Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oncogenes bcl1 and bcl2 are located in the rupture site of t(11;14) and t(14; 18), respectively. They have been found to rearrange in different B-cell malignancies. A molecular study of oncogenes bcl1 and bcl2 was carried out in 42 patients diagnosed of B-cell chronic lymphoid leukaemia. In 14.3% of the patients the rearrangement affected bcl1, but no differences were found with regard to stage and clinical course between these patients and those without any oncogen rearrangement. In all the patients studied bc12 was in a germinal configuration.
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PMID:[Rearrangement of the bcl1 and bcl2 oncogenes in chronic lymphoid leukemia]. 129 80

Early pre-B cells derived from mouse lymphoid bone marrow cultures were expanded on a surrogate stromal cell line composed of NIH3T3 fibroblasts engineered to secrete interleukin 7 (IL-7). Three immortal, IL-7-dependent cell lines were generated and infected with recombinant retroviruses to determine the effects of the human follicular B-cell lymphoma gene, bcl-2, on immature stages of B-cell development. Cells expressing bcl-2 grew at rates similar to those of control (vector only) cells when plated on bone marrow stromal lines, but exhibited a c. two-fold net proliferative advantage when grown in liquid medium supplemented with IL-7 alone. Bcl-2 prevented apoptosis when the infected early pre-B-cell lines were deprived of IL-7 and other growth factors provided by stromal cells. Following factor deprivation, a subset of cells expressing bcl-2 survived indefinitely. Two such cultures spontaneously gave rise to factor-independent variants which grew slowly in unsupplemented liquid culture and formed agar colonies, yet still responded positively to IL-7 and kit ligand, and negatively to gamma-interferon. Bcl-2 thus provides a survival capacity and modest growth advantage to early pre-B cells, which may recapitulate its effects in human B cells bearing t(14;18) translocations and ultimately contribute to transformation.
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PMID:Bcl-2 confers growth and survival advantage to interleukin 7-dependent early pre-B cells which become factor independent by a multistep process in culture. 137 74

The S49.1 and WEHI7.2 murine lymphoid cell lines have been used extensively as models for investigations of programmed cell death ("apoptosis") induced by glucocorticoids such as dexamethasone. Infection of these thymus-derived T-cell lines with a recombinant retrovirus encoding the human M(r) 26,000 Bcl-2 oncoprotein resulted in marked resistance to DEX-mediated cell death and DNA degradation into oligonucleosomal fragments, without interfering with the ability of dexamethasone to suppress cellular proliferation and without lowering levels of glucocorticoid receptors. In contrast, high levels of p26-Bcl-2 production did not block cell killing and DNA fragmentation induced by H2O2, suggesting that the Bcl-2 impairs some but not all pathways for cell death in S49.1 and WEHI7.2 cells that are associated with the DNA fragmentation pattern typical of apoptosis. S49.1 and WEHI7.2 cells infected with bcl-2 but not control retrovirus also exhibited increased resistance to cell killing and DNA fragmentation induced by a wide variety of reagents, including the calcium ionophore ionomycin, the phorbol ester tetradecanoylphorbol acetate, the dihydrofolate reductase inhibitor methotrexate, the antimetabolite 1-beta-D-arabinofuranosylcytosine, and the microtubule inhibitor vincristine. These findings provide evidence that p26-Bcl-2 interferes with a pathway for cell death that is activated by multiple drugs used for the treatment of cancer.
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PMID:bcl-2 gene transfer increases relative resistance of S49.1 and WEHI7.2 lymphoid cells to cell death and DNA fragmentation induced by glucocorticoids and multiple chemotherapeutic drugs. 139 46

The bcl-2 proto-oncogene is activated by translocation in a variety of B-lymphoid tumours and synergizes with the c-myc oncogene in tumour progression. The mechanism of synergy is unclear but bcl-2 expression inhibits apoptosis, a property presumably pertinent to its proto-oncogenic mode of action. We have shown that the c-myc gene is a potent inducer of apoptosis, in addition to its established role in mitogenesis. Here we show that expression of the bcl-2 protein, Bcl-2, specifically abrogates c-myc-induced apoptosis without affecting the c-myc mitogenic function. This provides a novel mechanism for oncogene cooperation, of potential importance both in carcinogenesis and in the evolution of drug resistance in tumours.
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PMID:Cooperative interaction between c-myc and bcl-2 proto-oncogenes. 140 76

We have produced bcl-2 transgenic mice by using a construct which mimics the t(14;18) translocation in human follicular lymphomas. Although lymphoid tissues from all transgenic mice contained high levels of human Bcl-2 protein, transgene expression was differentially regulated within the B- and T-cell compartments of lines derived from various founder mice. We have characterized the phenotypes of two lines of bcl-2 transgenic mice (line 2 and line 6) in which bcl-2 transgene expression was restricted primarily to the T- or B-cell lineages, respectively. Analysis of line 6 lymphocytes revealed a polyclonal expansion of B cells, and these B cells exhibited prolonged survival in vitro. In line 2 mice, numbers of T cells in the peripheral lymphoid tissues were more moderately elevated despite enhanced T-cell survival in vitro. Line 2 transgenic mice also showed significantly increased proportions of thymocytes with a mature phenotype. Taken together, these findings suggest different roles for bcl-2 in the in vivo regulation of B- and T-cell development and homeostasis.
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PMID:Differential effects of Bcl-2 on T and B cells in transgenic mice. 145 23

The Bcl-2 proto-oncogene was discovered at the t(14;18) breakpoint found in most follicular B-cell lymphomas and some diffuse large-cell lymphomas. Bcl-2 is unique among proto-oncogenes, being localized to mitochondria and extending cell survival by blocking programmed cell death. We examined Bcl-2 protein expression in 82 hematologic malignancies and reactive lymphoid processes. All lymphomas with Bcl-2 rearrangement demonstrated high levels of Bcl-2 protein. However, most follicular and diffuse lymphomas without Bcl-2 rearrangement also displayed intense Bcl-2 staining. In these cases, mechanisms other than classic translocation may be deregulation Bcl-2. The pattern of Bcl-2 staining in follicular lymphoma is the inverse of the pattern in reactive hyperplasia, confirming a role for Bcl-2 immunolocalization in routine diagnosis. Small lymphocytic malignancies, including small lymphocytic lymphoma, mantle zone lymphoma, and chronic lymphocytic leukemia, expressed intermediate levels of Bcl-2. Bcl-2 protein varied in plasma cell dyscrasias. Bcl-2 protein levels in T-cell lymphomas reflected their corresponding stage of development. No substantial Bcl-2 was present in the Reed-Sternberg cells of nodular sclerosing Hodgkin's disease. Chronic myelogenous leukemia was strongly positive for Bcl-2, consistent with the presence of Bcl-2 in normal myeloid progenitors. Immunohistochemistry identified an expanded spectrum of hematopoietic neoplasms in which Bcl-2 may provide a cell survival advantage.
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PMID:Immunolocalization of the Bcl-2 protein within hematopoietic neoplasms. 186 40

The bcl-2 gene is consistently associated with t(14; 18) chromosomal translocations observed in a large fraction of human B-cell lymphomas. The t(14; 18) translocation results in deregulated expression of the bcl-2 gene and synthesis of inappropriately high levels of the Bcl-2 protein. Gene transfer studies suggest a role for Bcl-2 in cell survival, growth enhancement and oncogenic transformation. To test the suggestion that GTP-binding by Bcl-2 may mediate its biological effects we characterized the GTP-binding proteins in lymphoid cells expressing Bcl-2. Expression of several small GTP-binding proteins was found to be ubiquitous and did not vary with levels of Bcl-2. By using immunological, electrophoretic and cell-fractionation techniques, we separated Bcl-2 from G proteins of small relative molecular mass (Mr) and showed that it is incapable of binding GTP. Our results show that small Mr G proteins are widely expressed in lymphoid cells and that Bcl-2 is not a novel member of this GTP-binding protein family.
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PMID:Small G proteins are expressed ubiquitously in lymphoid cells and do not correspond to Bcl-2. 211 53

We characterized the basis for the follicular lymphoproliferation in transgenic mice bearing a Bcl-2-immunoglobulin (Bcl-2-Ig) minigene representing the t(14;18) of human follicular lymphoma. Discriminatory S1 nuclease protection assays revealed that the Bcl-2-Ig transgene was overexpressed relative to endogenous mouse Bcl-2 in spleen and thymus. Western (immunoblot) analysis demonstrated the overproduction of the human 25-kilodalton Bcl-2 protein, which arose from the transgene, in spleen, thymus, and the expanded B-cell subset. Despite the generalized lymphoid pattern of deregulation, two-color flow cytometry and density gradient centrifugation indicated that the expanded lymphocytes were predominantly small, resting B cells coexpressing B220, immunoglobulin M (IgM), IgD, Ia, and kappa. Cell cycle analysis confirmed that about 97% of these expanded B cells reside in G0/G1. An extensive characterization of transgenic lines revealed a fourfold excess of IgM-IgD-expressing B cells in spleen and dramatically increased numbers in bone marrow. While resting, these cells proliferated in response to lipopolysaccharide and anti-IgM and demonstrated normal B-cell colony formation in soft agar. Moreover, these B cells, which demonstrated an extended survival in vitro even in the absence of stroma, were also resting in G0, yet were capable of proliferative responses. These findings provide consistent evidence that the accumulation of B cells after Bcl-2 overproduction is secondary to prolonged cell survival and not increased cell cycling. This suggests a unique role for Bcl-2 as a proto-oncogene that enhances cell survival independent of promoting cell division.
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PMID:Deregulated Bcl-2-immunoglobulin transgene expands a resting but responsive immunoglobulin M and D-expressing B-cell population. 218 11

We have identified a 24-kilodalton protein that is the product of the human bcl-2 gene, implicated as an oncogene because of its presence at the site of t(14;18) translocation breakpoints. The Bcl-2 protein was detected by specific, highly sensitive rabbit antibodies and was shown to be present in a number of human lymphoid cell lines and tissues, as well as in mouse B cells transfected with a bcl-2 cDNA construct. Characterization of the Bcl-2 protein demonstrated that it has a lipophilic nature and is associated with membrane structures, probably by means of its hydrophobic carboxy-terminal membrane-spanning domain. In t(14;18)-carrying cell lines, the protein is predominantly localized to the perinuclear endoplasmic reticulum, with a minor fraction in the plasma membrane. These properties, together with the observations that Bcl-2 does not have a characteristic signal peptide and is not glycosylated, suggest that it is an integral-membrane protein that spans the bilayer at its C-terminal hydrophobic region but is exposed only at the cytoplasmic surface. The relative abundance of the Bcl-2 protein in various human lymphoid cell lines correlated with transcription of the bcl-2 gene. The protein was abundant in all t(14;18)-carrying cell lines and lymphomas and was also found at lower levels in pre-B-cell lines and nonmalignant lymphoid tissues that do not carry t(14;18) translocations. These results suggest that the Bcl-2 protein is functional in normal B lymphocytes and that a quantitative difference in its expression may play a role in the pathogenesis of lymphomas carrying the t(14;18) translocation.
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PMID:The bcl-2 candidate proto-oncogene product is a 24-kilodalton integral-membrane protein highly expressed in lymphoid cell lines and lymphomas carrying the t(14;18) translocation. 265 3

A common feature of follicular lymphoma, the most prevalent haematological malignancy in humans, is a chromosome translocation (t(14;18] that has coupled the immunoglobulin heavy chain locus to a chromosome 18 gene denoted bcl-2. By analogy with the translocated c-myc oncogene in other B-lymphoid tumours bcl-2 is a candidate oncogene, but no biological effects of bcl-2 have yet been reported. To test whether bcl-2 influences the growth of haematopoietic cells, either alone or together with a deregulated c-myc gene, we have introduced a human bcl-2 complementary DNA using a retroviral vector into bone marrow cells from either normal or E mu-myc transgenic mice, in which B-lineage cells constitutively express the c-myc gene. Bcl-2 cooperated with c-myc to promote proliferation of B-cell precursors, some of which became tumorigenic. To determine how bcl-2 expression impinges on growth factor requirements, the gene was introduced into a lymphoid and a myeloid cell line that require interleukin 3 (IL-3). In the absence of IL-3, bcl-2 promoted the survival of the infected cells but they persisted in a G0 state, rather than proliferating. These results argue that bcl-2 provided a distinct survival signal to the cell and may contribute to neoplasia by allowing a clone to persist until other oncogenes, such as c-myc, become activated.
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PMID:Bcl-2 gene promotes haemopoietic cell survival and cooperates with c-myc to immortalize pre-B cells. 326 2


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