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)

Thebcl-2oncogene plays an important role in carcinogenesis by inhibiting cell death (apoptosis). It was initially discovered in follicular B cell lymphoma with t(14,18), and subsequently found in other malignant and premalignant lesions. Alteration of the normal controls of cell proliferation is also a significant factor in the multistep process of tumorigenesis. The proliferative activity of a given lesion is commonly valuated by MIB1, a monoclonal antibody to Ki67 proliferation antigen. Immuno-histochemical (IHC) staining expression of bcl-2 and Ki67 was retrospectively investigated in a series of 52 colorectal carcinomas and 56 adenomas according to the avidin-biotin-complex method. The aim of the study was twofold: 1) to investigate any correlation between MIB1 and bcl-2 immunostaining expression in colonic adenomas and carcinomas, 2) to identify any relationship between either marker and several histopathologic parameters including tumor size, pathologic stage, lymph node metastasis, angio-lymphatic invasion, tumor grade and differentiation in colon carcinomas. Bcl-2 was consistently higher in adenomas than in carcinomas. There were 44/56 (78.6%) adenomas, and 27/52 (51.9%) carcinomas positive for bcl-2 (p=0.004). The mean Ki67 labeling index (LI) was 30.05+/-7.6 and 38.12+/-11.01 in adenomas and carcinomas, respectively (p=0.0001). Expression of bcl-2 in carcinoma was significantly associated with a lower mean Ki67 LI and with favorable histopathologic parameters. We conclude that bcl-2 oncoprotein expression is probably an early step in the process of colon carcinogenesis, and its expression may be associated with a favorable clinical course. Furthermore, an inverse relationship exists between bcl-2 and Ki67 in colonic neoplasia. Evaluation of bcl-2 and Ki67 IHC expression in colonic carcinoma should be performed prospectively to determine if their expression is of value in predicting the clinical course in these patients.
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PMID:Correlation of bcl-2 oncoprotein immunohistochemical expression with proliferation index and histopathologic parameters in colorectal neoplasia. 1060 21

Mice with transgenic TCR anti H-Y/Db develop spontaneous thymic tumors with a high frequency (up to 50%). Oncogenicity of TCR transgenes could depend on the deregulated expression of oncoproteins engaged in transduction pathways leading to proliferation or apoptosis. In agreement with this possibility we have found that cells of thymic lymphomas from TCR transgenic mice were largely resistant to TCR-dependent Ca++-mediated apoptosis but not to TCR-independent, p53-mediated (etoposide) apoptosis. Here we show raised expression of Bcl-2 protein in some but not in all thymic lymphoma cell lines. It suggests that the antiapoptotic function of Bcl-2 is not necessary for the process of tumorigenesis and the resistance of these lymphomas to Ca++-mediated apoptosis. On the other hand we show that all thymic lymphomas overexpressed Ras/Raf and L-myc proteins. Stimulation of the Ras/Raf pathway was reported to be required to maintain cell viability by preventing programmed cell death in thymic tumors derived from lck transgenic mice. Similarly, in TCR transgenic lymphomas overexpression of Ras, Raf and L-myc but not Bcl-2 family proteins may be responsible for the resistance of these lymphomas to TCR-mediated apoptosis but not affect p53-mediated apoptosis.
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PMID:Overexpression of Ras, Raf and L-myc but not Bcl-2 family proteins is linked with resistance to TCR-mediated apoptosis and tumorigenesis in thymic lymphomas from TCR transgenic mice. 1063 43

Several Epstein-Barr virus (EBV)-negative Burkitt lymphoma-derived cell lines (for example, BL41 and Ramos) are extremely sensitive to genotoxic drugs despite being functionally null for the tumor suppressor p53. They rapidly undergo apoptosis, largely from G(2)/M of the cell cycle. 5-bromo-2'-deoxyuridine labeling experiments showed that although the treated cells can pass through S phase, they are unable to complete cell division, suggesting that a G(2)/M checkpoint is activated. Surprisingly, latent infection of these genotoxin-sensitive cells with EBV protects them from both apoptosis and cell cycle arrest, allowing them to complete the division cycle. However, a comparison with EBV-immortalized B-lymphoblastoid cell lines (which have functional p53) showed that EBV does not block apoptosis per se but rather abrogates the activation of, or signalling from, the checkpoint in G(2)/M. Furthermore, analyses of BL41 and Ramos cells latently infected with P3HR1 mutant virus, which expresses only a subset of the latent viral genes, showed that LMP-1, the main antiapoptotic latent protein encoded by EBV, is not involved in the protection afforded here by viral infection. This conclusion was confirmed by analysis of clones of BL41 stably expressing LMP-1 from a transfected plasmid, which respond like the parental cell line. Although steady-state levels of Bcl-2 and related proteins varied between BL41 lines and clones, they did not change significantly during apoptosis, nor was the level of any of these anti- or proapoptotic proteins predictive of the outcome of treatment. We have demonstrated that a subset of EBV latent gene products can inactivate a cell cycle checkpoint for monitoring the fidelity and timing of cell division and therefore genomic integrity. This is likely to be important in EBV-associated growth transformation of B cells and perhaps tumorigenesis. Furthermore, this study suggests that EBV will be a unique tool for investigating the intimate relationship between cell cycle regulation and apoptosis.
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PMID:Epstein-Barr virus suppresses a G(2)/M checkpoint activated by genotoxins. 1064 20

Cell-cycle checkpoint mechanisms, including the p53- and p21-dependent G(2) arrest that follows DNA damage, are often lost during tumorigenesis. We have exploited the ability of DNA-damaging drugs to elicit this checkpoint, and we show here that such treatment allows microtubule drugs, which cause cell death secondary to mitotic arrest, to kill checkpoint-deficient tumor cells while sparing checkpoint-competent cells. Low doses of the DNA-damaging drug doxorubicin cause predominantly G(2) arrest without killing HCT116 cells that harbor wt p53. Doxorubicin treatment prevented mitotic arrest, Bcl-2 phosphorylation, and cell death caused by paclitaxel, epothilones, and vinblastine. In contrast, doxorubicin enhanced cytotoxicity of FR901228, an agent that does not affect microtubules. Low doses of doxorubicin did not arrest p21-deficient clones of HCT116 cells and did not protect these cells from cytotoxicity caused by microtubule drugs, but cells in which p21 expression was restored enjoyed partial protection under these conditions. Moreover, in p53-deficient clones of HCT116 cells doxorubicin did not induce either p53 or p21 and provided no protection against paclitaxel-induced cytotoxicity. Therefore, (a) p53-dependent p21 induction caused by doxorubicin protects from microtubule drug-induced cytotoxicity, and (b) pretreatment with cytostatic doses of DNA-damaging drugs before treatment with microtubule drugs results in selective cytotoxicity to cancer cells with defective p53/p21-dependent checkpoint.
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PMID:Pretreatment with DNA-damaging agents permits selective killing of checkpoint-deficient cells by microtubule-active drugs. 1068 83

The Epstein-Barr virus (EBV)-encoded latent membrane protein-1 induces NF-kappaB activity by targeting IkappaBalpha. To understand the role of NF-kappaB activation in EBV-related oncogenesis, we have subcloned mutated IkappaBalpha(32/36A) cDNA into a pHEBo vector containing doxycycline regulatory sequences and stably transfected this construct into a lymphoblastoid cell line. Two tightly regulated clones were obtained in which IkappaBalpha(32/36A) was inducible in a doxycycline dose-dependent manner. Levels of inducible IkappaBalpha(32/36A) peaked at day 2. Inhibition of NF-kappaB activity was closely correlated with levels of inducible IkappaBalpha(32/36A). Levels of 3 well-known NF-kappaB-dependent genes, CD54, p105, and endogenous IkappaBalpha, were decreased when IkappaBalpha(32/36A) was induced, and the growth of IkappaBalpha(32/36A)-induced EBV-infected cells was slightly reduced. Loss of NF-kappaB activity was associated with decreased Bcl-2 protein levels. Finally, the induction of apoptosis was strongly increased in IkappaBalpha(32/36A)-overexpressing cells. Together these results show that it is possible to control IkappaBalpha(32/36A) levels, ie, NF-kappaB activity, in EBV-infected B-lymphocytes using a doxycycline-inducible vector. Moreover, our results indicate that NF-kappaB can protect EBV-infected cells from apoptosis by Bcl-2. Finally, our results suggest that a cellular model with doxycycline-inducible IkappaBalpha(32/36A) may be useful in the identification of genuine NF-kappaB target genes in EBV-infected B cells. (Blood. 2000;95:2068-2075)
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PMID:Inducible loss of NF-kappaB activity is associated with apoptosis and Bcl-2 down-regulation in Epstein-Barr virus-transformed B lymphocytes. 1070 76

Understanding the process of carcinogenesis is key to developing therapies which might interrupt or reverse tumor onset and progression. Cell growth and death signals are dependent not only upon molecular mechanisms within a cell but also upon external stimuli such as hormones, cell - cell signaling, and extracellular matrix. Mouse models can be used to dissect these complex processes, to identify key signaling pathways operating at different stages of tumorigenesis, and to test the strength of specific interventions. In the WAP-TAg mouse model, carcinogenesis is initiated by expression of the Simian Virus 40 T antigen (TAg). TAg expression is triggered by hormonal stimulation, either during estrus or pregnancy. Breast adenocarcinomas (ranging from well to poorly differentiated) develop in 100% of the female mice by approximately 8 - 9 months of age. Three distinct stages of tumorigenesis are easily identified: an initial proliferation, hyperplasia, and adenocarcinoma. The mean time to first palpable tumor in mice which undergo at least one pregnancy is 6 months. The tumorigenic process is marked by a competition between proliferation and apoptosis and is characterized by cellular acquisition of genetic mutations and increased stromal fibrosis. Protein levels of cell cycle control genes cyclin D1, cdk2, and E2F-1 are increased in these adenocarcinomas. c-Fos protein levels are slightly increased in these cancers, while c-Jun levels do not change. Hormonal exposure alters progression. Estrogen plays a role during the early stages of oncogenesis although the growth of the resulting adenocarcinomas is estrogen-independent. Transient hormonal stimulation by glucocorticoids that temporarily increases the rate of cell proliferation results in tetraploidy, premature appearance of irreversible hyperplasia, and early tumor development. Tumor appearance also can be accelerated through over expression of the cell survival protein, Bcl-2. Bcl-2 over expression not only reduces apoptosis during the initial proliferative process but also decreases the total rate of cell proliferation. This block in cell proliferation is lost selectively as the cells transition to adenocarcinoma. The WAP-TAg model can be utilized to investigate how the basic processes of cell proliferation, apoptosis, DNA mutation, and DNA repair are modified by external and internal signals during mammary oncogenesis.
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PMID:WAP-TAg transgenic mice and the study of dysregulated cell survival, proliferation, and mutation during breast carcinogenesis. 1071 84

Induction of apoptosis seems to be a key function in maintaining normal cell growth by exerting negative controls on cell proliferation and suppressing tumorigenesis. The adenovirus E1A oncogene shows both cell cycle progression and apoptotic functions. To understand the mechanism of E1A-induced apoptosis, the apoptotic function of E1A 13S was investigated in p53-null cells. We show here that E1A is sufficient by itself to induce substantial apoptosis independent of p53 and other adenoviral genes. The apoptotic function of E1A is accompanied by processing of caspase-3 and cleavage of poly(ADP-ribose)-polymerase. Cell death is significantly blocked by the caspase inhibitor zVAD-fmk and when coexpressed with E1B19K, Bcl-2 or the retinoblastoma protein (RB). Analyses of E1A mutants indicated that the apoptotic activity of E1A correlates closely with the ability to bind the key regulators of E2F1-induced apoptosis, p300 and RB. Finally, in vivo relevance of down-modulation of p53-independent apoptosis for efficient transformation is demonstrated.
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PMID:E1A is sufficient by itself to induce apoptosis independent of p53 and other adenoviral gene products. 1071 32

The transcription factors of the Rel/NF-kappaB family are key regulators of immune and inflammatory responses and contribute to lymphocyte proliferation, survival, and oncogenesis. The absolute correlation between the antiapoptotic and oncogenic activities of the Rel/NF-kappaB oncoprotein v-Rel emphasizes the importance of characterizing the death antagonists under NF-kappaB control. Our recent finding that the prosurvival Bcl-2 homolog Bfl-1 (also called A1) is a direct transcriptional target of NF-kappaB raised the issue of whether NF-kappaB is a specific or global regulator of death antagonists in the Bcl-2 family. Here, we demonstrate that NF-kappaB differentially regulates the expression of particular Bcl-2-related death inhibitors and that it directly activates the expression of Bcl-x(L). While Bcl-x(L) was significantly upregulated by c-Rel and RelA, Bcl-2 was not. Importantly, stimuli that activate endogenous NF-kappaB factors also upregulated bcl-x gene expression and this effect was antagonized by an inhibitor of NF-kappaB activity. The expression of bcl-x suppressed apoptosis in the presence or absence of NF-kappaB activity. Functional analysis of the bcl-x promoter demonstrated that it is directly controlled by c-Rel. These results establish that NF-kappaB directly regulates the expression of distinct prosurvival factors in the Bcl-2 family, such as Bcl-x(L) and Bfl-1/A1. These findings raise the possibility that some of these factors may contribute to oncogenesis associated with aberrant Rel/NF-kappaB activity.
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PMID:The Rel/NF-kappaB family directly activates expression of the apoptosis inhibitor Bcl-x(L). 1073 71

Bcl-2 is a potent suppressor of apoptosis, and its overexpression contributes to tumorigenesis in many types of human cancers. To test the possibility of modulating Bcl-2 function as an anticancer strategy, a cell permeable Bcl-2 binding peptide, cell permeable moiety (cpm)-1285, was designed by chemically attaching a fatty acid to a peptide derived from the proapoptotic protein Bad. cpm-1285 entered HL-60 tumor cells, bound Bcl-2 protein, and induced apoptosis in vitro. In contrast, cpm-1285 had little effect on normal human peripheral blood lymphocytes. Furthermore, cpm-1285 had in vivo activity in slowing human myeloid leukemia growth in severe combined immunodeficient mice. These results demonstrate a novel approach for therapeutic intervention of tumor growth in vivo with small molecule inhibitors of Bcl-2.
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PMID:Cell permeable Bcl-2 binding peptides: a chemical approach to apoptosis induction in tumor cells. 1074 11

The term apoptosis, also known as programmed cell death (PCD), was coined by developmental biologists a number of years ago to describe a form of cell death characterized by several unique morphological and biochemical features. Genetic studies of the round worm Caeneorhabditis elegans, a simple multicellular organism, first revealed apoptosis to be an integral part of the developmental program. Subsequently, the importance of apoptosis in higher organisms was demonstrated in several eukaryotic systems. [n mammals, apoptosis is widespread during embryogenesis and in adult tissues. It is required for normal tissue homeostasis and for clonal selection in the immune system. In both developing and adult organisms, apoptosis plays a central role in reinforcing appropriate cellular patterns and in regulating cell number by eliminating cells that are harmful or no longer needed. It is becoming increasingly clear that disruption in the apoptosis pathway can contribute to the development of a number of developmental, inflammatory, degenerative, and neoplastic diseases. The effector arm of the apoptotic program includes members of the Bcl-2 gene family that function as either death agonists or death antagonists. These proteins participate in an elaborate genetically controlled biochemical pathway that functions to maintain tissue and organ homeostasis and serve as a critical defense mechanism to guard against malignant transformation. Cancer is the result of a series of genetic lesions that include activation of oncogenes and inactivation or loss of tumor suppressor genes. Several groups of investigators have observed that deregulated expression of oncogenes can subvert apoptotic pathways, resulting in prolonged cell survival. In pathological settings such as cancer, members of the Bcl-2 gene family are able to synergize with oncogenes and tumor suppressor genes to transform cells. In this review, we describe the process of apoptosis in mammalian cells and define the role and biochemical pathways through which the Bcl-2 gene family induce and/or protect cells from apoptosis. Last, we will discuss the evidence which suggests that alterations in this pathway may play a central role in tumorigenesis by allowing genetically damaged cells normally destined for elimination to persist, predisposing them to additional mutations and driving them to malignancy.
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PMID:Apoptosis and predisposition to oral cancer. 1075 18

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