B cell growth.
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PMID:4-1BB T-cell antigen binds to mature B cells and macrophages, and costimulates anti-mu-primed splenic B cells. 829 85

Epstein-Barr virus nuclear antigen 2 (EBNA2) is a transcriptional activator of viral and cellular genes involved in B cell transformation by EBV and is targeted to EBV responsive promoters through interaction with cellular DNA binding proteins such as RBP-J kappa. To develop a conditional system in which the function of EBNA2 can be switched on and off, we have fused the hormone binding domain of the estrogen receptor to the N- or C-terminus of EBNA2. Here we show that after transient or stable transfer of these chimerical EBNA2 genes into human B cell lymphoma lines, transactivation of LMP1, TP1, and TP2 promoter constructs, expression of the cell surface markers CD21 and CD23, and binding of EBNA2 to its cellular partner RBP-J kappa are dependent on the presence of estrogen. The EBNA2 fusion proteins proved to be virtually inactive in the absence of hormone.
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PMID:Epstein-Barr virus nuclear antigen 2-estrogen receptor fusion proteins transactivate viral and cellular genes and interact with RBP-J kappa in a conditional fashion. 855 75

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