Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:A9QXG9 (bcl-2)
 7,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Coexpression of the proto-oncogenes c-myc and bcl-2 under the control of the immunoglobulin enhancer E mu provokes the rapid development of primitive lymphoid tumors in transgenic mice. In the present study we show that the myc family members N-myc and L-myc also cooperate with bcl-2 in oncogenesis and can provoke the development of more mature pre-B, B and T cell type lymphomas. The analysis of prelymphomatous B-cells from single E mu N-myc and bcl-2-Ig transgenic animals and from young, tumor free, double transgenic E mu N-myc/bcl-2-Ig mice revealed that E mu directed expression of N-myc leads to very rapid apoptosis after explantation and culturing compared to B-cells from normal mice. As expected, B-cells from bcl-2-Ig transgenics were protected to a certain degree from apoptosis. Strikingly however, B-cells from E mu N-myc/bcl-2-Ig double transgenic animals were found to be almost completely resistant towards a number of different apoptotic stimuli. Furthermore, after treatment with H2O2, which can trigger apoptosis, B-cells from E mu N-myc animals reach levels of intracellular free Ca2+ concentrations that are comparable to B-cells from normal mice, whereas B-cells from bcl-2-Ig or E mu N-myc/bcl-2-Ig double transgenic mice show no increase in intracellular Ca2+ concentrations after stimulation with H2O2. These findings suggest that the prevention of apoptosis conferred by bcl-2 correlates with the inhibition of intracellular Ca2+ fluxes whereas induction of apoptosis mediated by N-myc requires normal Ca2+ levels. We hypothesize therefore that the regulation of intracellular Ca2+ concentrations represent one important parameter in the oncogenic cooperation between bcl-2 and N-myc.
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PMID:Survival and death of prelymphomatous B-cells from N-myc/bcl-2 double transgenic mice correlates with the regulation of intracellular Ca2+ fluxes. 747 38

All-trans retinoic acid (ATRA) increases the sensitivity of AML blast cells to cytosine arabinoside (Ara-C) or daunorubicin (DNR) when ATRA is given after drug. We have proposed that down-regulation of bcl-2 is part of the mechanism by which ATRA regulates drug sensitivity. To test this hypothesis cDNA encoding bcl-2 was transfected into cells of the continuous lines OCI/AML-2 and OCI/AML-5. Four transfectant lines were isolated; three contained transfected bcl-2 in the sense orientation (AML5-BCL2sa, AML5-BCL2sb and 2-bcl2) and one with anti-sense bcl-2(AML5-bcl2as). The presence of the transfected gene was demonstrated by Northern blot; translation of the sense transfected genes into protein was demonstrated by Western blotting. Lines with sense-oriented transfected bcl-2 were significantly less sensitive to Ara-C or H2O2 than the parental lines; the cells with anti-sense transfected genes were more sensitive than their parent but the difference did not reach statistical significance. The effect of ATRA on bcl-2 expression was compared in sense-transfected cells and their parents; by Northern blotting it was shown that the endogenous but not the transfected genes were down-regulated after ATRA exposure. The capacity of cells with transfected genes to respond to ATRA was tested by obtaining Ara-C survival curves for ATRA-treated cells. Compared to controls not exposed to ATRA, the transfected cells showed little or statistically insignificant changes in Ara-C sensitivity after ATRA treatment. We conclude that data from the transfectants provides evidence that expression of bcl-2 is a determinant of sensitivity to Ara-C and H2O2; and that the effect of ATRA on sensitivity requires the presence of bcl-2 genes in association with regulatory elements.
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PMID:Direct evidence for the participation of bcl-2 in the regulation by retinoic acid of the Ara-C sensitivity of leukemic stem cells. 756 7

Retinoic acid and hydrocortisone (HC) have been shown to regulate the drug sensitivity of the blast cells of acute myeloblastic leukemia (AML). We asked if the proto-oncogene bcl-2 played a role in this regulation. As target cells we used the continuous lines, OCI/AML-1, OCI/AML-2 or OCI/AML-5; expression of bcl-2 can be detected by Northern analysis of RNA from OCI/AML-2 or OCI/AML-5 cells; bcl-2 expression can be found in OCI/AML-1 cells only by using RT-PCR. Exposure of OCI/AML-2 or OCI/AML-5 cells to retinoic acid (all-trans retinoic acid, ATRA) led to a down-regulation of bcl-2 expression that was first seen after 2 h of exposure and was complete after a day. The down-regulation could be prevented by exposing the cells to ara-C either before or after ATRA; decrease in bcl-2 protein was moderate and only obvious after 36 h of ATRA treatment. Nuclear run-on experiments provided evidence that bcl-2 down-regulation was occurring at transcriptional and post-translational levels. Since bcl-2 is considered to have anti-oxidant activity, we tested the sensitivity of the three cell lines to H2O2; we found that OCI/AML-1, the line with very low bcl-2 expression, was a 100-fold more H2O2-sensitive than OCI/AML-2 or OCI/AML-5, where bcl-2 expression can be detected readily. We then asked if H2O2 sensitivity could be regulated. We found that exposure of cells to HC before H2O2 was protective while ATRA after peroxide treatment increased killing; this is the same pattern of regulation observed when AML blasts are exposed to HC before, or ATRA after ara-C. Finally, we asked whether N-acetylcysteine (NAC), a known radical scavenger would protect cells against ara-C killing. Significant protection was observed when NAC was given before drug, but not if given after drug. NAC protection against ara-C killing was seen for OCI/AML-1 and 2 cells, but not for OCI/AML-5 cells. We interpret the results as follows: ara-C kills cells in two ways: first, directly, by incorporation into DNA and chain termination; second, indirectly, by inducing the production of toxic radicals. Bcl-2 reduces the oxidant activity of such radicals, and is protective. ATRA regulates ara-C toxicity by its action on bcl-2. Left unexplained are the action of HC, which does not affect bcl-2 expression and the mechanism by which ara-C prevents down-regulation of bcl-2 by ATRA.
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PMID:Mechanism of cytosine arabinoside toxicity to the blast cells of acute myeloblastic leukemia: involvement of free radicals. 776 41

Heat shock (HS) proteins (HSPs) induce protection against a number of stresses distinct from HS, including reactive oxygen species. In the human premonocytic line U937, we investigated in whole cells the effects of preexposure to HS and exposure to hydrogen peroxide (H2O2) on mitochondrial membrane potential, mass, and ultrastructure. HS prevented H2O2-induced alterations in mitochondrial membrane potential and cristae formation while increasing expression of HSPs and the protein product of bcl-2. Protection correlated best with the expression of the 70-kDa HSP, hsp70. We propose that mitochondria represent a selective target for HS-mediated protection against oxidative injury.
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PMID:Mitochondria are selective targets for the protective effects of heat shock against oxidative injury. 869 37

The ability of the protein synthesis inhibitor cycloheximide (CHX) to prevent neuronal death in different paradigms has been interpreted to indicate that the cell death process requires synthesis of "killer" proteins. On the other hand, data indicate that neurotrophic factors protect neurons in the same death paradigms by inducing expression of neuroprotective gene products. We now provide evidence that in embryonic rat hippocampal cell cultures, CHX protects neurons against oxidative insults by a mechanism involving induction of neuroprotective gene products including the antiapoptotic gene bcl-2 and antioxidant enzymes. Neuronal survival after exposure to glutamate, FeSO4, and amyloid beta-peptide was increased in cultures pretreated with CHX at concentrations of 50-500 nM; higher and lower concentrations were ineffective. Neuroprotective concentrations of CHX caused only a moderate (20-40%) reduction in overall protein synthesis, and induced an increase in c-fos, c-jun, and bcl-2 mRNAs and protein levels as determined by reverse transcription-PCR analysis and immunocytochemistry, respectively. At neuroprotective CHX concentrations, levels of c-fos heteronuclear RNA increased in parallel with c-fos mRNA, indicating that CHX acts by inducing transcription. Neuroprotective concentrations of CHX suppressed accumulation of H2O2 induced by FeSO4, suggesting activation of antioxidant pathways. Treatment of cultures with an antisense oligodeoxynucleotide directed against bcl-2 mRNA decreased Bcl-2 protein levels and significantly reduced the neuroprotective action of CHX, suggesting that induction of Bcl-2 expression was mechanistically involved in the neuroprotective actions of CHX. In addition, activity levels of the antioxidant enzymes Cu/Zn-superoxide dismutase, Mn-superoxide dismutase, and catalase were significantly increased in cultures exposed to neuroprotective levels of CHX. Our data suggest that low concentrations of CHX can promote neuron survival by inducing increased levels of gene products that function in antioxidant pathways, a neuroprotective mechanism similar to that used by neurotrophic factors.
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PMID:Neuroprotective action of cycloheximide involves induction of bcl-2 and antioxidant pathways. 906 Apr 77

Bcl-2 is an oncogene that confers deregulated growth potential to B lymphocytes through its ability to inhibit apoptotic cell death. A specific molecular activity for the Bcl-2 protein has not been identified, but several lines of evidence have supported a role in protection of cells from oxidative stress. We investigated whether there is a correlation between expression of high levels of Bcl-2 and susceptibility of human Burkitt's lymphoma cell lines to H2O2-induced killing. The amount of H2O2 required to kill 50% of cells in 24 hours varied widely in the seven different lymphoma cell lines that were tested, ranging from 35 to 500 micromol/L H2O2. However, expression of high levels of endogenous Bcl-2 did not protect the cells from H2O2-induced killing, even though it was effective in protecting the cells from apoptosis induced by agents such as A23187. Thus, Bcl-2 was functional in preventing apoptosis but did not act in an antioxidant capacity. The results were confirmed using a Burkitt's lymphoma cell line overexpressing transfected bcl-2. The results may be explained by the observation that H2O2 was inefficient at inducing apoptosis in these mature B-cell lines. Nonapoptotic death induced by H2O2 was not prevented by Bcl-2.
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PMID:Bcl-2 does not protect Burkitt's lymphoma cells from oxidant-induced cell death. 919 72

The bcl-2 protooncogene product possesses antiapoptotic properties in neuronal and nonneuronal cells. Recent data suggest that Bcl-2's potency as a survival factor hinges on its ability to suppress oxidative stress, but neither the subcellular site(s) nor the mechanism of its action is known. In this report electron paramagnetic resonance (EPR) spectroscopy analyses were used to investigate the local effects of Bcl-2 on membrane lipid peroxidation. Using hydrogen peroxide (H2O2) and amyloid beta-peptide (A beta) as lipoperoxidation initiators, we determined the loss of EPR-detectable paramagnetism of nitroxyl stearate (NS) spin labels 5-NS and 12-NS. In intact cell preparations and postnuclear membrane fractions, A beta and H2O2 induced significant loss of 5-NS and 12-NS signal amplitude in control PC12 cells, but not PC12 cells expressing Bcl-2. Cells were subjected to differential subcellular fractionation, yielding preparations of plasma membrane and mitochondria. In preparations derived from Bcl-2-expressing cells, both fractions contained Bcl-2 protein. 5-NS and 12-NS signals were significantly decreased following A beta and H2O2 exposure in control PC12 mitochondrial membranes, and Bcl-2 largely prevented these effects. Plasma membrane preparations containing Bcl-2 were also resistant to radical-induced loss of spin label. Collectively, our data suggest that Bcl-2 is localized to mitochondrial and plasma membranes where it can act locally to suppress oxidative damage induced by A beta and H2O2, further highlighting the important role of lipid peroxidation in apoptosis.
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PMID:Bcl-2 protects isolated plasma and mitochondrial membranes against lipid peroxidation induced by hydrogen peroxide and amyloid beta-peptide. 942 44

We have earlier shown that Syrian hamster cells spontaneously transformed in vitro during in vivo progression, acquire in 1 step, along with highly increased tumorigenicity, 2 new properties characterizing the [H2O2CA + tPGE(S)] phenotype, i.e., a high H2O2 catabolizing (antioxidant) activity and the ability to release PGE2 upon contact with NK cells. In contrast, RSV-SR-(v-src)-transformed cells acquire the [H2O2CA + PGE(S)] phenotype and high tumorigenicity during in vitro transformation, i.e., without preliminary in vivo selection. In the present study, the possible influence of different transforming genes on the rates of subsequent in vivo tumor progression was studied using cells in vitro transformed by SV40, BAV-3, or transduced by activated genes Ha-ras, p53, myc and bcl-2. The expression of the [H2O2CA + PGE(S)] phenotype, the extent of tumorigenic and spontaneous metastasizing activities were examined before and during in vivo cells selection in s.c. growing tumors. Our results demonstrate that: (1) after in vitro transformation all cell lines (except v-src) were negative for the expression of [H2O2CA + PGE(S)] phenotype and remained equally low-tumorigenic; (2) independently of the types of genes initially transforming the cells, in vivo tumor progression was consistently leading to the replacement of parental cells by cells expressing the [H2O2CA + PGE(S)] phenotype, to 30-200 times increased tumorigenicity and less frequently to metastasizing; (3) the time necessary for selection of cells expressing this phenotype was the same (about 180 days in vivo) for all transformants, except bcl-2; the latter reaching similar values after a significant delay. Thus, common secondary src-like phenotypic cell changes, regardless of initially cell transforming genes are necessarily selected during tumor progression in vivo.
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PMID:Cell transforming genes and tumor progression: in vivo unified secondary phenotypic cell changes. 946 19

Overexpression of the bcl-2 and the related bcl-xL protooncogene proteins enhance cell survival by inhibiting apoptosis induced by many agents including oxidants. Whether these proteins contribute to survival in oxidant-resistant cells is not known. The current study assessed the expression of bcl-2 and bcl-xL proteins in human glioblastoma U87MG cells and human lung adenocarcinoma A549 cells selected for resistance to 0, 50, 100, 200, and 400 microM H2O2 by exposure to this oxidant one time each passage for 9 months. When examined 7 to 32 days after cessation of peroxide exposure (times when peroxide resistance was maintained), bcl-2 protein levels were significantly increased in most peroxide-resistant U87MG cells. However, the increase was not dose dependent and was not accompanied by an increase in mRNA levels. A549 cells did not express significant levels of bcl-2 protein, although bcl-2 mRNA was detectable. A549 cells expressed large amounts of bcl-xL and immunohistochemistry demonstrated extensive localization of this protein around the nucleus. However, expression of this protein was not altered in peroxide-resistant lines nor was bcl-2 protein increased to a measurable level. U87MG cells also expressed bcl-xL but it was not altered in peroxide-resistant cells. Although the increased bcl-2 protein in peroxide-resistant U87MG cells may contribute to their oxidant tolerance, the lack of a dose-response relationship, the failure to induce bcl-xL protein, and the absence of any bcl-2 or bcl-xL protein induction in peroxide-resistant A549 cells suggest these genes are not primary factors in oxidant resistance.
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PMID:Bcl-2 and Bcl-xL in peroxide-resistant A549 and U87MG cells. 957 23


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