Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Murine bone marrow-derived cells, dependent on interleukin 3 (IL-3) for their growth in culture, undergo programmed cell, or apoptosis, upon cytokine withdrawal. Here it is reported that a variety of DNA damaging agents cause a more rapid onset of apoptosis in a factor-dependent cell line, BAF3, deprived of IL-3. In contrast, when cultured in the presence of IL-3, or other growth promoting factors, BAF3 cells are highly resistant to X-irradiation and the cytotoxic drugs etoposide and cisplatin. Overexpression of the bcl2 gene product also protects BAF3 cells from DNA damage. The presence of IL-3 is not required during the initial events of DNA damage or its repair. In the absence of IL-3, cells still complete the repair of DNA breaks within 15 min, and continue to cycle for 5 h. At this time, IL-3 is necessary to prevent the accelerated onset of DNA cleavage from a G2 arrest point.
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PMID:Interleukin 3 protects murine bone marrow cells from apoptosis induced by DNA damaging agents. 140 50

The t(14;18) of human follicular B cell lymphoma translocates the Bcl-2 gene into the Ig H chain locus and markedly deregulates Bcl-2 expression. We sought to determine if Bcl-2 could be directly implicated in a growth-factor pathway. Consequently, we introduced a retrovirus containing the murine Bcl-2 gene (N2-M-Bcl-2) or the parental retrovirus (N2) into a series of factor-dependent hemopoietic cell lines. Overexpressed Bcl-2 resulted in no long term IL-2, IL-3, or IL-6 independent clones, indicating that Bcl-2 could not spare the need for a specific ligand-receptor interaction. However, Bcl-2 did extend the short term survival of IL-3-dependent cell lines after factor deprivation. Although viable, IL-3-deprived pro B lymphocytes (FL5.12) bearing N2-M-Bcl-2 were in Go, and deregulated Bcl-2 did not obviously influence cell-cycle progression. Bcl-2 predominant effects were to delay the onset of cell death and to modestly augment viable cell growth in the first 48 h after IL-3 deprivation. This death sparing was associated with increased levels of Bcl-2 RNA and protein in factor-deprived cells possessing N2-M-Bcl-2. This result was not restricted to prolymphocytes because an IL-3-dependent mast cell line (32D) as well as a promyeloid line (FDC-P1) demonstrated the same response to Bcl-2. Moreover, the effect was not limited to the IL-3/IL-3R signal transduction pathway in that promyeloid cells maintained in granulocyte-macrophage-CSF or IL-4 displayed a similar response. Yet, Bcl-2-enhanced cell survival was not universal as an IL-2-dependent T cell line, and an IL-6-dependent myeloma line demonstrated no consistent effect upon IL withdrawal. Thus, Bcl-2 appears to interfere with cell death but in a cell type and/or factor-restricted fashion.
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PMID:Deregulated Bcl-2 gene expression selectively prolongs survival of growth factor-deprived hemopoietic cell lines. 218 93

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

D-type cyclins and cyclin-dependent kinase (cdk-4) are likely involved in regulating passage of cells through the G1 phase of the cell cycle. A decrease in the proportion of cells in G1, a relatively radiation-sensitive phase of the cell cycle, should result in increased resistance to ionizing radiation; however, the effect of such overexpression on X-ray-induced G1-phase arrest is not known. Radiation survival curves were obtained at a dose rate of either 8 cGy/min or 1 Gy/min for subclones of the IL-3-dependent hematopoietic progenitor cell line 32D cl 3 expressing transgenes for either cyclin-D1, D2 or D3 or cdk-4. We compared the results to those with overexpression of the transgene for Bcl-2, whose expression enhances radiation survival and delays apoptosis. Cells overexpressing transgenes for each D-type cyclin or Bcl-2 had an increased number of cells in S phase compared to parent line 32D cl 3; however, overexpression of cdk-4 had no effect on cell cycle distribution. Cell death resulting from withdrawal of IL-3 was not affected by overexpression of cyclins D1 and D3 but was delayed by overexpression of D2, cdk-4 or Bcl-2. Flow cytometry 24 h after 5 Gy irradiation demonstrated that overexpression of each G1-phase regulatory transgene decreased the proportion of cells at the G1/S-phase border. Western analysis revealed induction of cyclin-D protein levels by irradiation, but no change in the levels of cdk-4, p53 or p21. There was no significant change in the D0, but a significant increase in the n for cyclin-D or cdk-4 transgene-overexpressing clones at 1 Gy/min (P < 0.017). At a lower dose rate of 8 cGy/min, the n for cyclin or cdk-4-overexpressing clones was also increased (P < 0.07). Thus overexpression of cyclin-D or cdk-4 in hematopoietic cells induces detectable effects on hematopoietic cell radiation biology including a broadening of the shoulder on the radiation survival curve and a decrease in radiation-induced G1/S-phase arrest.
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PMID:Inhibition of G1-phase arrest induced by ionizing radiation in hematopoietic cells by overexpression of genes involved in the G1/S-phase transition. 765 61

The Bcl-2 protein is an important regulator of programmed cell death, but the biochemical mechanism by which this protein prevents apoptosis remains enigmatic. Recently, Bcl-2 has been reported to physically interact with a member of the Ras superfamily of small GTPases, p23-R-Ras. To examine the functional significance of R-Ras for regulation of cell death pathways, the IL-3-dependent cells 32D.3 and FL5.12 were stably transfected with expression plasmids encoding an activated form (38 Glycine-->Valine) of R-Ras protein. R-Ras(38V)-producing 32D.3 and FL5.12 cells experienced increased rates of apoptotic cell death relative to control transfected cells when deprived of IL-3. Analysis of several independent clones of transfected 32D.3 cells revealed a correlation between higher levels of R-Ras protein and faster rates of cell death upon withdrawal of IL-3 from cultures. 32D.3 cells cotransfected with R-Ras(38V) and Bcl-2 exhibited prolonged cell survival in the absence of IL-3, equivalent to 32D.3 cells transfected with Bcl-2 expression plasmids alone. R-Ras(38V) also increased rates of cell death in serum-deprived NIH-3T3 cells, and Bcl-2 again abrogated most of this effect. The ratio of GTP and GDP bound to R-Ras(38V) was not significantly different in control 32D.3 cells vs those that overexpressed Bcl-2, indicating that Bcl-2 does not abrogate R-Ras-mediated effects on cell death by altering R-Ras GDP/GTP regulation. Moreover, purified Bcl-2 protein had no effect on the GTPase activity of recombinant wild-type R-Ras in vitro. When expressed in Sf9 cells using recombinant baculoviruses, R-Ras(38V) bound to and induced activation of Raf-1 kinase irrespective of whether Bcl-2 was coproduced in these cells, suggesting that Bcl-2 does not nullify R-Ras effects by interfering with R-Ras-mediated activation of Raf-1 kinase. Taken together, these findings suggest that R-Ras enhances the activity of a cell death pathway in growth factor-deprived cells and imply that Bcl-2 acts downstream of R-Ras to promote cell survival.
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PMID:R-Ras promotes apoptosis caused by growth factor deprivation via a Bcl-2 suppressible mechanism. 774 59

Derivatives of the murine bone marrow-derived, IL-3-dependent cell line, BAF3, were isolated following recombinant retroviral infection which showed disregulated expression of human c-Myc oncoprotein. Such cells entered apoptosis and lost viability more rapidly than parental BAF3 cells when IL-3 was removed. c-Myc disregulation also resulted in an inability of BAF3 cells to survive in either sub-optimal concentrations of IL-3, or saturating concentrations of IL-4 and insulin-like growth factor-1. Furthermore, BAF3 cells with disregulated c-Myc expression were more sensitive to the induction of apoptosis by DNA-damaging agents. These effects of c-Myc disregulation could be inhibited by co-expression of the Bcl-2 oncoprotein. The implications of these data for the transformation of haematopoietic cells by disregulation of Myc expression are discussed.
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PMID:Disregulation of Myc expression in murine bone marrow cells results in an inability to proliferate in sub-optimal growth factor and an increased sensitivity to DNA damage. 798 Nov 46

Murine bone-marrow derived BAF3 cells, over-expressing the human Bcl-2 gene product, showed considerably delayed onset of apoptosis when deprived of IL-3. Such Bcl-2-BAF3 cells arrested rapidly in the G1 phase of the cell cycle upon IL-3 removal, then became refractory to IL-3 re-stimulation. The delay in IL-3 induced proliferation of Bcl-2 over-expressing cells was due to down-regulation of a specific signalling pathway. In the refractory cells, IL-3 was able to stimulate protein tyrosine phosphorylation and c-myc mRNA accumulation, but not rapid Erk2 activation or cdc2 mRNA accumulation.
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PMID:Growth factor starvation of bcl-2 overexpressing murine bone marrow cells induced refractoriness to IL-3 stimulation of proliferation. 813 14

Apoptosis (programmed cell death) plays a critical role in many physiological processes, but the mechanism(s) which regulate apoptosis are poorly understood. We demonstrate that in a hematopoietic cell line, which can grow in either interleukin (IL)-2 or IL-3, both of these growth factors can increase bcl-2 mRNA levels and prevent apoptosis normally seen following growth factor withdrawal. Herbimycin A, a protein tyrosine kinase inhibitor, blocks the ability of IL-2 and IL-3 to up-regulate bcl-2 mRNA levels and induces apoptosis. Transfection of a bcl-2 expression vector not only prolongs survival following growth factor withdrawal but also confers resistance to the effect of herbimycin A. We conclude that herbimycin A-sensitive protein tyrosine kinases are involved in the regulation of apoptosis and bcl-2 expression, but these protein tyrosine kinases appear not to be required for the action of Bcl-2 since Bcl-2 can exert its growth survival effect even in the presence of herbimycin A.
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PMID:Tyrosine kinase(s) regulate apoptosis and bcl-2 expression in a growth factor-dependent cell line. 822 83

The bcl-2 protooncogene has been shown to protect haemopoietic precursors from programmed cell death after the removal of interleukin-3 (IL3). In the present report we show evidence that overexpression of bcl-2 in the pre-B-cell line BAF3 protects cells from apoptosis induced by treatment with the thymydilate synthase inhibitor 5'-fluor,2'-deoxyuridine (FDUR) in the presence of IL-3. Dose-response experiments analyzing the dependence of cell death on drug concentration indicated a marked resistance of BAF3bcl-2 to FDUR treatment. Cleavage of DNA into oligonucleosome-length fragments, a characteristic of apoptosis, was observed in BAF3 cells and inhibited in the cells overexpressing bcl-2. We have determined variations in the dATP and dTTP pools after FDUR treatment. Interestingly, no differences were found between both cells in the kinetics of changes in dNTP pools. Therefore, the protective effect of the Bcl-2 protein on apoptosis induced by dNTP unbalance must be ascribed to a step downstream of perturbations in the synthesis of DNA precursors and before activation of endonucleolytic cleavage of chromatin.
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PMID:Bcl-2 oncogene protects a bone marrow-derived pre-B-cell line from 5'-fluor,2'-deoxyuridine-induced apoptosis. 833 32

We report the isolation of bcl-x, a bcl-2-related gene that can function as a bcl-2-independent regulator of programmed cell death (apoptosis). Alternative splicing results in two distinct bcl-x mRNAs. The protein product of the larger mRNA, bcl-xL, is similar in size and predicted structure to Bcl-2. When stably transfected into an IL-3-dependent cell line, bcl-xL inhibits cell death upon growth factor withdrawal at least as well as bcl-2. Surprisingly, the second mRNA species, bcl-xS, encodes a protein that inhibits the ability of bcl-2 to enhance the survival of growth factor-deprived cells. In vivo, bcl-xS mRNA is expressed at high levels in cells that undergo a high rate of turnover, such as developing lymphocytes. In contrast, bcl-xL is found in tissues containing long-lived postmitotic cells, such as adult brain. Together these data suggest that bcl-x plays an important role in both positive and negative regulation of programmed cell death.
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PMID:bcl-x, a bcl-2-related gene that functions as a dominant regulator of apoptotic cell death. 835 89


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