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)

microRNAs constitute one of the most important discovery in the past few years in the field of gene expression regulation. They can precisely regulate the expression of a specific protein by inhibiting its translation and/or promoting the degradation of its mRNA. In several cancers, the expression of some microRNAs is misregulated, pointing toward the existence of microRNAs with oncogenic or tumour suppressor properties. The miR-17-92 miRNA cluster has been reported to have a pro-oncogenic role in a mouse model system of Myc-induced B cell lymphoma. Some of its targets mRNAs code for proteins with pro-apoptotic or anti-proliferative functions, which shed some light on the mechanism of action of this cluster. On the other hand, a tumour suppressor miRNA like let-7 targets mRNAs coding for oncogenes and is frequently down-regulated in cancers. The finding that c-Myc controls the expression of several of these microRNAs reveals new information on how misregulation of this proto-oncogene can promote tumorigenesis.
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PMID:[Oncogenic and tumour suppressor microRNAs]. 1911 13

Signals that control the fine balance between cell death and cell survival are altered during tumorigenesis. Understanding the mechanisms by which this balance is perturbed, leading to excessive cell survival, is important for designing effective therapies. Proteins belonging to the B-cell lymphoma (BCL) family are known to regulate death responses to apoptotic signals, especially those originating within cells. A subset of BCL family members capable of inhibiting cell death is known to contribute to tumorigenesis; however, it is not known whether all six antiapoptotic BCL family members play a causal role in tumor development. Using a mouse model of MYC-driven leukemia, we showed that, in addition to the well characterized BCL2 and BCLxl (BCL2L1), the other four family members -- BCLw (BCL2L2), BCLb (BCL2L10), BFL1 (BCL2A1) and MCL1 -- also cooperate with MYC to accelerate leukemogenesis. In addition, high levels of each family member are found in either solid human tumors or cell lines derived from human leukemias or lymphomas.
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PMID:MYC-induced myeloid leukemogenesis is accelerated by all six members of the antiapoptotic BCL family. 1913 12

The human REL proto-oncogene encodes a transcription factor in the nuclear factor (NF)-kappaB family. Overexpression of REL is acutely transforming in chicken lymphoid cells, but has not been shown to transform any mammalian lymphoid cell type. In this report, we show that overexpression of a highly transforming mutant of REL (RELDeltaTAD1) increases the oncogenic properties of the human B-cell lymphoma BJAB cell line, as shown by increased colony formation in soft agar, tumor formation in SCID (severe combined immunodeficient) mice, and adhesion. BJAB-RELDeltaTAD1 cells also show decreased activation of caspase in response to doxorubicin. BJAB-RELDeltaTAD1 cells have increased levels of active nuclear REL protein as determined by immunofluorescence, subcellular fractionation and electrophoretic mobility shift assay. Overexpression of RELDeltaTAD1 in BJAB cells has transformed the gene expression profile of BJAB cells from that of a germinal center B-cell subtype of diffuse large B-cell lymphoma (DLBCL) (GCB-DLBCL) to that of an activated B-cell subtype (ABC-DLBCL), as evidenced by increased expression of many ABC-defining mRNAs. Upregulated genes in BJAB-RELDeltaTAD1 cells include several NF-kappaB targets that encode proteins previously implicated in B-cell development or oncogenesis, including BCL2, IRF4, CD40 and VCAM1. The cell system we describe here may be valuable for further characterizing the molecular details of REL-induced lymphoma in humans.
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PMID:Overexpression of an activated REL mutant enhances the transformed state of the human B-lymphoma BJAB cell line and alters its gene expression profile. 1937 8

A relationship between Borrelia burgdorferi and the development of cutaneous B-cell lymphoma (CBCL) has been long discussed. B. burgdorferi DNA has been detected in patients with CBCL and a response of CBCL to antibiotics has been observed. In our patient with a Borrelia infection, a marginal zone lymphoma (SALT) regressed after ceftriaxone therapy. This further case of a combined appearance of CBCL and B. burgdorferi underlines a possible relationship as an example of an infectious trigger in tumorigenesis.
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PMID:[Cutaneous marginal zone lymphoma (SALT) and infection with Borrelia burgdorferi]. 1939 78

Ku80 is often referred to as a tumor suppressor since it maintains the genome by repairing DNA double-strand breaks (DSBs) via the nonhomologous end joining (NHEJ) pathway. Even though Ku80 deletion causes hypersensitivity to gamma-radiation, DNA damage and chromosomal rearrangements, Ku80-mutant mice exhibit very low cancer levels. We previously hypothesized these low cancer levels were caused by enhanced cell cycle checkpoints that responded to inefficiently repaired DNA damage because Ku80-mutant fibroblasts exhibit premature cellular senescence that was dependent on a p53-mediated DNA damage response. In addition, Ku80 and p53 show a genetic interaction to suppress pro-B cell lymphoma and medulloblastoma. Here we tested for a similar anti-tumor genetic interaction between Ku80 and the cyclin kinase inhibitor, p27(Kip1) (p27) since p27 mutant mice showed elevated levels of pituitary adenoma that were exacerbated by gamma-radiation-induced DNA damage (damage repaired by Ku80). We found that deleting both Ku80 and p27 did not exacerbate cancer as compared to either single mutant. In addition, fibroblasts deleted for both exhibited premature cellular senescence similar to Ku80-mutant fibroblasts. Thus, p27 did not exhibit an obvious genetic interaction with Ku80 to suppress tumors. This observation suggests that DNA damage (or DNA damage responses) induced by either gamma-radiation or Ku80 deletion are not equivalent since gamma-radiation exacerbates oncogenesis in mice deleted for either p53 or p27 while Ku80 deletion exacerbates oncogenesis for only the former genotype.
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PMID:Unlike p53, p27 failed to exhibit an anti-tumor genetic interaction with Ku80. 1959 34

The constitutive activation of nuclear factor-kappaB (NF-kappaB) has been implicated in tumorigenesis of lymphoid malignancies. We have previously shown that chromosome 6q was frequently deleted in ocular marginal zone B-cell lymphoma and identified TNFAIP3/A20, a negative regulator of NF-kappaB pathways, as the primary target for 6q deletion. In the study reported here, we extended the analysis to other subsets of non-Hodgkin lymphomas and found that A20 is frequently deleted in mantle cell lymphoma and diffuse large B-cell lymphoma. Importantly, A20 promoter methylation or gene mutation is also frequently detected in these lymphomas, raising the possibility that inactivation of A20 may be involved in lymphomagenesis. To address this question, we conducted overexpression experiments in lymphoma cell lines with A20 deletion and down-regulated expression of A20 with an siRNA technique in Epstein-Barr virus-infected lymphoblastoid cell lines. These experiments found that overexpression of A20 induced apoptosis and silencing of A20 was associated with resistance to apoptosis and enhanced clonogenicity. The cells with down-regulated A20 exhibited enhanced NF-kappaB activities, which may account for the observed effects. These results indicate that our study provides a novel insight into molecular mechanisms leading to lymphoma and that specific targeting of NF-kappaB pathways may be advantageous for treatment.
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PMID:TNFAIP3/A20 functions as a novel tumor suppressor gene in several subtypes of non-Hodgkin lymphomas. 1960 51

The phenotypic heterogeneity that characterizes human cancers reflects the enormous genetic complexity of the oncogenic process. This complexity can also be seen in mouse models where it is frequently observed that in addition to the initiating genetic alteration, the resulting tumor harbors additional, somatically acquired mutations that affect the tumor phenotype. To investigate the role of genetic interactions in the development of tumors, we have made use of the Emu-myc model of pre-B and B cell lymphoma. Since various studies point to a functional interaction between Myc and the Rb/E2F pathway, we have investigated the role of E2F activities in the process of Myc-induced lymphomagenesis. Whereas the absence of E2F1 and E2F3 function has no impact on Myc-mediated tumor development, the absence of E2F2 substantially accelerates the time of tumor onset. Conversely, tumor development is delayed by the absence of E2F4. The enhanced early onset of tumors seen in the absence of E2F2 coincides with an expansion of immature B lineage cells that are likely to be the target for Myc oncogenesis. In contrast, the absence of E2F4 mutes the response of the lineage to Myc and there is no expansion of immature B lineage cells. We also find that distinct types of tumors emerge from the Emu-myc mice, distinguished by different patterns of gene expression, and that the relative proportions of these tumor types are affected by the absence of either E2F2 or E2F4. From these results, we conclude that there are several populations of tumors that arise from the Emu-myc model, reflecting distinct populations of cells that are susceptible to Myc-mediated oncogenesis and that the proportion of these cell populations is affected by the presence or absence of E2F activities.
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PMID:A role for E2F activities in determining the fate of Myc-induced lymphomagenesis. 1974 80

Chlamydiae are obligate intracellular bacteria that grow in eukaryotic cells and cause a wide spectrum of diseases. They can establish persistent infections, are mitogenic in vitro, promote polyclonal cell proliferation in vivo and induce resistance to apoptosis in infected cells-properties that might contribute to tumorigenesis. In fact, Chlamydophila psittaci (Cp) has been linked to the development and maintenance of ocular adnexal marginal zone B-cell lymphoma (OAMZL). In this indolent malignancy, Cp is transported by monocytes and macrophages and causes both local and systemic infection. Cp elementary bodies are viable and infectious in the conjunctiva and peripheral blood of patients with OAMZL. Bacterial eradication with antibiotic therapy is often followed by lymphoma regression. Despite recent advances in the understanding of this bacterium-lymphoma association, several questions remain unanswered. For instance, prevalence variations among different geographical areas and related diagnostic and therapeutic implications remain a major investigational issue. We will focus on clinical and therapeutic implications of chlamydial infections in patients with lymphomas and summarize the current knowledge on the association between Cp infection and OAMZL. Available data on the epidemiology, biology and pathogenesis of this association are analyzed and new investigative and clinical approaches are discussed.
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PMID:Chlamydial infection: the link with ocular adnexal lymphomas. 1980 47

Telomerase is an RNA-dependent DNA polymerase that synthesizes telomeric DNA. Its activity is not detectable in most somatic cells but it is reactivated during tumorigenesis. In most cancers, the combination of hTERT hypermethylation and hypomethylation of a short promoter region is permissive for low-level hTERT transcription. Activated and malignant lymphocytes express high telomerase activity, through a mechanism that seems methylation-independent. The aim of this study was to determine which mechanism is involved in the enhanced expression of hTERT in lymphoid cells. Our data confirm that in B cells, some T cell lymphomas and non-neoplastic lymph nodes, the hTERT promoter is unmethylated. Binding sites for the B cell-specific transcription factor PAX5 were identified downstream of the ATG translational start site through EMSA and ChIP experiments. ChIP assays indicated that the transcriptional activation of hTERT by PAX5 does not involve repression of CTCF binding. In a B cell lymphoma cell line, siRNA-induced knockdown of PAX5 expression repressed hTERT transcription. Moreover, ectopic expression of PAX5 in a telomerase-negative normal fibroblast cell line was found to be sufficient to activate hTERT expression. These data show that activation of hTERT in telomerase-positive B cells is due to a methylation-independent mechanism in which PAX5 plays an important role.
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PMID:PAX5 activates the transcription of the human telomerase reverse transcriptase gene in B cells. 1980 12

Premature senescence is considered as a cellular defense mechanism to prevent tumorigenesis. Although recent evidences show that c-Jun N-terminal kinase (JNK) is involved in the senescence process, the mechanism for this regulation is not fully understood. Here, we examined the role of JNK in premature senescence of tumor cells. Treatment of cells with the JNK-specific inhibitor SP600125 caused phenotypical changes of senescence and triggered a rapid increase in mitochondrial reactive oxygen species (ROS) production and DNA-damage response (DDR) in MCF7 breast carcinoma cells. ROS generation was attributed to the suppression of B-cell lymphoma-2 (Bcl-2) phosphorylation, and resulted in DNA damage and p53 activation. Bax did not change their localization to the mitochondria, which is required for apoptosis. The essential roles of JNK and phosphorylated Bcl-2 in preventing premature senescence were confirmed using RNA interference and ectopic expression of mutants of Bcl-2, including phosphomimetic and nonphosphorylatable forms. These findings were evidenced in H460 lung carcinoma cells and primary human embryonic fibroblasts. Altogether, our results showed that loss of JNK activity triggers a Bcl-2/ROS/DDR signaling cascade that ultimately leads to premature senescence, indicating that basal JNK activity is essential in preventing premature senescence.
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PMID:Prevention of premature senescence requires JNK regulation of Bcl-2 and reactive oxygen species. 1985 32

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