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 Epstein-Barr virus (EBV) genome contains an open reading frame, BHRF1, that encodes a presumptive membrane protein with sequence similarity to the proto-oncogene bcl2, which is linked to human B-cell follicular lymphoma. Potential roles for BHRF1 in EBV's ability to growth transform human B cells and to replicate in B cells in culture were investigated by generating EBV mutants that lack most of the open reading frame. This was accomplished by recombination of plasmids carrying mutations in BHRF1 with the transformation-defective EBV strain P3HR1. Because BHRF1 resides close to the deletion in P3HR1 that renders this strain transformation defective, B-cell transformation could be used to select for recombination events in the region. B-cell clones were established by recombinants which lacked most of the BHRF1 open reading frame, although most of these initial B-cell transformants also carried nonrecombinant (BHRF1+) P3HR1 genomes, at levels ranging from a fraction of a copy to four copies per cell. Secondary B-cell transformants that lacked BHRF1+ EBV at detectable levels were found to release transforming, BHRF1-deficient EBV at levels that were within the normal range for EBV-immortalized B-cell clones. These studies demonstrate that BHRF1 is nonessential for growth transformation of B cells and for virus replication and release from these cells in culture.
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PMID:BHRF1 of Epstein-Barr virus, which is homologous to human proto-oncogene bcl2, is not essential for transformation of B cells or for virus replication in vitro. 131 10

The last decade has seen major advances in the acquisition of knowledge concerning both the cellular and molecular genetics of multiple myeloma. Although discrete and specific changes associated with the plasma cell disorders have yet to be identified, a pattern is emerging that one can associate with the plasma cell disorders. This pattern includes the frequent involvement of chromosomes 1 and 14, and in particular presence of the 14q+ abnormality. But in addition there are typically many other numeric and/or structural changes that can, in fact, involve almost any chromosome, but particularly chromosomes 3, 5, 6, and 7, as well as 11, 14, 17, and 18. The presence of one or more unidentified marker chromosomes is also a typical feature. The ongoing challenges include identification of a crucial initial genetic change (if such exists) as well as the factors contributing to the ongoing karyotypic evaluation that results in complex karyotypes in patients with advanced disease. There is no doubt that the complex karyotypic picture contributes to the major heterogeneity of plasma cells that occurs in malignant plasma cell disorders. Karyotypic complexity underlies heterogeneity in cell morphology, surface antigen expression, response to cytokines, and a variety of other functional characteristics. The aberrant expression of antigens normally found on other hematopoietic progenitors has led to speculation about the true nature of the stem cell in myeloma. The overriding challenge, however, is to fully understand the plasma cell disorders at the molecular level. Although changes have already been noted in the functions of C-myc, the ras family of oncogenes, Bcl-2 expression, and several so called anti-oncogenes such as p53, it is likely that we have only begun to scratch the surface in the area of molecular changes. The potential for involvement at multiple molecular sites and the possibility of complex interactions between gene segments is truly overwhelming. However, it is hoped that at the molecular level a pattern will ultimately emerge. It is most interesting, as previously discussed, that there is an interplay among C-myc, N-ras, Bcl-2, and the Epstein-Barr virus in the predilection for a plasma cell phenotype. Undoubtedly there is much more to learn, and it is truly exciting to finally have some tools and probes at hand to more effectively study the genome in multiple myeloma and related disorders.
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PMID:Cellular and molecular genetic features of myeloma and related disorders. 158 85

Correlations between cytogenetics, histology, and clinical course continue to emerge in studies of non-Hodgkin's lymphomas. The previously recognized association between the t(14;18) chromosomal translocation and follicular lymphoma has been confirmed; abnormalities of chromosome 3 have correlated specifically with diffuse large cell lymphoma and abnormalities of chromosome 1 have been frequently present in T-cell lymphomas. Rearrangements involving 11q13 (bcl-1) occur most commonly in diffuse lymphocytic lymphoma of intermediate differentiation. Several new recurrent chromosomal abnormalities have also been described. The molecular fine structure of the t(8-14) chromosomal translocation in Burkitt's lymphoma appears to differ between endemic (Epstein-Barr virus-associated) and sporadic cases. In endemic Burkitt's lymphomas, the chromosomal breakpoint is usually far upstream of c-myc oncogene, leaving the regulatory region of the gene intact. In sporadic tumors, a large part of the regulatory region is separated from the gene and transcription is initiated at sites within the first intron. These data raise the possibility that Epstein-Barr virus may contribute to the deregulation of the c-myc gene and that this interaction may be required for tumorigenesis in the presence of some, but not all, types of c-myc damage arising from chromosomal translocations. Partner proteins that oligomerize with c-Myc have been identified in humans and mice (Max and Myn). The partners share with c-Myc the DNA-binding and coiled-coil motifs that are recognized in many other proteins and that function as transcriptional regulators. The Bcl-2 protein has been shown to be a mitochondrial inner membrane protein that blocks programmed cell death (apoptosis). Viral expression has been demonstrated in Epstein-Barr virus-associated Hodgkin's disease, and the spectrum of Epstein-Barr virus-associated lymphoproliferative disease has been expanded to include some T-cell malignancies. A new human herpesvirus has been associated with some cases of Hodgkin's disease.
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PMID:Biology of the lymphomas: cytogenetics, molecular biology, and virology. 166 Nov 67

The survival-promoting activity of the Bcl-2 family of proteins appears to be modulated by interactions between various cellular proteins. We have identified a novel cellular protein, Bik, that interacts with the cellular survival-promoting proteins, Bcl-2 and Bcl-xL, as well as the viral survival-promoting proteins, Epstein Barr virus-BHRF1 and adenovirus E1B-19 kDa. In transient transfection assays, Bik promotes cell death in a manner similar to the death-promoting members of the Bcl-2 family, Bax and Bak. This death-promoting activity of Bik can be suppressed by coexpression of Bcl-2, Bcl-XL, EBV-BHRF1 and E1B-19 kDa proteins suggesting that Bik may be a common target for both cellular and viral anti-apoptotic proteins. While Bik does not show overt homology to the BH1 and BH2 conserved domains characteristic of the Bcl-2 family, it does share a 9 amino acid domain (BH3) with Bax and Bak which may be a critical determinant for the death-promoting activity of these proteins.
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PMID:Bik, a novel death-inducing protein shares a distinct sequence motif with Bcl-2 family proteins and interacts with viral and cellular survival-promoting proteins. 747 23

An ability of the Epstein-Barr virus latent membrane protein LMP1 to enhance the survival of infected B cells through upregulation of the bcl-2 oncogene was first suggested by experiments involving gene transfection and the selection of stable LMP1+ clones (S. Henderson, M. Rowe, C. Gregory, F. Wang, E. Kieff, and A. Rickinson, Cell 65:1107-1115, 1991). However, it was not possible to ascertain whether Bcl-2 upregulation was a specific consequence of LMP1 expression or an artifact of the selection procedure whereby rare Bcl-2+ cells already present in the starting population might best be able to tolerate the potentially toxic effects of LMP1. We therefore reexamined this issue by using two different experimental approaches that allowed LMP1-induced effects to be monitored immediately following expression of the viral protein and in the absence of selective pressures; activation of the NF-kappa B transcription factor and upregulation of the cell adhesion molecule ICAM-1 were used as early indices of LMP1 function. In the first approach, stable clones of two B-cell lines carrying an LMP1 gene under the control of an inducible metallothionein promoter were induced to express LMP1 in all cells. Activation of NK-kappa B and upregulation of ICAM-1 occurred within 24 h and were followed at 48 to 72 h by upregulation of Bcl-2. In the second approach, we tested the generality of this phenomenon by transiently expressing LMP1 from a strong constitutively active promoter in a range of different cell types. All six B-cell lines tested showed NF-kappa B activation in response to LMP1 expression, and this was followed in five of six lines by expression of ICAM-1 and Bcl-2. In the same experiments, all three non-B-cell lines showed NF-kappa B activation and ICAM-1 upregulation but never any effect upon Bcl-2. We therefore conclude that Bcl-2 upregulation is part of the panoply of cellular changes induced by LMP1 but that the effect is cell type specific. Our data also suggest that whilst NF-kappa B may be an essential component of LMP1 signal transduction, other cell-specific factors may be required to effect some functions of the viral protein.
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PMID:Upregulation of bcl-2 by the Epstein-Barr virus latent membrane protein LMP1: a B-cell-specific response that is delayed relative to NF-kappa B activation and to induction of cell surface markers. 752 93

Group I and Epstein-Barr virus-negative Burkitt's lymphoma cell lines and the B104 lymphoma cell line which expresses a phenotype of immature B cells undergo apoptosis after cross-linking of their surface Ig receptors or after exposure to a calcium ionophore. We show here that tumor necrosis factor (TNF)-alpha protects these B cell lines against Ca(2+)-dependent apoptosis. Protection was associated with up-regulation of bcl-2 mRNA and protein expression. The increase of Bcl-2 expression induced by TNF-alpha was inhibited by chelerythrine, a specific inhibitor of protein kinase C (PKC), suggesting that Bcl-2 expression was dependent on PKC activation. Furthermore, we show that phorbol esters and cyclosporin A (CsA), which prevent Ca(2+)-dependent apoptosis, up-regulated Bcl-2 expression. The effect of CsA on Bcl-2 expression is controlled by calcineurin since we have shown that FK506 but not rapamycin had the same effect on Bcl-2 expression, whereas okadaic acid, an inhibitor of phosphatases 1, 2A and 2C, was ineffective. These data provide direct evidence that TNF-alpha prevents Ca(2+)-dependent apoptosis by a Bcl-2-dependent mechanism mediated by PKC.
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PMID:Tumor necrosis factor-alpha up-regulates Bcl-2 expression and decreases calcium-dependent apoptosis in human B cell lines. 754 79

Undifferentiated nasopharyngeal carcinomas (UNPC) are characterized by an association with Epstein-Barr virus and an abundant lymphoid stroma. The role of this lymphoid stroma is uncertain but is mostly thought to represent an immune response against viral or tumor antigens. We have analyzed the expression of immune regulatory receptor/ligand pairs in snap-frozen biopsies of 20 UNPCs. All cases were Epstein-Barr virus positive and the virus-encoded latent membrane protein, LMP1, was expressed in 6 cases. By immunohistochemistry, we have demonstrated the expression of CD70 and CD40 in the tumor cells of 16 and 18 cases, respectively. Infiltrating lymphoid cells expressing CD27, the CD70 receptor, and the CD40 ligand were present in all cases. The Bcl-2 protein was detected in 17 cases. Unexpectedly, tumor cells of 5 cases expressed at least one member of the B7 family (CD80, CD86, and B7-3) and many lymphoid cells expressing the corresponding counter-receptor, CD28, were detected in all cases. Interestingly, 5 of 6 LMP1-positive cases also expressed B7, whereas all 14 LMP1-negative cases were also B7 negative. Our results indicate that T cells and carcinoma cells communicate in the microenvironment of UNPCs and suggest that the presence of a lymphoid stroma may be a requirement for UNPC growth at least in certain stages of tumor development.
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PMID:Expression of immune regulatory molecules in Epstein-Barr virus-associated nasopharyngeal carcinomas with prominent lymphoid stroma. Evidence for a functional interaction between epithelial tumor cells and infiltrating lymphoid cells. 757 60

The presence of Epstein-Barr virus (EBV) correlates with some cases of Hodgkin's disease (HD), and its latent membrane protein (LMP) has oncogenic potential by inducing expression of bcl-2 protein. Bcl-2 confers a longer half-life to the cell, which overexpresses it. As the translocation t(14,18), which is most often found in follicular lymphomas, and leads to overexpression of bcl-2, has also been reported in HD, it is possible that there is a correlation between these events in this entity. We stained immunohistochemically 40 cases of HD for the presence of bcl-2 and EBV-LMP. Bcl-2 positivity within reactive lymphocytes was revealed in 29 cases. In five of these cases a week, positive reaction in cytoplasm of Reed-Sternberg cells was observed (one mixed cellularity and four nodular sclerosis cases). The EBV-LMP immunopositivity was observed in 16 of these 29 cases (ten MC and six NS cases). The simultaneous presence of bcl-2 protein and EBV-LMP was found in two cases, the remaining three bcl-2-positive cases did not have EBV-LMP. These results do not support the hypothesis of the correlation between the expression of bcl-2 protein and the presence of EBV-LMP in the pathogenesis of HD as the LMP-dependent stimulation of bcl-2 oncogene.
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PMID:Expression of bcl-2 protein and Epstein-Barr virus latent membrane protein in Hodgkin's disease. 769 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 bcl-2 gene was originally cloned because of its involvement in B-cell lymphomas and encodes a 25-kD integral membrane protein that has been shown to inhibit programmed cell death (also termed apoptosis) in a wide variety of circumstances. The Epstein-Barr Virus (EBV) also has been implicated in B-cell malignancies and interestingly contains an open reading frame (BHRF-1) predicting a 19-kD protein with 22% homology to Bcl-2. To compare the functions of p26-Bcl-2 and p19-BHRF-1, we stably introduced expression plasmids encoding these proteins into a murine interleukin-3 (IL-3)-dependent hemopoietic cell line, 32D. Removal of IL-3 from cultures of control-transfected 32D cells resulted in internucleosomal DNA cleavage (a hallmark of programmed cell death) and loss of cell survival. In contrast, 32D cells containing high levels of p26-Bcl-2 or p19-BHRF-2 proteins exhibited prolonged survival and markedly delayed DNA degradation under the same conditions of IL-3 deprivation. As a first attempt to determine the functional importance of amino acid sequences that are conserved between the Bcl-2 and BHRF-1 proteins, we used site-specific mutagenesis to replace two conserved cysteine residues with alanines (positions 158 and 219) in the human Bcl-2 protein. Comparisons of the wild-type and cysteine-minus human Bcl-2 proteins in S49 lymphoma cells revealed equivalent ability to block glucocorticoid-induced cell death and DNA fragmentation, indicating that these two conserved cysteines are not critical for Bcl-2 oncoprotein function. Investigations in 32D cells of an avian homolog of Bcl-2 cloned from the chicken also revealed conservation of function with the human Bcl-2 protein, despite the presence of a 48-amino-acid region of divergent sequence. Taken together, these data demonstrate that despite marked differences in their predicted amino-acid sequences, the human, chicken, and EBV versions of Bcl-2 have retained the structural characteristics necessary to interface with pathways involved in the regulation of programmed cell death in murine cells. The findings thus contribute to the mapping of functional domains in Bcl-2 proteins, and raise the possibility that the EBV-encoded p19-BHRF-1 protein may be able to substitute for p26-Bcl-2 in the development of some types of cancer.
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PMID:Evolutionary conservation of function among mammalian, avian, and viral homologs of the Bcl-2 oncoprotein. 777 49

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