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)

Mouse malignant T-lymphoma CS-21 cells can grow when cocultured with CA-12 lymph node stromal cells, but they undergo apoptotic cell death with DNA fragmentation when separated from CA-12 stromal cells. In the course of examining the effects of the soluble factor(s) secreted by CA-12 stromal cells on CS-21 cell growth, we found that cysteine produced from CA-12 stromal cells promoted CS-21 cell growth and suppressed apoptosis in the isolated culture of CS-21 cells. The expression of anti-apoptotic protein Bcl-2, however, was not induced by cysteine. These results indicate that cysteine produced from CA-12 stromal cells participates not only in the cell growth but also in the inhibition of CS-21 apoptosis without inducing the expression of Bcl-2 protein.
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PMID:Cysteine produced from lymph node stromal cells suppresses apoptosis of mouse malignant T-lymphoma cells. 765 45

Bcl-2 has been shown to inhibit apoptosis induced by several anticancer agents and to cause a dissociation between etoposide (VP-16)-induced protein-cross-linked DNA strand breaks and VP-16-induced cell death. We suggested previously that VP-16-induced cytotoxicity is mediated by a series of events leading from cleavable complex formation to aberrant DNA recombination, as measured by sister chromatid exchange (SCE) and Southern blot analysis of the hypoxanthine phosphoribosyl transferase (hprt) gene mutations. To further evaluate this hypothesis and to determine whether Bcl-2 could affect any steps leading to the aberrant DNA recombination process, we stably transfected an expression vector containing human Bcl-2 cDNA into V79 Chinese hamster cells. This transfection resulted in overexpression of the Bcl-2 gene product. We subsequently quantitated the relationship between VP-16-induced cytotoxicity, DNA strand breaks, SCE, and mutant frequency at the hprt locus in these Bcl-2-overexpressing cells. Two independent Bcl-2-overexpressing cell lines, BCL2/2 and BCL2/4, showed 3-5 times higher survival at 15 microM VP-16 compared with parental V79 cells or control NeoR cells that were obtained by transfecting V79 cells with the expression vector containing the G-418 resistance gene only. DNA single-strand breaks induced by VP-16 were similar in parental V79, control NeoR, BCL2/2, and BCL2/4 cells. In contrast, VP-16 induced significantly less SCE in Bcl-2-overexpressing cell lines compared with parental V79 and control NeoR cells. The SCE/chromosome induced by 15 microM VP-16 were 0.65, 0.42, 0.09, and 0.10, respectively, in V79, NeoR, BCL2/2, and BCL2/4. In addition, there was an excellent correlation between VP-16-induced SCE and cytotoxicity in all cell lines. Furthermore, VP-16-induced mutant frequencies at the hprt locus were 5-10 times less in BCL-2/2 and BCL-2/4 cells than those observed in the V79 or NeoR control cells. These results indicate that overexpression of Bcl-2 is associated with reduction in VP-16-induced genetic recombination, mutation, and cytotoxicity. Moreover, they suggest that Bcl-2 modulates cytotoxicity of VP-16 between cleavable complex formation and subsequent induction of DNA recombination events. Thus, our results provide important support for the hypothesis that VP-16-induced cytotoxicity is associated with aberrant recombination events, including gene deletions and rearrangements.
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PMID:Inhibition of etoposide (VP-16)-induced DNA recombination and mutant frequency by Bcl-2 protein overexpression. 766 76

Mad is a bHLH/Zip protein that, as a heterodimer with Max, can repress Myc-induced transcriptional transactivation. Expression of Mad is induced upon terminal differentiation of several cell types, where it has been postulated to down-regulate Myc-induced genes that drive cell proliferation. Here we show that Mad also blocks transformation of primary rat embryo fibroblasts by c-Myc and the activated c-Ha-Ras oncoproteins. Mad mutants lacking either the basic region, the leucine zipper, or an intact NH2-terminal protein interaction domain fail to inhibit Myc-Ras cotransformation. These results indicate that the repression of cotransformation requires DNA-binding and is mediated by multiple protein-protein interactions involving both Max and mSin3, a putative mammalian corepressor protein. With increasing amounts of the cotransfected myc gene, the numbers of transformed foci are reduced and the ability of Mad to inhibit focus formation is attenuated. Moreover, cell lines derived from such foci constitutively express both Myc and Mad proteins. Whereas Bcl-2 can significantly increase the numbers of transformed foci by enhancing the survival of myc-ras-transfected cells, it does not counteract the repressive effects of Mad on transformation, suggesting that Mad affects the growth properties rather than the viability of cells. Taken together, our results demonstrate that Mad is capable of antagonizing the biological effects of Myc and thereby suggest that Mad could function as a tumor suppressor gene.
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PMID:Repression of Myc-Ras cotransformation by Mad is mediated by multiple protein-protein interactions. 766 17

Systemic administration of kainate induces cell death in vulnerable regions of the rodent brain. Neuronal degeneration is associated with internucleosomal DNA fragmentation and induction of presumptive cell death effector genes (e.g. p53, c-fos) suggesting that kainate activates an apoptotic pathway. In the present study, kainate-induced DNA damage has been demonstrated at the cellular level by in situ nick translation in the mouse hippocampus and neocortex at 24 h and 48 h after intraperitoneal injections. In the same regions, the intensity of Bcl-2 immunoreactivity decreased by about 45% as measured by digital image analysis. Most important, kainate treatment evoked a nearly 3-fold increase in bax mRNA levels within the mouse brain. The down-regulation of bcl-2, which promotes cell survival, and the up-regulation of bax, which promotes programmed cell death, may have functional significance in kainate-mediated excitotoxicity and in the selective vulnerability of specific brain regions.
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PMID:Up-regulation of bax and down-regulation of bcl-2 is associated with kainate-induced apoptosis in mouse brain. 767 27

We have established three lymphoma cell lines, HF-1 from one follicular lymphoma (FL) patient, and HF-4 and HF-9 from another. All cell lines carry the characteristic t(14;18) chromosomal translocation and express constitutively the bcl-2 gene product (Bcl-2 protein). Cross-linking of their surface membrane Igs (sIgs) with relevant antibodies triggers a vigorous calcium signal in all three lines but only HF-1 is induced to apoptosis. Treatment with anti-Ig arrests the proliferation of HF-1 within 6-12 h, nucleosomal DNA fragmentation is evident in 18 h and a morphologically complete apoptosis is seen in 24-48 h. While bcl-2 was expressed at equal levels in all lines, the apoptosis-sensitive HF-1 line displayed a much lower expression of c-myc than seen in the apoptosis-resistant line. This finding challenges the concept that expression of bcl-2 per se renders resistance to apoptosis but that the balance between the expression of bcl-2 and c-myc may dictate the outcome of sIg cross-linking. HF-1 is a unique, phenotypically mature human B cell line expressing surface IgG. This cell line offers a new tool for investigations on apoptosis and induction of tolerance in mature B lymphocytes. Our results suggest that some FLs may be amenable to anti-cancer treatment based on anti-sIg antibody induced apoptosis.
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PMID:Cross-linking of surface IgG induces apoptosis in a bcl-2 expressing human follicular lymphoma line of mature B cell phenotype. 769 2

Incubation of ex vivo cultured mature B cells in the presence of nitric oxide or nitric oxide-donor substances delays programmed cell death as determined by the appearance of DNA laddering in agarose gel electrophoresis or by flow-cytometry analysis of DNA. Nitric oxide also rescues B cells from antigen-induced apoptosis but fails to provide a co-stimulatory signal that converts the signal elicited by the antigen into a proliferative response. The protective effects of nitric oxide against programmed cell death can be reproduced by treatment of the cells with permeant analogues of cyclic GMP. Regarding the mechanisms by which nitric oxide prevents apoptosis in B cells, we have observed that nitric oxide release prevents the drop in the expression of the protooncogene bcl-2, both at the mRNA and protein levels, suggesting the existence of an unknown pathway that links nitric oxide signaling with Bcl-2 expression.
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PMID:Splenic B lymphocyte programmed cell death is prevented by nitric oxide release through mechanisms involving sustained Bcl-2 levels. 770 95

A number of DNA viruses carry apoptosis-inhibiting genes which enable the virus to escape from the host response. The adenovirus E1B 19K protein can inhibit apoptosis induced by E1A, tumour-necrosis factor-alpha, FAS antigen and nerve growth factor deprivation. The molecular basis of this inhibition remains poorly understood, but the fact that protection is seen in the absence of other viral proteins suggests that E1B 19K targets cellular proteins. We report here the identification of three cellular proteins that bind E1B 19K. One of these is a new member of the bcl-2 family, which we have called bak (for bcl-2 homologous antagonist/killer). This protein, which is expressed in a wide variety of cell types, binds to E1B 19K and to the Bcl-2 homologue Bcl-XL (ref. 17) in yeast. In addition, overexpression of bak in sympathetic neurons deprived of nerve growth factor accelerates apoptosis and blocks the protective effect of co-injected E1B 19K.
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PMID:Cloning of a bcl-2 homologue by interaction with adenovirus E1B 19K. 771 29

Cells are eliminated in a variety of physiological settings by apoptosis, a genetically encoded process of cellular suicide. Apoptosis comprises an intrinsic cellular defence against tumorigenesis, which, when suppressed, may contribute to the development of malignancies. The bcl-2 oncogene, which is activated in follicular lymphomas, functions as a potent suppressor of apoptosis under diverse conditions. Here we describe the complementary DNA cloning and functional analysis of a new Bcl-2 homologue, Bak, which promotes cell death and counteracts the protection from apoptosis provided by Bcl-2. Moreover, enforced expression of Bak induces rapid and extensive apoptosis of serum-deprived fibroblasts. This raises the possibility that Bak is directly involved in activating the cell death machinery.
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PMID:Induction of apoptosis by the Bcl-2 homologue Bak. 771 30

Members of the Bcl-2 family of proteins are characterized by their ability to modulate cell death. Bcl-2 and some of its homologues inhibit apoptosis, whereas other family members, such as Bax, will accelerate apoptosis under certain conditions. Here we describe the identification and characterization of a complementary DNA that encodes a previously unknown Bcl-2 homologue designated Bak. Like Bax, the bak gene product primarily enhances apoptotic cell death following an appropriate stimulus. Unlike Bax, however, Bak can inhibit cell death in an Epstein-Barr-virus-transformed cell line. The widespread tissue distribution of Bak messenger RNA, including those containing long-lived, terminally differentiated cell types, suggests that cell-death-inducing activity is broadly distributed, and that tissue-specific modulation of apoptosis is controlled primarily by regulation of molecules that inhibit apoptosis.
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PMID:Modulation of apoptosis by the widely distributed Bcl-2 homologue Bak. 771 31

The proto-oncogene bcl-2, isolated from the t(14;18) chromosomal breakpoint in follicular B-lymphoma, and a bcl-2-related gene bcl-x (ref. 4) prevent apoptotic cell death induced by various treatments. Although a mechanism has been proposed that involves Bcl-2 activity on reactive oxygen species (ROS), expression of Bcl-2 or Bcl-xL prevents cell death induced by withdrawal of oxygen (hypoxia), which drastically decreases the net formation of oxygen free radicals and does not increase oxidized lipid, protein or DNA. Furthermore, neither ROS scavenger nor inhibitor of ROS scavenger affects cell death, regardless of the expression of Bcl-2 or Bcl-xL. Thus our data suggest that Bcl-2 and Bcl-xL exert an anti-cell death function by a mechanism other than regulation of ROS activity.
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PMID:Prevention of hypoxia-induced cell death by Bcl-2 and Bcl-xL. 772 26

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