UNIPROT:P10415 - FACTA Search

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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A variant of human prostate PC3 cells, isolated from PC3 cells, was shown to be significantly resistant (> 10-fold) to several clinically active anticancer drugs, including VP-16 and cisplatin. Previous studies showed that resistance to these drugs was not due to expression of the mdr1 gene, or modifications in topoisomerases but may have resulted from high expressions of certain proto-oncogenes (Yamazaki et al. (1994) Biochim. Biophys. Acta 1226, 89-96). Flow cytometry, DNA gel electrophoresis and northern blot analysis were used to further characterize drug responses in sensitive and resistant cells. Treatment of the sensitive PC3 cells with VP-16 and CDDP resulted in accumulation of cells in S and G2, and G1 and S phases, respectively, and caused significant degradation of the genomic DNA into internucleosomal sized DNA fragments, indicating apoptosis. In contrast, resistant PC3 cells showed little or no DNA fragmentation. Resistant PC3(R) cells expressed 2-3-fold more bcl2 protein than the parental PC3 cells, and overexpressed c-myc, c-jun and H-ras mRNA compared to sensitive cells. Treatment with VP-16 or CDDP significantly induced c-myc mRNA levels in sensitive PC3 cells. H-ras message was not affected by either VP-16 or CDDP treatment in PC3 cells. These studies, taken together, suggest that a differential susceptibility to apoptosis and chemosensitivity may be related to altered levels of bcl2 and/or oncogene overexpression in PC3(R) cells.
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PMID:Relationships between proto-oncogene expression and apoptosis induced by anticancer drugs in human prostate tumor cells. 782 30

Activated c-myc gene was introduced into the cells of three normal Epstein-Barr virus (EBV)-positive lymphoblastoid B cell lines (LCL). The cells were monitored for the appearance of new phenotypic and functional features compared with the control LCL cells transfected with plasmid that did not contain the c-myc gene. The LCL-expressing c-myc constitutively did not arrest growth in low serum concentration. However, the cell number in the cultures failed to increase because of substantial cell death. Death was due to apoptosis as demonstrated by flow cytometric analysis of propidium iodide-stained cells, by typical DNA laddering in gel electrophoresis, and by the inspection of Giemsa-stained cell smears. Apoptosis was also induced by exposing the transfected cells to antibodies directed to the immunoglobulin mu chain (a-mu-ab) irrespective of the serum concentration in the culture. Exposure of the cells to CD40 ligand (CD40L) or CD40 monoclonal antibody prevented cell apoptosis. Upon transfection with c-myc, the LCL cells acquired a vacuolated morphology that was never observed in control cells. Moreover, the expression of CD10 and CD38 was upregulated, while that of CD39 and especially CD23 was downregulated. Unlike that observed in certain Burkitt lymphoma (BL) cell lines that share the same surface phenotype (CD10+CD38+CD23-CD39-), the c-myc-transfected cells expressed lymphocyte function-associated (LFA) 1, LFA-3, and intercellular adhesion molecule 1 and grew in large clumps rather than single-cell layers. Expression of CD10 and CD38 was particularly evident on the cells undergoing apoptosis, thus suggesting a correlation between the presence of these markers and the apoptotic process. Cells placed in conditions favoring in vitro apoptosis displayed downregulation of Bcl-2 protein. Bcl-2 expression was, however, upregulated when the cells were exposed to CD40L. These data indicate that the B cells expressing c-myc constitutively acquire some of the features of normal centroblasts and of BL cells, including the expression of CD10 and CD38, and the propensity to undergo apoptosis, which can be prevented by exposure to CD40L. Therefore, these cells can serve as a model system to study both BL lymphomagenesis as well as the process of B cell selection occurring in the germinal centers.
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PMID:Transfection of the c-myc oncogene into normal Epstein-Barr virus-harboring B cells results in new phenotypic and functional features resembling those of Burkitt lymphoma cells and normal centroblasts. 783 23

Chronic B lymphocytic leukemia cells (B-CLL), characterized by the accumulation in vivo of long-life span B cells, exhibit spontaneous programmed cell death or apoptosis when cultured in vitro. We show that interferon-alpha (IFN-alpha), although able to decrease in vivo the number of leukemic cells, protects chronic B lymphocytic leukemia cells from in vitro programmed cell death or apoptosis. This inhibition of spontaneous in vitro apoptosis of leukemic B cells was observed after 24-48 hr of culture with 100-1000 U of either Interferon-alpha 2a or 2b. The protective activity was observed in the majority of the patients tested (6 out of 8) independent of the amount of apoptosis observed. Furthermore, in contrast to IL-4, IFN-alpha did not up-regulate the expression of Bcl-2. This suggests that B-CLL cells can be prevented from undergoing apoptosis in vitro by at least two different mechanisms: one, triggered for instance by IL-4, is associated with Bcl-2 production and the second triggered by Interferon-alpha is Bcl-2 independent. To elucidate the pathways mobilized by Interferon-alpha we also studied the regulation of c-myc expression in our experimental system. We found that (i) induction of in vitro B-CLL apoptosis was not associated with up-regulation of c-myc, (ii) c-myc expression as assessed by mRNA and protein determinations was increased after in vitro or in vivo Interferon-alpha stimulation. Additional experiments using c-myc specific oligonucleotides demonstrated that when Interferon-alpha-mediated c-myc expression was decreased by 60%, the in vitro protective effect of Interferon-alpha was not modified. Thus our data show that in contrast to the situation in vivo, Interferon-alpha prevents spontaneous in vitro B-CLL cells apoptosis through a Bcl-2-independent pathway which is probably not related to c-myc up-regulation.
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PMID:Interferon-alpha-mediated prevention of in vitro apoptosis of chronic lymphocytic leukemia B cells: role of bcl-2 and c-myc. 792 26

Mcl-1, a protein increased early in the differentiation of human myeloblastic ML-1 cells, has sequence similarity to Bcl-2. In the present study, we determined whether Mcl-1 has functional similarity to Bcl-2 by testing its ability to inhibit apoptosis induced by c-Myc overexpression. This was carried out using Chinese hamster ovary 5AHSmyc cells which contain the human c-myc proto-oncogene under the control of a heat shock promoter. Heat treatment induces c-Myc overexpression and thus apoptosis as determined by internucleosomal DNA fragmentation. We transfected 5AHSmyc cells with mcl-1 and found that clones expressing the introduced Mcl-1 protein exhibited reduced DNA fragmentation. Mcl-1 was also capable of delaying the onset of cell death as judged by loss of membrane integrity, although it could not provide complete protection from c-Myc overexpression. Thus, Mcl-1 has functional homology to Bcl-2 in that Mcl-1 can enhance cell viability under conditions that otherwise cause apoptosis.
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PMID:Mcl-1, a member of the Bcl-2 family, delays apoptosis induced by c-Myc overexpression in Chinese hamster ovary cells. 798 27

We have studied the ability of c-myc and bcl-2 oncogenes to modulate p53 function. Our studies show that coincident expression of human Bcl-2 protein with p53 prolongs survival of murine erythroleukemia cells. This effect was associated with a loss of the G1 specificity of p53-mediated cell cycle arrest. Furthermore, we found that the c-myc and bcl-2 genes cooperate to inhibit p53 functions. Coexpression of bcl-2 and c-myc can totally overcome p53-induced apoptosis and cell cycle arrest by altering the subcellular trafficking of p53 during the cell cycle: the p53 remains in the cytoplasm of the cotransfected cells during a critical period in G1. This finding suggests a mechanism by which normal hematopoietic progenitors can survive and proliferate despite p53 expression and by which the inappropriate expression of bcl-2 and c-myc can cooperate in transformation.
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PMID:c-myc and bcl-2 modulate p53 function by altering p53 subcellular trafficking during the cell cycle. 801 82

Bcl-2 expression and its prognostic value were evaluated using the APAAP technique in 40 ALL patients. Because of a possible synergy between c-myc and bcl-2 proteins in cell lines, we compared 40 ALL of either T or B lineage with seven Burkitt's ALL or sporadic Burkitt's lymphomas (BL). We found the same high expression of bcl-2 in adult (Ad) and childhood (Ch) malignancies examined at presentation, regardless of the T or B phenotype. No bcl-2 expression was detectable in BL cases, except for two investigated at relapse. Bcl-2 staining intensity was also not related to the stage of blast differentiation, except in Ad T-ALL, or to the relapse rate. Ki-67, a marker of proliferation, was used to investigate the possible correlation between bcl-2 expression and the proliferative activity. An inverse correlation was found only in BL at presentation. We confirm that bcl-2 expression is the rule in ALL, regardless of the immunophenotypic characteristics at presentation, and that high expression is not correlated with a bad prognosis. Sporadic BL may represent a particular type of tumor, with bcl-2 expression in relapse, but not at presentation.
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PMID:High expression of bcl-2 is the rule in acute lymphoblastic leukemia, except in Burkitt subtype at presentation, and is not correlated with the prognosis. 806 Nov 3

Butyric acid is a potent cell growth inhibitor and differentiation inducer. Our previous studies have shown that MAG=3but, a monosaccharide ester of butyric acid, used at 1 mM, induces apoptosis in the HL-60 cell line. We report here that this drug can also induce apoptosis in the U-937 leukemic cell lines whereas the myeloblastic KG1 and the NB4 promyelocytic leukemic cell lines were refractory to induction of apoptosis. In order to determine what can trigger cells to undergo apoptosis, cell cycle analysis, induction of differentiation and p53, c-myc and Bcl-2 expression was studied. Apoptosis was correlated to an arrest of cell growth in the G1 phase of the cell cycle and to an induction of differentiation through the monocytic pathway in HL-60 and U-937 cells. Time course studies demonstrated DNA fragmentation after few hours incubation with the drug, while morphological signs appeared later (days 2 or 3). Northern blot analysis and flow cytometric studies have shown that cell death induced by MAG=3but was not associated to an overexpression of c-myc and p53. However, in the HL-60 cells, BCL-2 protein expression was decreased after MAG=3but treatment, corroborating the apoptosis observed.
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PMID:Selective induction of apoptosis in myeloid leukemic cell lines by monoacetone glucose-3 butyrate. 819 84

The product of the c-myc proto-oncogene is an important positive regulator of cell growth and proliferation. Recently, c-Myc has also been demonstrated to be a potent inducer of apoptosis when expressed in the absence of serum or growth factors. To further examine Myc-induced apoptosis, we coexpressed the proto-oncogene bcl2, which has been shown to block apoptosis in other systems, with c-myc in serum-deprived Rat 1a fibroblasts. Here we report that ectopic expression of bcl2 specifically blocks apoptosis induced by constitutive c-myc expression. Constitutive c-myc expression in serum-deprived Rat 1a cells caused a > 15-fold increase in the number of dead cells, accompanied by DNA fragmentation. However, coexpression of bcl2 with c-myc in these cells led to a 10-fold increase in the number of live cells and a significant decrease in DNA fragmentation. Thus, Bcl-2 effectively inhibits Myc-induced apoptosis in serum-deprived Rat 1a fibroblasts without blocking entry into the cell cycle. These results imply that apoptosis serves as a protective mechanism to prevent tumorigenicity elicited by deregulated Myc expression. This protective mechanism is abrogated, however, by Bcl-2 and therefore may explain the synergism between Myc and Bcl-2 observed in certain tumor cells.
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PMID:Myc-mediated apoptosis is blocked by ectopic expression of Bcl-2. 845 20

We review some of the most recent developments concerning three genes involved in human cancer: p53, bcl2 and c-myc. Recent data have demonstrated that the bcl2 gene protects tumor cells from apoptosis induced by a variety of agents, including ionizing radiation, and is thus related to resistance to DNA-damaging therapeutic agents. The p53 tumor suppressor gene, however, has been related with growth arrest, apoptosis and thus with selective sensitivity to the killing effects of ionizing radiation and DNA-damaging drugs. This functional antagonism between the two genes was recently substantiated in molecular terms by demonstration of reciprocal down-regulation due to the presence of a p53-dependent transcription silencer in the untranslated region of the bcl2 gene. Growth arrest in the G1 phase of the cell cycle and induction of apoptosis are two distinct and dissectable functions of p53: bcl2 is able to antagonize the induction of apoptosis by p53, but not the growth arrest in G1. However, coexpression of bcl2 and of the oncogene c-myc efficiently antagonizes effects of p53 on G1 arrest and apoptosis, thus suggesting a cooperation between the two oncogenes. In addition, c-myc disrupts other functions of genetic control in the early G1 phase of the cell cycle including the expression of D1 cyclin. We believe that knowledge of the functional/molecular interactions between these three genes involved in human cancer is a fundamental prerequisite to improve the knowledge on prognosis and to design innovative therapeutic approaches.
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PMID:Role of three cancer "master genes" p53, bcl2 and c-myc on the apoptotic process. 869 93

Among the many target genes of the transcription factor NF-kappaB are p53 and c-myc, both of which are involved in apoptosis. This prompted us to investigate the role of NF-kappaB in this process. We report that NF-kappaB is potently activated upon serum starvation, a condition leading to apoptosis in 293 cells. Similar to Bcl-2, a transdominant-negative mutant of the NF-kappaB p65 subunit partially inhibited apoptosis, indicating a direct involvement of the transcription factor in induction of cell death. As expected, the p65 mutant suppresses kappaB-dependent gene expression. Surprisingly, transiently or stably overexpressed Bcl-2 had the same effect. The transcription inhibitory activity of the two proteins correlated with their cell death protective potential. Like Bcl-2, the related protein Bcl-xL but not Bcl-xS was able to suppress kB-dependent transcription. Bcl-2 inhibited NF-kappaB activity by an unusual mechanism. It did not prevent the release of IkappaB in the cytoplasm but down-modulated the transactivating potential of nuclear p65. These data show that NF-kappaB can participate in apoptosis. We suggest that at least part of the anti-apoptotic potential of Bcl-2 may be explained from a hitherto undiscovered activity of Bcl-2 in controlling nuclear gene expression.
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PMID:Bcl-2 down-regulates the activity of transcription factor NF-kappaB induced upon apoptosis. 869 9

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