Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0079731 (B-cell lymphoma)
16,671 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

3q27 translocation affecting the BCL6 gene is one of the most common chromosomal abnormalities in diffuse large B-cell lymphoma (DLBCL). BCL6 translocation can involve not only one of the three immunoglobulin gene (Ig) loci but also another non-Ig chromosomal locus. 5'-rapid amplification of cDNA ends and long-distance inverse polymerase chain reaction (PCR) methods have identified a total of 13 recurrent non-Ig partner genes to date. As the result of non-Ig/BCL6 translocation, many types of regulatory sequences of each partner gene substitute for the 5' untranslated region of the BCL6 and the rearranged BCL6 is presumed to be under the control of the replaced promoter activity. BCL6 translocation occurs more frequently in extranodal DLBCL than in node-based disease. However, the impact of BCL6 translocation on the treatment outcome of DLBCL has been the subject of controversy. We found that survival of DLBCL patients with non-Ig partners was inferior to that of those with Ig/BCL6 translocation, suggesting that non-Ig/BCL6 fusion is a poor prognostic indicator of DLBCL. We next created BCL6 expression plasmids containing a series of non-Ig/BCL6 fusion genes. COS-7 cells transiently transfected with these plasmids expressed high levels of Bcl-6 protein and showed characteristic punctate nuclear staining. These findings suggested that non-Ig/BCL6 translocation plays a pathogenetic role in a proportion of DLBCL.
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PMID:Non-immunoglobulin/BCL6 gene fusion in diffuse large B-cell lymphoma: prognostic implications. 1238 16

Disruption of the physiologic balance between cell proliferation and death is a universal feature of all cancers. In general terms, human B-cell lymphomas can be subdivided into 2 main groups, low- and high-growth fraction lymphomas, according to the mechanisms through which this imbalance is achieved. Most types of low-growth fraction lymphomas are initiated by molecular events resulting in the inhibition of apoptosis, such as translocations affecting BCL2, in follicular lymphoma, or BCL10 and API2/MLT1, in mucosa-associated lymphoid tissue (MALT) lymphomas. This results in cell accumulation as a consequence of prolonged cell survival. In contrast, high-growth fraction lymphomas are characterized by an enhanced proliferative activity, as a result of the deregulation of oncogenes with cell cycle regulatory functions, such as BCL6, in large B-cell lymphoma, or c-myc, in Burkitt lymphoma. Low- and high-growth fraction lymphomas are both able to accumulate other alterations in cell cycle regulation, most frequently involving tumor suppressor genes such as p16(INK4a), p53, and p27(KIP1). As a consequence, these tumors behave as highly aggressive lymphomas. The simultaneous inactivation of several of these regulators confers increased aggressivity and proliferative advantage to tumoral cells. In this review we discuss our current knowledge of the alterations in each of these pathways, with special emphasis on the deregulation of cell cycle progression, in an attempt to integrate the available information within a global model that describes the contribution of these molecular changes to the genesis and progression of B-cell lymphomas.
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PMID:Cell cycle deregulation in B-cell lymphomas. 1239 83

The proto-oncogene BCL6 encodes a BTB/POZ-zinc finger transcriptional repressor that is necessary for germinal-center formation and has been implicated in the pathogenesis of B-cell lymphomas. Here we show that the co-activator p300 binds and acetylates BCL6 in vivo and inhibits its function. Acetylation disrupts the ability of BCL6 to recruit histone deacetylases (HDACs), thereby hindering its capacity to repress transcription and to induce cell transformation. BCL6 is acetylated under physiologic conditions in normal germinal-center B cells and in germinal center-derived B-cell tumors. Treatment with specific inhibitors shows that levels of acetylation of BCL6 are controlled by both HDAC-dependent and SIR2-dependent pathways. Pharmacological inhibition of these pathways leads to the accumulation of the inactive acetylated BCL6 and to cell-cycle arrest and apoptosis in B-cell lymphoma cells. These results identify a new mechanism of regulation of the proto-oncogene BCL6 with potential for therapeutic exploitation. Furthermore, these findings provide a new mechanism by which acetylation can promote transcription not only by modifying histones and activating transcriptional activators, but also by inhibiting transcriptional repressors.
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PMID:Acetylation inactivates the transcriptional repressor BCL6. 1240 37

Genomic aberrations in a series of paired biopsy samples from patients who presented initially with follicle center lymphoma (FCL) and subsequently transformed to diffuse large B-cell lymphoma (DLBCL) were measured by array comparative genomic hybridization (CGH). The consequences of these aberrations on gene expression were determined by comparison with expression analysis on these specimens using cDNA microarrays. A heterogeneous pattern of acquired genomic abnormalities was observed upon transformation, some of which were recurrent in small subsets of patients. Some of the genomic aberration acquired upon transformation, such as gain/amplification of 1q21-q24, 2p16 (REL/BCL11A gene loci), 3q27-q29 (including the BCL6 locus), 7q11.2-q22.1, 12pter-q12, 18q21 (including the BCL2 locus) and Xq, and deletion of 6q22-q24, 13q14-q21 and 17p13 (P53 locus) have been previously implicated in the FCL/DLBCL pathogenesis. In addition, novel genomic imbalances not previously reported in association with FCL transformation, such as overrepresentation of 4p12-pter, 5p12-p15, 6p12.3-p21, 9p23, 9q13-q31, 16q, 17q21, and loss of 1p36.3, 4q21-q23, 5q21-q23, 9q31-qter, 11q24-q25, and 15q23, were identified. We observed a differential expression profile of many genes within regions of gain and deletion upon transformation, including novel target genes associated with FCL transformation. However, other genes did not show deregulated expression despite their location within these areas. In summary, the combination of array CGH and expression analysis provides a more comprehensive picture of the transformation of FCL to DLBCL. This process is associated with the acquisition of a variable spectrum of genomic imbalances affecting recurrent chromosomal areas that harbor overexpressed or underexpressed genes targeted upon transformation.
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PMID:Transformation of follicular lymphoma to diffuse large cell lymphoma is associated with a heterogeneous set of DNA copy number and gene expression alterations. 1240 72

The Fifteenth International Symposium of the Foundation for Promotion of Cancer Research entitled 'New Horizons in the Diagnosis and Treatment of Hematological Malignancies Based on Molecular Genetic Features' was held in Tokyo on January 15-17, 2002. Twenty-nine invited speakers, including 12 from abroad and 17 from Japan, presented the updated results of their research. After an overview of the classification of hematological malignancies, new findings on some disease entities based on novel immunophenotypic and molecular genetic features were presented. The results of gene expression profiling and BCL6 and C-MYC gene rearrangement in diffuse large B-cell lymphoma were presented and oncogenic mechanism of acute myeloid leukemia was discussed. In the treatment of non-Hodgkin's lymphoma and acute leukemia, the present consensus and future directions were discussed based on the results of multicenter trials in the USA and Japan. As a molecular targeting therapy, the remarkable effect of a BCR-ABL tyrosine kinase inhibitor, STI571, in chronic myeloid leukemia and gastrointestinal stromal tumor was presented. Thereafter, promising results of active immunotherapy, chimeric anti-CD20 monoclonal antibody, anti-CD20 radioimmunoconjugate and anti-CD22 immunotoxin for B-cell lymphoma were presented. Finally, recent advances in allogeneic hematopoietic stem cell transplantation were discussed, focusing on reduced-intensity preparative regimens. The recent advances in basic and clinical research on hematological malignancies would lead to further improvement in the prognosis and quality of life of patients suffering from leukemia or lymphoma.
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PMID:Report of the fifteenth international symposium of the foundation for promotion of cancer research: new horizons in the diagnosis and treatment of hematological malignancies based on molecular genetic features. 1241 6

Chromosome translation plays an important role for lymphomagenesis. Transcriptional disregulation type of chromosome translocation involves a majority of B-cell lymphoma. These include BCL1/cyclin D1 translocation in mantle cell lymphoma, BCL2 in follicular lymphoma and BCL6 in diffuse large B-cell lymphoma. It is known that the transcriptional disregulation type causes aberrant gene expression at the stages where those genes are down-regulated in normal counterpart cells. Normal B-cells at mantle zone stage down-regulate the expression of BCL1 gene and become resting in cell cycle. However, BCL1 expression from translocated allele with immunoglobulin gene is not down-regulated at the mantle zone stage, preventing cells from entering in resting state, and puts cells in cell cycle, leading to development of mantle cell lymphoma. BCL2 expression from altered allele also keeps its expression at the germinal center stage where normal counterpart cells down-regulate BCL2 expression, and makes cells to resist apoptosis, leading to development of follicular lymphoma. The same scenario can apply to diffuse large B-cell lymphoma with BCL6 translocation; i.e. aberrant BCL6 expression at the post germinal center stage takes place where normal counterpart cells down-regulate BCL6 expression. Although a strong association of specific translocations with specific disease types is found, these translocations by themselves are not sufficient for malignant transformation. The factors other than chromosome translocations will be discussed.
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PMID:Molecular mechanisms of lymphomagenesis through transcriptional disregulation by chromosome translocation. 1243 Aug 74

The BCL6 proto-oncogene encodes a transcriptional repressor required for the development of germinal centers (GCs) and implicated in the pathogenesis of GC-derived B cell lymphoma. Understanding the precise role of BCL6 in normal GC formation and in lymphomagenesis depends on the identification of genes that are direct targets of its transcriptional repression. Here we report that BCL6 directly controls the expression of B7-1/CD80, a costimulatory receptor involved in B-T cell interactions critical for the development of T cell-mediated antibody responses. Upon CD40 signaling, transcription of the CD80 gene is induced by the nuclear factor (NF)-kappaB transcription factor. Our results show that BCL6 prevents CD40-induced expression of CD80 by binding its promoter region in vivo and suppressing its transcriptional activation by NF-kappaB. Consistent with a physiologic role for BCL6 in suppressing CD80, the expression of these two genes is mutually exclusive in B cells, and BCL6-defective mice show increased expression of CD80 in B cells. The results suggest that BCL6 may directly control the ability of B cell to interact with T cells during normal GC development. In addition, these findings imply that T-B cell interactions may be disrupted in B cell lymphoma expressing deregulated BCL6 genes.
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PMID:BCL6 controls the expression of the B7-1/CD80 costimulatory receptor in germinal center B cells. 1286 Sep 28

Chromosomal translocations and somatic mutations occurring in the 5' noncoding region of the BCL6 gene, encoding a transcriptional repressor, are most frequent genetic abnormalities associated with non-Hodgkin B-cell lymphoma and result in deregulated expression of BCL6. However, the significance of deregulated expression of BCL6 in lymphomagenesis and its effect on clinical outcomes of lymphoma patients have remained elusive. In the present study, we established Daudi and Raji B-cell lymphoma cell lines that overexpress BCL6 or its mutant, BCL6-Ala333/343, in which serine residues required for degradation through the proteasome pathway in B-cell receptor-stimulated cells are mutated. BCL6 overexpression did not have any significant effect on cell proliferation, but significantly inhibited apoptosis caused by etoposide, which induced a proteasome-dependent degradation of BCL6. BCL6-Ala333/343 was not degraded after etoposide treatment and strongly inhibited apoptosis. In these lymphoma cell lines, etoposide increased the generation of reactive oxygen species (ROS) and reduced mitochondria membrane potential, both of which were inhibited by the antioxidant N-acetyl-L-cysteine (NAC). NAC also inhibited apoptosis. Furthermore, BCL6 overexpression was found to inhibit the increase in ROS levels and apoptosis in response to etoposide and other chemotherapeutic reagents. These results raise the possibility that deregulated expression of BCL6 may endow lymphoma cells with resistance to chemotherapeutic reagents, most likely by enhancing the antioxidant defense systems.
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PMID:BCL6 overexpression prevents increase in reactive oxygen species and inhibits apoptosis induced by chemotherapeutic reagents in B-cell lymphoma cells. 1288 2

BCL6 encodes a transcription factor that represses genes necessary for the terminal differentiation of lymphocytes within germinal centers, and the misregulated expression of this factor is strongly implicated in several types of B cell lymphoma. The homodimeric BTB domain of BCL6 (also known as the POZ domain) is required for the repression activity of the protein and interacts directly with the SMRT and N-CoR corepressors that are found within large multiprotein histone deacetylase-containing complexes. We have identified a 17 residue fragment from SMRT that binds to the BCL6 BTB domain, and determined the crystal structure of the complex to 2.2 A. Two SMRT fragments bind symmetrically to the BCL6 BTB homodimer and, in combination with biochemical and in vivo data, the structure provides insight into the basis of transcriptional repression by this critical B cell lymphoma protein.
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PMID:Mechanism of SMRT corepressor recruitment by the BCL6 BTB domain. 1469 Jun 7

We present a patient with stage III de novo diffuse large B-cell lymphoma. The lymphoma cells showed mature B-cell immunophenotype but lacked surface immunoglobulin (Ig) expression. Long-distance and long-distance inverse polymerase chain reaction assays to detect the oncogene/Ig gene rearrangement revealed that the cells carried 3 independent fusion genes, namely, c-MYC/Ig heavy chain gene (IgH), BCL2/IgH, and Ig lambda light chain gene/BCL6. Thus, the lymphoma cells concurrently carried t(8;14)(q24;q32), t(14;18)(q32;q21), and t(3;22)(q27;q11), which developed in association with class switching, V/D/J recombination, and somatic hypermutation, respectively. The lymphoma responded to chemoradiotherapy, and the patient has been well for 2 years, suggesting that multiple oncogene rearrangements may not necessarily be associated with poor clinical outcome.
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PMID:Coexistent rearrangements of c-MYC, BCL2, and BCL6 genes in a diffuse large B-cell lymphoma. 1497 79


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