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

We have analyzed the molecular features of a t(11;14)(q23;q32) chromosome translocation of a cell line established from a B-cell lymphoma. Somatic hybrid cells carrying the 11q- and/or 14q+ chromosome(s) were produced in order to map the breakpoints. Southern blot analyses of DNAs from these hybrid cell lines together with various probes from the IGH locus on chromosome 14 and the ETS-1 and CD3 genes on chromosome 11 showed that the breakpoints of the translocation occurred between the constant regions of the C phi gamma and C gamma 2 genes on chromosome 14 and between the CD3 and ETS-1 genes on chromosome 11. The t(11;14)(q23;q32) translocation does not seem to involve the same mechanism that is responsible for translocations occurring at the immunoglobulin heavy chain joining segment (JH).
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PMID:Molecular characterization of a t(11;14)(q23;q32) chromosome translocation in a B-cell lymphoma. 214 98

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

Chromosomal band 3q27 frequently engages in translocations with a number of sites within the genome, including those containing IG and other genes, during the development of B-cell lymphoma. The BCL6 gene, mapped at 3q27, is deregulated in these translocations and was isolated from a t(3;14)(q27;q32) translocation. It encodes a zinc-finger transcription repressor protein, which is expressed mainly in the germinal center (GC) B cells and plays a key role in GC development and T-cell-dependent immune response. BCL6 deregulation in 3q27 translocations is brought about by substitution of its 5' regulatory sequences by promoters of the rearranging genes. BCL6-rearranging genes studied so far (IGH, IGLL, TTF, BOBI, H4) displayed a broader pattern of expression than BCL6 during B-cell development. This observation has led to the suggestion that continued expression of BCL6 beyond its developmentally regulated point of downregulation under the direction of substituted promoters may keep the GC B cell in a cycling mode and lead to clonal expansion and lymphoma development. However, the rearranging partners of BCL6 in several of the 3q27 translocations have not yet been identified. In a molecular cloning analysis of two such translocations, t(1;3)(q21;q27) and t(3;6)(q27;p25), and an immunoblastic lymphoma cell line, OSI-LY8, we identified a novel mechanism of BCL6 deregulation. This comprised replacement of BCL6 5' regulatory sequences by insertion of IG gene transcriptional regulatory sequences at the translocation junction. These studies demonstrate novel features of instability of 3q27, and of the BCL6 and IGH genes, in B-cell lymphomagenesis.
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PMID:Deregulation of BCL6 in non-Hodgkin lymphoma by insertion of IGH sequences in complex translocations involving band 3q27. 982 6

Chromosomal translocation t(6;14)(p21.1;q32.3) has been reported as a rare but recurrent event not only in myeloma and plasma cell leukemia but also in diffuse large B-cell non-Hodgkin lymphoma (B-NHL) (diffuse large B-cell lymphoma [DLBCL]) and splenic lymphoma with villous lymphocytes (SLVL); however, the nature of the target gene(s) has not been determined. This study identified t(6;14)(p21.1;q32.3) in 3 cases of transformed extranodal marginal zone B-NHL, in 1 case of SLVL, and in 1 case of a low-grade B-cell lymphoproliferative disorder. In a sixth case, a CD5(+) DLBCL, the translocation was identified by molecular cloning in the absence of cytogenetically detectable change. Two chromosomal translocation breakpoints were cloned by using long-distance inverse polymerase chain reaction methods. Comparison with the genomic sequence for chromosome 6p21.1 showed breakpoints approximately 59 and 73.5 kilobases 5' of the cyclin D3 (CCND3) gene with no other identifiable transcribed sequences in the intervening region. Although Southern blotting with derived genomic 6p21.1 probes failed to detect other rearrangements, fluorescent in situ hybridization assays, using BAC (bacterial artificial chromosome) clones spanning and flanking the CCND3 locus, along with probes for IGH confirmed localization of 6p21.1 breakpoints within the same region, as well as fusion of the CCND3 and IGH loci. Furthermore, in all cases, high-level expression of CCND3 was demonstrated at RNA and/or protein levels by Northern and Western blotting and by immunohistochemistry. These data implicate CCND3 as a dominant oncogene in the pathogenesis and transformation in several histologic subtypes of mature B-cell malignancies with t(6;14)(p21.1;q32.3) and suggest that CCND3 overexpression seen in about 10% of DLBCL cases may have a genetic basis.
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PMID:Cyclin D3 is a target gene of t(6;14)(p21.1;q32.3) of mature B-cell malignancies. 1167 58

Fluorescence in situ hybridization (FISH) was used in a retrospective study of bone marrow aspirate specimens submitted for conventional cytogenetic analysis with an indication of B-cell lymphoma. About 50% of cytogenetically normal samples, which had been identified as containing lymphoma by pathology, showed small cell populations with an IGH gene rearrangement by FISH. This study demonstrates that FISH scoring of 750 nuclei provides a 99% chance of identifying the presence of lymphoma with a 14q32 aberration when this population constitutes approximately 8% of the bone marrow.
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PMID:Sensitivity of detection of B-cell lymphoma in bone marrow by fluorescence in situ hybridization. 1250 67

A chromosomal translocation involving the MYC gene is characteristic of Burkitt lymphoma (BL) and represents a molecular disease marker with diagnostic and clinical implications. The detection of MYC breakpoints is hampered by technical problems, including the distribution of the breakpoints over a very large genomic region of approximately 1,000 kb. In this article, we report on the testing and validation of a segregation fluorescence in situ hybridization (FISH) assay for MYC breakpoints on a large series of BLs. A contig of overlapping genomic clones was generated, and two probe sets flanking the MYC gene were selected. Both probe sets were tested in an interphase FISH segregation assay on 8 B-cell lymphoma cell lines and 32 lymphoma samples with proved 8q24/MYC abnormalities and validated in 47 BLs from The Netherlands, Brazil, and Uganda. MYC translocation breakpoints were identified in 98% of the tumors of the test series and in 89% of the cases of the validation series. In 89% of all positive samples, the breakpoints were located between 190 kb 5' and 50 kb 3' of MYC. Nine cases had more distant breakpoints, and in one patient an insertion of MYC into the IGH region was detected. In two of the three BLs lacking CD10 expression, no breakpoint could be detected, suggesting that CD10 is a discriminative marker of BL. We did not find consistent differences between BL and atypical BL in incidence of an MYC breakpoint.
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PMID:Interphase fluorescence in situ hybridization for detection of 8q24/MYC breakpoints on routine histologic sections: validation in Burkitt lymphomas from three geographic regions. 1503 63

The diagnostic and prognostic importance of recurrent chromosomal aberrations in systemic B cell lymphoma is well documented. In contrast, limited data exist on genetic changes in primary cutaneous B cell lymphoma. In this study we investigated chromosomal aberration patterns in two types of primary cutaneous B cell lymphoma with a different clinical behavior. Twenty-two primary cutaneous B cell lymphomas, including nine follicle center cell lymphomas and 13 large B cell lymphomas of the leg, were analyzed by comparative genomic hybridization and in part by fluorescence in situ hybridization. The most frequent imbalances detectable were gains in 18q (eight of 22), 1q (six of 22), 7 (six of 22), 12q (six of 22), or Xp (four of 22), and losses in 6q (four of 22). In contrast to large B cell lymphomas of the leg, primary cutaneous follicle center cell lymphomas had fewer imbalances and lacked translocations affecting the IGH locus. Gains in 18q (eight of 13) and losses in 6q (four of 13) as well as breakpoints within the IGH locus (six of 11) were restricted to the large B cell lymphomas of the leg subtype. Translocation t(14; 18) was excluded in 16 primary cutaneous B cell lymphomas of both subtypes that were studied by fluorescence in situ hybridization. These results suggest that primary cutaneous follicle center cell lymphoma and large B cell lymphoma of the leg are characterized by different chromosomal aberration patterns, which in part might determine the different clinical course of these malignancies.
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PMID:Chromosomal aberration patterns differ in subtypes of primary cutaneous B cell lymphomas. 1517 42

In CD5 positive (CD5+) mature B-cell lymphomas, newly recognized CD5+ diffuse large B-cell lymphoma (DLBCL) has been characterized by aggressive features. We studied twenty-five cases with CD5+ lymphomas involving bone marrow. Eleven cases were diagnosed as chronic lymphocytic leukemia, six cases were diagnosed as mantle cell lymphoma (MCL), and three cases with morphologic characteristics of MCL and without both the cyclin D1 expression and IGH/CCND1 rearrangement were unclassifiable. The remaining five cases, showing large to medium-sized lymphoid cells with prominent nucleoli and a moderate amount of cytoplasm, were diagnosed as DLBCL. Five DLBCL cases were positive for CD5, CD20, surface immunoglobulin, but negative for CD23. Patients with CD5+ DLBCL showed a high age of onset (median, 68 yr) and two patients expired one month after the diagnosis. Since CD5+ DLBCL forms a distinct subgroup of DLBCL, a study of CD5 expression in DLBCL would be helpful to predict prognosis and to determine future therapeutic strategy. To the best of our knowledge, this is the first report on de novo CD5+ DLBCL in Koreans.
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PMID:De novo CD5 positive diffuse large B-cell lymphomas with bone marrow involvement in Korean. 1560 91

In contrast to nodal large B-cell lymphomas, recurrent chromosomal aberrations have been studied only in a small number of cases of primary cutaneous diffuse large B-cell lymphoma (PCDLBCL). We investigated 25 PCDLBCLs (classified according to the WHO-EORTC classification into PCDLBCL, leg-type, 8; and PCDLBCL, other, 17), using an interphase fluorescence in situ hybridization technique. All cases were analyzed for chromosomal aberrations commonly observed in nodal large B-cell lymphomas, including structural aberrations of the genes BCL2, BCL6, and c-MYC, and numerical aberrations of the chromosomes/genes 3, 7, 8, 11, 12, 13, 17, 18q, RB1, and p53. We observed genetic aberrations in 19 (76%) of 25 patients. The most frequent numerical aberrations were gains of chromosome 12 (7 of 25, 28%), 7 (5 of 25, 20%), 3 (5 of 25, 20%), 18q (3 of 25, 12%), 11 (3 of 25, 12%), X (3 of 25, 12%), and losses of chromosome/gene 17/p53 (3 of 25, 12%). BCL2, c-MYC, and BCL6 were rearranged with the IGH gene in 4 (16%), 1 (4%), and none (0%) of 25 cases, respectively. Most aberrations were homogeneously distributed among cases of PCDLBCL, leg-type and of PCDLBCL, other, cases located on the leg or at other body sites, cases with round and cleaved cell morphology, and Bcl-2+ and Bcl-2- cases. These results suggest that PCDLBCLs show similar chromosomal aberrations irrespective of classification, anatomic site, cell morphology, and Bcl-2 expression, and that many similarities between primary cutaneous and nodal diffuse large B-cell lymphomas can be observed.
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PMID:Genetic aberrations in primary cutaneous large B-cell lymphoma: a fluorescence in situ hybridization study of 25 cases. 1583 92

To understand the nature of negative responses through the B-cell antigen receptor (BCR), we have screened an expression cDNA library for the ability to block BCR-induced growth arrest and apoptosis in the immature B-cell line, WEHI-231. We isolated multiple copies of full-length, unmutated Bcl10, a signaling adaptor molecule encoded by a gene found to translocate to the immunoglobulin heavy chain (IgH) locus in some mucosa-associated lymphoid tissue (MALT) lymphomas. A conditionally active form of B-cell lymphoma 10 (Bcl10) protected WEHI-231 cells from BCR-induced apoptosis upon activation. Induction of Bcl10 activity caused rapid activation of nuclear factor-kappaB (NF-kappaB) and c-Jun N-terminal kinase (JNK), but not activation of extracellular signal-regulated kinase (ERK) or p38 mitogen-activated protein (MAP) kinases. These results support genetic and biochemical experiments that have implicated Bcl10 and its binding partners Carma1 and MALT1 in mediating the ability of the BCR to activate NF-kappaB. The ability of Bcl10 expression to prevent BCR-induced growth arrest and apoptosis of WEHI-231 cells was dependent on NF-kappaB activation. Finally, overexpression of Bcl10 in primary B cells activated ex vivo promoted the survival of these cells after removal of activating stimuli. Taken together these results support the hypothesis that enhanced BCL10 expression caused by translocation to the IGH locus can promote formation of MALT lymphomas.
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PMID:Bcl10 can promote survival of antigen-stimulated B lymphocytes. 1587 76


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