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)

BCR-ABL is a chimeric oncogene generated by translocation of sequences from the c-abl protein-tyrosine kinase gene on chromosome 9 into the BCR gene on chromosome 22. Alternative chimeric proteins, p210BCR-ABL and p190BCR-ABL, are produced that are characteristic of chronic myelogenous leukemia and acute lymphoblastic leukemia, respectively. Their role in the etiology of human leukemia remains to be defined. Transformed murine hematopoietic cells can be used as a model of BCR-ABL function since these cells can be made growth factor independent and tumorigenic by the action of the BCR-ABL oncogene. We show that the BCR-ABL oncogenes prevent apoptotic death in these cells by inducing a Bcl-2 expression pathway. Furthermore, BCR-ABL-expressing cells revert to factor dependence and nontumorigenicity after Bcl-2 expression is suppressed. These results help to explain the ability of BCR-ABL oncogenes to synergize with c-myc in cell transformation.
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PMID:Tumorigenic activity of the BCR-ABL oncogenes is mediated by BCL2. 777 99

BCR-ABL is a chimaeric oncogene generated by translocation of sequences from the c-ABL protein-tyrosine kinase gene on chromosome 9 into the BCR gene on chromosome 22. Alternative chimeric proteins, p210(BCR-ABL) and p190(BCR-ABL), are produced that are characteristic of chronic myelogenous leukemia and acute lymphoblastic leukemia, respectively. Their role in the aetiology of human leukemia remains to be defined. We have previously shown that the tumorigenic effect of BCR-ABL oncogenes is mediated by Bcl-2. In addition to Bcl-2, is a protein essential for transformation by BCR-ABL. However, it is not known how Bcl-2 and Ras fit together in cell transformation by BCR-ABL. The data presented here establish that Bcl-2 is a downstream target gene of the Ras signalling pathway in cells transformed by BCR-ABL, and that constitutive Ras activation results in constitutive expression of the gene. Conversely, a truncated form of the BCR-ABL, which lacks a critical BCR region required for activation of the Ras signalling pathway, failed to induce Bcl-2 expression. These results indicate that BCR-ABL prevents apoptosis by inducing Bcl-2 through a signalling pathway involving Ras and links constitutive Ras activation and Bcl-2 gene regulation. Hence, these results further imply that Ras is involved in both mitogenic signals and survival signals.
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PMID:Regulation of Bcl-2 gene expression by BCR-ABL is mediated by Ras. 909 20

The hallmark of chronic myeloid leukemia (CML) is the chimeric tyrosine kinase oncogene bcr-abl. Since expression of bcr-abl mRNA frequently increases with disease progression and a duplication of the Philadelphia chromosome (harbouring the bcr-abl hybrid locus) represents the most frequent karyotypic abnormality in acute phase CML, we hypothesized that the level of BCR-ABL protein may affect the disease phenotype. Therefore, the biological effects of high and low levels of BCR-ABL expression were compared in growth factor-dependent and -independent myeloid and lymphoid cell lines. Our results demonstrated that low levels of BCR - ABL were sufficient to render these cell lines growth factor independent and tumorigenic, but higher levels were mandatory for additional protection against apoptotic stimuli. The provision of growth factor or an activated ras oncogene did not afford the same degree of protection as high levels of BCR-ABL and there were qualitative differences between the survival signals mediated by BCR-ABL and Bcl-2. These results have enabled us to establish a dose-dependent hierarchy of BCR-ABL induced biological effects, thus distinguishing the activation of pathways mediating protection from cytokine withdrawal from those protecting against other apoptotic stimuli.
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PMID:BCR-ABL activates pathways mediating cytokine independence and protection against apoptosis in murine hematopoietic cells in a dose-dependent manner. 946 59

The oncogenic BCR/ABL protein protects hematopoietic cells from apoptosis induced by growth factor deprivation, but the mechanisms are only partially understood. A BCR/ABL mutant lacking amino acids 176-426 in the BCR domain (p185DeltaBCR) failed to protect interleukin 3-deprived 32Dcl3 myeloid precursor cells from apoptosis, although it possessed tyrosine kinase activity and was capable of activating the Ras-Raf-MAP kinase pathway. Compared to p185 wild-type transfectants, p185DeltaBCR-transfected cells showed markedly reduced levels of Bcl-2 and expressed the hypophosphorylated, proapoptotic form of BAD. Bcl-2 expression in the mitochondrial fraction of p185DeltaBCR cells was also markedly diminished and mitochondrial RAF was undetectable. In p185DeltaBCR cells transfected with a mitochondria-targeted, constitutively active RAF (M-Raf) BAD was expressed in the hyperphosphorylated form and released from the mitochondria into the cytosol. p185DeltaBCR/M-Raf-transfected cells were completely resistant to apoptosis induced by growth factor deprivation in vitro. Moreover, constitutive expression of dominant-negative M-Raf (K375W) enhanced the susceptibility of 32Dcl3 cells expressing wild-type BCR/ABL to apoptosis. In severe combined immunodeficiency (SCID) mice, p185DeltaBCR/M-Raf double transfectants were leukemogenic, whereas cells expressing only p185DeltaBCR showed no leukemogenic potential. Together, these data support the existence of a BCR/ABL-dependent pathway that leads to expression of an active RAF in the mitochondria and promotes antiapoptotic and leukemia-inducing effects of BCR/ABL.
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PMID:Expression of constitutively active Raf-1 in the mitochondria restores antiapoptotic and leukemogenic potential of a transformation-deficient BCR/ABL mutant. 962 59

Tumor formation is caused by an imbalance between cell replication and apoptosis, which is a physiological form of cell death. For instance, UV damage can result in tumor formation due to mutations of the tumor-suppressor gene p53, a major apoptosis-inducing protein. Over-expression of the proto-oncogene Bcl-2, due to chromosomal translocation, can also inhibit apoptosis resulting in, e.g., lymphomas and leukemias. Anti-tumor therapies are often based on induction of apoptosis mediated via p53 and/or inhibited by Bcl-2, which explains the frequently poor results of anti-tumor treatment. The avian-virus-derived protein 'Apoptin', induces apoptosis in a p53-independent way, is stimulated by Bcl-2 and is insensitive to BCR-ABL, another inhibitor of chemotherapeutic agents. Apoptin induces apoptosis in human transformed/tumorigenic cells but not in normal diploid cells. Co-synthesis of SV40 large T antigen and Apoptin results in induction of apoptosis, illustrating that the establishment of a stable transformed state is not required. UV-irradiation causes an aberrant SOS-response in primary diploid cells from cancer-prone individuals and renders such cells susceptible to Apoptin-induced apoptosis. All these features make Apoptin a potential candidate as a therapeutic and diagnostic tool in cancer treatment.
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PMID:Apoptin specifically causes apoptosis in tumor cells and after UV-treatment in untransformed cells from cancer-prone individuals: a review. 968 3

Group I Burkitt lymphoma (BL) cell lines (L3055, Elijah, Louckes, BL2, and BL29) retaining the original biopsy phenotype were found to undergo prolonged phenotypic, functional, and molecular change on short-term exposure to soluble recombinant CD40L trimer. Sensitivity to, extent of, and duration of change appeared to reflect passage number in that the earliest passaged lines, L3055 and BL29, were generally the most susceptible. Culture of group I BL lines with CD40L resulted in significant growth arrest (without apoptosis) that, for L3055 cells, was sustained for 7 to 9 days after 72 hours of exposure. This was accompanied by the formation of large homotypic aggregates together with gross changes in individual cell morphology and a concomitant upregulation of CD54 (ICAM-1). Three of the five group I BL lines exhibited rapid downregulation of the hallmark CD77 surface antigen, which, for L3055 cells, was maintained for at least 12 days after 72 hours of incubation with CD40L. With the exception of BL2, all group I BL lines were induced to express CD40 homodimers on CD40-stimulation, whereas only monomers were detected in unstimulated cells. Experiments using CD40-transfected Rat-1 fibroblasts showed that the ability to signal for dimer formation required Thr234 of CD40. For L3055 and BL29 cells, an initial 72 hours of exposure to CD40L resulted in the maintenance of homodimers for up to 14 and 10 days, respectively. There was a close correlation between the induction and duration of CD40 homodimers and the appearance of Bcl-2. For L3055 cells, which are sensitive to apoptosis-induction on BCR-engagement, exposure to CD40L for 72 hours was found to provide considerable protection from anti-IgM, which was still significant to 20 days. The implications of such sustained effects on relatively short-term exposure of tumor B cells to CD40L are discussed.
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PMID:Prolonged phenotypic, functional, and molecular change in group I Burkitt lymphoma cells on short-term exposure to CD40 ligand. 976 68

Apoptin, a protein encoded by an avian virus, induces apoptosis in various cultured human tumorigenic and/or transformed cell lines, e.g. in leukemia, lymphoma or EBV-transformed B cells. In such cells, Apoptin induces p53-independent apoptosis, and the proto-oncogene Bcl-2 accelerates this effect. The latter is surprising for, in general, Bcl-2 is known to inhibit e.g., p53-induced apoptosis. On the other hand, in normal non-transformed human cells, Apoptin is unable to induce apoptosis, even when Bcl-2 is over-expressed. In normal cells, Apoptin is found predominantly in the cytoplasm, whereas in tumor cells it is located in the nucleus. Cellular-localization studies showed that Apoptin is not located in mitochondria, indicating once more that Bcl-2 does not interfere with Apoptin in normal cells. In animal models Apoptin appears to be a safe and efficient anti-tumor agent. These data, in continuation with the observations that Apoptin is specifically stimulated by Bcl-2 in tumor cells, does not need p53, and is not inhibited by BCR-ABL in these cells, imply that Apoptin holds the promise of being the basis for anti-tumor therapy.
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PMID:BCL-2 stimulates Apoptin-induced apoptosis. 1050 Jul 99

Tumor cells are often characterized by the traithey are more resistant to apoptosis induced by e.g. cytotoxic agents than normal cells. Resistance to apoptosis induction can be a direct consequence of mutations in certain tumor-suppressor genes (p53) or of certain proto-oncogenes (Bcl-2). Therefore, new cancer therapies are under development to bypass the resistance to chemo- and radio-therapy of tumors. Apoptin acts independently of p53, is stimulated by Bcl-2 and is insensitive to BCR-ABL, which means that Apoptin can induce apoptosis in cases where present (chemo)-therapeutic agents, unfortunately, will fail. The fact that Apoptin induces apoptosis in human tumorigenic cells but not in normal diploid cells, implies that side-effects of Apoptin treatment are expected to be minor. In-vivo results with a first prototype of anti-tumor therapy based on expression of Apoptin indicate that Apoptin has low acute toxicity and is effective as an anti-tumor agent.
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PMID:Apoptin. 1081 Jun 23

Growth factor-dependent hematopoietic cell lines expressing the BCR/ABL oncoprotein of the Ph chromosome show growth factor-independent proliferation and resistance to apoptosis. Apoptosis resistance of BCR/ABL-expressing cells may depend on enhanced expression of anti-apoptotic proteins as well as reduced expression and/or inactivation of pro-apoptotic proteins. Compared to myeloid precursor 32Dcl3 cells expressing wild type BCR/ABL, cells expressing a BCR/ABL mutant lacking amino acids 176-426 in the BCR domain (p185 delta BCR) are susceptible to apoptosis induced by interleukin-3 (IL-3) deprivation. These cells exhibited the hypophosphorylated apoptotic BAD and markedly reduced levels of Bcl-2. Upon ectopic expression of Bcl-2, these cells showed no changes in BAD phosphorylation, but they became apoptosis-resistant and proliferated in the absence of IL-3, albeit more slowly than cells expressing wild type BCR/ABL. Moreover, the p185 delta BCR/Bcl-2 double transfectants were leukemogenic when injected into immunodeficient mice, but Bcl-2 expression did not restore the leukemia-inducing effects of p185 delta BCR to the levels of wild type BCR/ABL. Leukemic cells recovered from the spleen of mice injected with p185 delta BCR/Bcl-2 cells did not show rearrangements in the Bcl-2 genomic locus, but they exhibited enhanced proliferation in culture and induced a rapidly fatal disease process when inoculated in secondary recipient mice. Together, these data support the importance of anti-apoptotic pathways for BCR/ABL-dependent leukemogenesis and suggest that Bcl-2 expression promotes secondary changes leading to a more aggressive tumor phenotype. (Blood. 2000;96:3915-3921)
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PMID:Bcl-2 expression restores the leukemogenic potential of a BCR/ABL mutant defective in transformation. 1109 78

In the classic 'two-signal' model for B cell activation, signal 1 through the antigen receptor plus signal 2 through lymphokine receptors and CD40 leads to proliferation, but signal 1 alone leads to tolerance or anergy. In a protocol designed to deliver signal 1 in vitro with anti-delta without signal 2, purified small dense B cells from untreated mice exposed to any of three monoclonal anti-delta antibodies or to polyclonal anti-delta in vitro showed modest S phase entry at 50 microg/ml. In contrast, at low doses (0.1-0.5 microg/ml) of anti-delta, there was no cell cycle entry at 64 h, but apoptosis was accelerated at 16 h. Polyclonal anti-mu and three monoclonal anti-mus did not show this early apoptosis induction. Anti-CD40 and IL-4 inhibited apoptosis in B cells treated with 0.5 microg/ml anti-delta and increased S phase entry at 10 microg/ml anti-delta. Low-dose anti-delta (but not anti-mu) induced increased B7-2 and class II MHC expression on a subset of B cells, many of which were in apoptosis. Larger transient increases in c-Myc and Egr-1 expression were seen with low-dose anti-delta than with anti-mu, followed by an abrupt fall below baseline, a sequence previously linked to apoptosis. There was no change in Bcl-2, Bcl-x(L) or Bax. These data suggest a functional difference between delta and mu cross-linking on resting spleen B cells. A BCR stimulus sufficient for early activation events, but insufficient for full G1 entry, may lead to apoptosis.
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PMID:Difference in apoptosis induction between surface IgD and IgM. 1122 97

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