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)

The murine IL-3-dependent myeloid cell line 32D undergoes a rapid death when deprived of interleukin-3 (IL-3), a process that is suppressed or delayed by the constitutive expression of Bcl-2 or the Bcl-2-related Bcl-xL survival protein. The adenovirus type 5 E1B region encodes an E1B 55K protein, that has been reported to bind and inactivate the p53 protein that plays an important role in the induction of apoptosis. In order to explore the potential effect of the E1B 55K protein on IL-3 deprival-induced cell death, we have established 32D cell lines overexpressing the adenovirus E1B 55K protein and compared its ability to modulate the cell death with that of the human Bcl-2 protein. We observed that E1B 55K, as Bcl-2, delays the cell death caused by either IL-3-deprivation or DNA damage induced by gamma-irradiation. Cell-cycle analysis after IL-3 deprivation indicated that surviving Bcl-2 transfectants accumulate predominantly in the G0/G1 phase of the cell cycle, while E1B 55K transfectants survive in both G0/G1 and the S and G2/M phases of the cell cycle. zVAD-fmk, a broad caspase inhibitor, prevented chromatin condensation and fragmentation, but not cell death, suggesting that IL-3 deprivation induces a cell death program in which the caspases are dispensable. In contrast, both E1B 55K and Bcl-2 allowed cell survival and prevented the typical features of programmed cell death, such as phosphatidyl-serine exposure, loss of mitochondrial membrane potential, and chromatin condensation and fragmentation. Our findings indicate that the adenovirus 5 E1B 55K protein has the capability to act as a survival factor, and suggest that E1B 55K exerts its effect upstream of the activation of effector caspases, by preventing the loss of mitochondrial membrane potential induced by IL-3 deprivation.
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PMID:A suppressive effect of the adenovirus 5 protein E1B 55K on apoptosis induced by IL-3 deprivation and gamma-irradiation. 1214 44

Bcl-2/adenovirus E1B 19 kDa interacting protein 2-like, BNIP-2-like (BNIPL) is a recently cloned and characterized apoptosis-associated protein that shares 72% homology with BNIP-2. It is highly expressed in human placenta and lung. A yeast two-hybrid system was used to obtain two BNIPL-interacting proteins, MIF (macrophage migration inhibitory factor) and GFER (growth factor erv1 (Saccharomyces cerevisiae)-like). The interactions were confirmed by glutathione S-transferase pull-down assay in vitro and co-immunoprecipitation assay in vivo. Colony formation assay and cell proliferation test suggest that overexpression of BNIPL could inhibit the growth of BEL-7402 cells. These findings suggest that BNIPL may physically bind to cell proliferation-related proteins, MIF and GFER.
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PMID:The apoptosis-associated protein BNIPL interacts with two cell proliferation-related proteins, MIF and GFER. 1268 88

BNip (formerly known as Nip) proteins, including homologues isolated from human, mouse and Caenorhabditis. elegans, are a relatively new subgroup of the Bcl-2 family. These proteins are classified into this family based on limited sequence homology with the Bcl-2 homology domain 3 and carboxyl terminal transmembrane domain. BNip proteins were first discovered based on their interaction with the adenovirus E1B 19 kDa/Bcl-2 family protein and since then, their roles in cell death pathways have been actively studied. However, the precise mechanisms by which the BNip proteins induce apoptosis and/or necrosis remain to be determined. To advance our knowledge, we have provided a summary and review of current literature regarding BNip proteins including comparative sequence analysis, mutational mapping of the functional domains, and cell death mechanisms involving disruption of mitochondrial homeostasis. Since BNip proteins are expressed at high levels in the heart as compared to other organs, their roles in cardiomyocyte injury during hypoxia or viral infection is a focus of this review. Finally, we discuss potential directions for further study on this increasingly important group of pro-apoptotic proteins.
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PMID:BNips: a group of pro-apoptotic proteins in the Bcl-2 family. 1276 83

Hypoxic regions within solid tumors are often resistant to chemotherapy and radiation. BNIP3 (Bcl-2/E1B 19 kDa interacting protein) is a proapoptotic member of the Bcl-2 family that is expressed in hypoxic regions of tumors. During hypoxia, BNIP3 expression is increased in many cell types and upon forced overexpression BNIP3 induces cell death. Herein, we have demonstrated that blockage of hypoxia-induced BNIP3 expression using antisense oligonucleotides against BNIP3 or blockage of BNIP3 function through expression of a mutant form of BNIP3 inhibits hypoxia-induced cell death in human embryonic kidney 293 cells. We have also determined that hypoxia-mediated BNIP3 expression is regulated by the transcription factor, hypoxia-inducible factor-1alpha (HIF-1alpha) in human epithelial cell lines. Furthermore, HIF-1alpha directly binds to a consensus HIF-1alpha-responsive element (HRE) in the human BNIP3 promoter that upon mutation of this HRE site eliminates the hypoxic responsiveness of the promoter. Since BNIP3 is expressed in hypoxic regions of tumors but fails to induce cell death, we determined whether growth factors block BNIP3-induced cell death. Treatment of the breast cancer cell line MCF-7 cells with epidermal growth factor (EGF) or insulin-like growth factor effectively protected these cells from BNIP3-induced cell death. Furthermore, inhibiting EGF receptor signaling using antibodies against ErbB2 (Herceptin) resulted in increased hypoxia-induced cell death in MCF-7 cells. Taken together, BNIP3 plays a role in hypoxia-induced cell death in human epithelial cells that could be circumvented by growth factor signaling.
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PMID:BNIP3 plays a role in hypoxic cell death in human epithelial cells that is inhibited by growth factors EGF and IGF. 1287 18

Bik was initially identified as a BH3-domain-only protein that interacts with E1B 19K. Although systemically administered wild-type Bik significantly inhibited tumor growth and metastasis in an orthotopic nude mouse model, the proapoptotic potency of Bik can be modulated by posttranslational phosphorylation. Here, we found that Bik mutants, in which threonine 33 and/or serine 35 were changed to aspartic acid to mimic the phosphorylation at these two residues, enhanced their binding affinity with the antiapoptotic proteins Bcl-X(L) and Bcl-2 and were more potent than wild-type Bik in inducing apoptosis and inhibiting cell proliferation in various human cancer cells. Bik mutants also suppressed tumorigenicity and tumor-taking rate in a mouse ex vivo model. Moreover, Bik mutant-liposome complexes inhibited tumor growth and prolonged life span more effectively than the wild-type Bik-liposome complex in an in vivo orthotopic animal model. Thus, our results demonstrate that Bik mutant genes, more potent than wild-type Bik, induce cell death and suggest that their inhibition on the growth of various cancers should be explored further.
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PMID:Enhancement of Bik antitumor effect by Bik mutants. 1463 80

Cortical dysplasia (CD) is a well-recognized cause of intractable epilepsy, especially in children and is characterized histologically by derangements in cortical development and organization. The objective of this study was to expand the current knowledge of altered gene expression in CD as a first step towards in the identification of additional genes operative in the evolution of CD. Surgical specimens were obtained from eight patients (4 males and 4 females; age range 2-38 years; mean 15 years) with a pathologic diagnosis of CD. Nondysplastic temporal neocortex was obtained from a 2-year-old boy with intractable epilepsy and medial temporal lobe ganglioglioma. After total RNA isolation from frozen brain tissues, we carried out gene expression profiling using a cDNA expression array. Differences in gene expressions between CD and the nondysplastic neocortex were confirmed by semi-quantitative conventional reverse transcription-PCR. Three genes (recombination activating gene 1 (RAG1), heat shock 60 kDa protein 1 (HSP-60), and transforming growth factor beta1 (TGF beta1)) were found to be up-regulated more than two-fold in CD, whereas four genes (phosphoinositide-3-kinase regulatory subunit polypeptide 1 [p85 alpha] (PI3K), frizzled homolog 2 [Drosophila], Bcl-2/adenovirus E1B 19 kDa interacting protein (NIP3), and glia maturation factor beta (GMF beta)) were down-regulated to less than 50% of their normal levels. Interestingly, the majority of genes showing altered expression were associated with apoptosis. Our study demonstrates diverse changes in gene expression in CD. However, it remains to be shown which of these are causally related to the evolution of CD.
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PMID:Gene expression profile analyses of cortical dysplasia by cDNA arrays. 1464 2

In this study, we describe novel functions of the anti-apoptotic Bcl-2 family proteins. Bcl-x(L) and E1B-19K were found to inhibit p53-induced irreversible growth arrest and senescence, but not to inhibit transient growth arrest, implying that Bcl-x(L) and E1B-19K are specifically involved in senescence without participating in growth arrest. We provide several lines of evidences showing that the functions of Bcl-x(L) and E1B-19K to prevent generation of reactive oxygen species (ROS) are important to inhibit senescence induction. First, we found that that ROS are increased during p53-induced senescence. Moreover, Bcl-x(L) and E1B-19K inhibit this p53-induced ROS generation. Second, antioxidants prevent the induction of senescence and ROS by p53, but not the persistence of the senescence phenotype. Third, the anti-senescence functions of Bcl-x(L) and E1B-19K were suppressed by adding exogenous ROS. These results suggest that Bcl-x(L) and E1B-19K inhibit senescence induction by preventing ROS generation. Furthermore, p38 kinase was found to be activated during p53-induced senescence, but not in cells expressing Bcl-x(L) or E1B-19K, or in cells treated with anti-oxidants. Consistently, a chemical inhibitor of p38 kinase, SB203580, was found to inhibit p53-induced senescence, but only when treated before the cellular commitment to senescence, implying that p38 kinase is necessary for senescence induction. Therefore, Bcl-x(L) and E1B-19K inhibit p53-induced senescence by preventing ROS generation, which in turn leads to the activation of p38 kinase. These results also suggest that the oncogenic potential of Bcl-2 is due to its ability to inhibit senescence as well as apoptosis.
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PMID:Bcl-xL and E1B-19K proteins inhibit p53-induced irreversible growth arrest and senescence by preventing reactive oxygen species-dependent p38 activation. 1476 94

Oncolytic adenoviruses hold promise as a new treatment platform for cancer, but limitations have been identified, including limited spread and potency. The adenoviral protein E1B-19 kDa is a Bcl-2 homologue that blocks apoptosis induction via the intrinsic and extrinsic pathways, specifically including tumor necrosis factor-mediated cell death. We demonstrate that an E1B-19 kDa gene deletion mutant had tumor necrosis factor-enhanced cancer selectivity, in vitro and in vivo, due to genetic blocks in apoptosis pathways in cancer cells. In addition, this mutant demonstrated significantly enhanced viral spread and antitumoral potency relative to dl1520 (aka Onyx-015) and wild-type adenovirus in vitro. Significant antitumoral efficacy was demonstrated in vivo by intratumoral and intravenous routes of administration. E1B-19 kDa deletion should be considered as a feature of oncolytic adenoviruses to enhance their safety, spread, and efficacy.
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PMID:An E1B-19 kDa gene deletion mutant adenovirus demonstrates tumor necrosis factor-enhanced cancer selectivity and enhanced oncolytic potency. 1519 46

Hypoxic conditions exist within pancreatic adenocarcinoma, yet pancreatic cancer cells survive and replicate within this environment. To understand the mechanisms involved in pancreatic cancer adaptation to hypoxia, we analyzed expression of a regulator of hypoxia-induced cell death, Bcl-2/adenovirus E1B 19 kDa interacting protein 3 (BNIP3). We found that BNIP3 was down-regulated in nine of nine pancreatic adenocarcinomas compared with normal pancreas despite the up-regulation of other hypoxia-inducible genes, including glucose transporter-1 and insulin-like growth factor-binding protein 3. Also, BNIP3 expression was undetectable even after hypoxia treatment in six of seven pancreatic cancer cell lines. The BNIP3 promoter, which was remarkably activated by hypoxia, is located within a CpG island. The methylation status of CpG dinucleotides within the BNIP3 promoter was analyzed after bisulfite treatment by sequencing and methylation-specific PCR. Hypermethylation of the BNIP3 promoter was observed in all BNIP3-negative pancreatic cancer cell lines and eight of 10 pancreatic adenocarcinoma samples. Treatment of BNIP3-negative pancreatic cancer cell lines with a DNA methylation inhibitor, 5-aza-2' deoxycytidine, restored hypoxia-induced BNIP3 expression. BNIP3 expression was also restored by introduction of a construct consisting of a full-length BNIP3 cDNA regulated by a cloned BNIP3 promoter. Restoration of BNIP3 expression rendered the pancreatic cancer cells notably more sensitive to hypoxia-induced cell death. In conclusion, down-regulation of BNIP3 by CpG methylation likely contributes to resistance to hypoxia-induced cell death in pancreatic cancer.
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PMID:Silencing of the hypoxia-inducible cell death protein BNIP3 in pancreatic cancer. 1528 40

Nitric oxide (NO) is involved in many physiological processes and also causes pathological effects by inducing apoptosis. It can enhance or suppress apoptosis depending on its concentration and the cell type involved. In this report, we used cDNA microarray analysis to show that SNAP, an NO donor, strongly induces Bcl-2/adenovirus E1B 19kDa-interacting protein 3 (BNIP3) in macrophages. BNIP3 is a mitochondrial pro-apoptotic protein that contains a Bcl-2 homology 3 domain and a COOH-terminal transmembrane (TM) domain. Macrophages activated by LPS/IFN-gamma produce nitric oxide synthase 2 (NOS2) and release endogenous NO. Expression of BNIP3 was also induced in macrophages by LPS/IFN-gamma, and the induction was blocked by a NOS2 inhibitor, S-methyl-isothiourea. Peritoneal macrophages from NOS2-null mice failed to produce BNIP3 in response to LPS/IFN-gamma. We conclude that BNIP3 expression in macrophages is controlled by the intracellular level of nitric oxide. Overexpression of BNIP3 but not of BNIP3 deltaTM, a BNIP3 mutant without the TM domain and C-terminal tail, led to apoptosis of the cells. Promoter analysis showed that the region between -281 and -1 of the 5'-upstream enhancer region of murine BNIP3 was sufficient for NO-dependent expression of BNIP3.
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PMID:Nitric oxide induces BNIP3 expression that causes cell death in macrophages. 1535 75

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