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)

Evidence from live cell bioassays shows that the flat mucosa from patients with colon cancer exhibits resistance to bile salt-induced apoptosis. Three independent cell lines derived from the colonic epithelial cell line HCT-116 were selected for resistance to bile salt-induced apoptosis. These cell lines were developed as tissue culture models of apoptosis resistance. Selection was carried out for resistance to apoptosis induced by sodium deoxycholate (NaDOC), the bile salt found in highest concentrations in human fecal water. Cultures of HCT-116 cells were serially passaged in the presence of increasing concentrations of NaDOC. The resulting apoptosis resistant cells were able to grow at concentrations of NaDOC (0.5 mM) that cause apoptosis in a few hours in unselected HCT-116 cells. These cells were then analyzed for changes in gene expression. Observations from cDNA microarray, 2-D gel electrophoresis/MALDI-mass spectroscopy, and confocal microscopy of immunofluorescently stained preparations indicated underexpression or overexpression of numerous genes at either the protein or mRNA level. Genes that may play a role in apoptosis and early stage carcinogenesis have been identified as upregulated in these cell lines, including Grp78, Bcl-2, NF-kappaB(p50), NF-kappaB(p65), thioredoxin peroxidase (peroxiredoxin) 2, peroxiredoxin 4, maspin, guanylate cyclase activating protein-1, PKCzeta, EGFR, Ras family members, PKA, PI(4,5)K, TRAF2 and BIRC1 (IAP protein). Under-expressed mRNAs included BNIP3, caspase-6, caspase-3 and serine protease 11. NF-kappaB was constitutively activated in all three resistant cell lines, and was responsible, in part, for the observed apoptosis resistance, determined using antisense oligonucleotide strategies. Molecular and cellular analyses of these resistant cell lines has suggested potential mechanisms by which apoptosis resistance may develop in the colonic epithelium in response to high concentrations of hydrophobic bile acids that are associated with a Western-style diet. These analyses provide the rationale for the development of hypothesis-driven intermediate biomarkers to assess colon cancer risk on an individual basis.
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PMID:Development and molecular characterization of HCT-116 cell lines resistant to the tumor promoter and multiple stress-inducer, deoxycholate. 1250 30

1 Magnolol, an active component isolated from the root and stem bark of Magnolia officinalis, has been reported to exhibit antitumour effects, but little is known about its molecular mechanisms of action. 2 Magnolol inhibited proliferation of human lung squamous carcinoma CH27 cells at low concentrations (10-40 microM), and induced apoptosis at high concentrations (80-100 microM). 3 Treatment with 80 microM magnolol significantly increased the expression of Bad and Bcl-X(S) proteins, whereas it decreased the expression of Bcl-X(L). Overexpression of Bcl-2 protected CH27 cells against magnolol-triggered apoptosis. 4 Magnolol treatment resulted in accumulation of cytosolic cytochrome c and activation of caspase-9 and downstream caspases (caspase-3 and -6). Pretreatment with z-VAD-fmk markedly inhibited magnolol-induced cell death, but did not prevent cytosolic cytochrome c accumulation. 5 Magnolol induced a modest and persistent JNK activation and ERK inactivation in CH27 cells without evident changes in the protein levels. The responsiveness of JNK and ERK to magnolol suggests the involvement of these kinases in the initiation of the apoptosis process. 6 These results indicate that regulation of the Bcl-2 family, accumulation of cytosolic cytochrome c, and activation of caspase-9 and caspase-3 may be the effector mechanisms of magnolol-induced apoptosis.
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PMID:Effector mechanism of magnolol-induced apoptosis in human lung squamous carcinoma CH27 cells. 1252 90

RET gene rearrangements, which generate chimeric RET/PTC oncogenes, are early events in the evolution of thyroid papillary carcinomas. Expression of RET/PTC oncogenes promotes neoplastic transformation of cultured thyroid cells and of thyroid glands in transgenic mice. Notwithstanding these oncogenic effects, we have found that the expression of two RET/PTC oncogenes (H4-RET and RFG-RET) induces apoptosis of rat thyroid PC CL 3 cells. Promotion of thyroid cell death depends on the kinase activity of RET/PTC and on the phosphorylation of a tyrosine residue (tyrosine 1062) that maps in the carboxy-terminus of the RET protein. Tyrosine 1062 is essential for RET/PTC-mediated activation of the Ras/ERK pathway. Inhibition of Ras/ERK by a dominant negative Ras or by the MEKI inhibitor, PD98059, obstructed RET/PTC-mediated apoptosis. We also show that signals transmitted by tyrosine 1062 mediate proapoptotic events like Bcl-2 down regulation and Bax upregulation, and that adoptive overexpression of Bcl-2 overcomes RET/PTC-induced apoptosis. Thus, gene rearrangements that generate RET/PTC oncogenes subvert RET function by converting it into a chronically active kinase that is constitutively phosphorylated on tyrosine 1062. In turn, Y1062 phosphorylation transmits not only mitogenic but also proapoptotic signals to thyroid cells.
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PMID:Ras-mediated apoptosis of PC CL 3 rat thyroid cells induced by RET/PTC oncogenes. 1252 93

We investigated the signal transduction pathway to low-dose radiation-induced apoptosis in vitro in the human peripheral primitive neuroectodermal tumor (pPNET) cell line with wild-type p53 established in our laboratory. Apoptosis was induced by 2Gy irradiation in an almost p53-dependent manner in this model except for a deficiency of the cleavage of caspase-9. It was detected 3 hours after irradiation by fragmentation assay. The expressions of p53, p21WAF-1 and Bax increased, in contrast to the gradually decreasing expression of Bcl-2, as observed by immunoblotting. Following this, cleavages of caspase-3 and PARP reached peak levels. There were no detectable increases in ERK expression and caspase-9 cleavage. In respect of the probability of other pathways to apoptosis, this cell line will provide a useful model both for investigating low-dose radiation-induced signal transduction pathway and for analyzing the biological characteristics of pPNET.
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PMID:Signal transduction pathway to low-dose radiation-induced apoptosis in peripheral PNET cells. 1252 90

MAP kinase pathways comprise a group of parallel protein phosphorylation cascades, which are involved in signaling triggered by a variety of stimuli. Previous findings suggested that the ERK and the JNK pathways have opposing roles in regulating proliferation and survival or apoptosis and that apoptosis can be promoted by inhibiting the ERK pathway or by activation of the JNK pathway. In order to test this hypothesis and explore whether it can be exploited as a strategy for killing human cancer cells, we used gene transfer experiments with a range of cancer cell lines. We expressed the catalytic fragment of human MEKK1 to activate JNK and the Ras-binding domain (RBD) of Raf-1 to inhibit the Ras-ERK pathway. In addition, we designed several RBD-MEKK1 fusion proteins aiming to simultaneously activate the JNK and block the ERK pathway. We found that the MEKK1 proteins as well as the RBD alone could reduce colony formation in all cell lines. The survival time of MEKK1-expressing cells depended on the cell line. In HeLa cells, survival could be prolonged by inhibition of caspases but not by coexpression of the anti-apoptotic protein Bcl-2. Due to a lower kinase activity the RBD-MEKK1 fusion proteins were less effective in apoptosis induction than the MEKK1 kinase domain alone. Using mutant forms of Ras and Raf-1 we could show that the reduced kinase activity of RBD-MEKK1 fusion proteins was caused by binding to the Ras protein. The expression of lethal doses of MEKK1 resulted in a strong activation of all three major MAP kinase families JNK, ERK, and p38. Blocking these pathways either by coexpressing a dominant negative form of MKK4 or with inhibitors of MEK or p38 failed to inhibit apoptosis. This suggests that MEKK1 induces apoptosis by causing a general deregulation of MAP kinase signaling rather than by the activation of a single pathway.
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PMID:The kinase domain of MEKK1 induces apoptosis by dysregulation of MAP kinase pathways. 1256 21

BAG-1 was originally identified as a binding partner of anti-apoptotic factor Bcl-2 [Takayama et al., Cell 80 (1995) 279-284]. Exogenous expression of BAG-1 was reported to confer cells resistance to several stresses [Chen et al., Oncogene 21 (2002) 7050]. We have obtained human cervical cancer HeLa cells with down-regulated BAG-1 levels by using a highly specific and efficient RNA interference approach. Surprisingly, cells with down-regulated BAG-1 exhibited significantly lower sensitivity against several anti-cancer drugs than parental cells expressing normal levels of the protein. Furthermore, growth rate of the cells was reduced when BAG-1 was down-regulated. Activity of ERK pathway appeared to be decreased in BAG-1 down-regulated cells, as shown by the reduced phosphorylation of ERK1/2 proteins. Taken together resistance against anti-cancer drugs acquired by BAG-1 down-regulated cells may well be accounted for by the retardation of cell cycle progression, implicating the importance of BAG-1 in cell growth regulation.
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PMID:Down-regulation of Bcl-2-interacting protein BAG-1 confers resistance to anti-cancer drugs. 1256 51

The aim of this study was to provide a better insight into breast cancer response to chemotherapy. Chemotherapy improves outcome in breast cancer patients. The effect of cytotoxic treatment cannot be predicted for individual patients. Therefore, the identification of tumour characteristics associated with tumour response and outcome is of great clinical interest. We studied 97 patients, who received anthracycline-based neoadjuvant chemotherapy. Tumour samples were taken prior to and after chemotherapy. We quantified the response to chemotherapy clinically and pathologically and determined histological and molecular tumour characteristics. We assessed changes in the expression of Bcl-2, ER, P53 HER2 and Ki-67. Association with response and outcome was tested for all parameters. The experimental results showed 15 clinical (17%) and three (3%) pathological complete remissions. There were 18 (20%) clinical vs 29 (33%) pathological nonresponders. The expression of most markers was similar before and after chemotherapy. Only Ki-67 was significantly decreased after chemotherapy. Factors correlated with response were: large tumour size, ER negativity, high Ki-67 count and positive P53 status. Tumour response and marker expression did not predict disease-free or overall survival. In conclusion, clinical and pathological response assessments are poorly associated. Proliferation decreases significantly after chemotherapy. ER negativity and a high proliferation index are associated with better response. HER2 status does not predict response, and outcome is not related to tumour response.
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PMID:Breast cancer response to neoadjuvant chemotherapy: predictive markers and relation with outcome. 1256 84

The Ras/Raf/MEK/ERK signal transduction pathway regulates cell cycle progression and apoptosis in diverse types of cells. Mutations in this pathway are often observed in transformed cell lines and frequently linked with human cancers. The Ras/Raf/MEK/ERK pathway can induce events both associated with cell proliferation and cell cycle arrest. The particular course chosen may depend on the strength and the particular Raf gene activated by Ras. This pathway also is involved in maintaining cell survival by modulating the activity of apoptotic molecules including Bad and Bcl-2. This review will discuss the regulation of the Ras/Raf/MEK/ERK pathway and how it modulates cell cycle progression and cell survival.
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PMID:Regulation of cell cycle progression and apoptosis by the Ras/Raf/MEK/ERK pathway (Review). 1257 99

Melanoma cells can undergo self-destruction via programmed cell death, i.e. apoptosis. In these tumours, the molecular components of apoptosis include positive (apoptotic) and negative (anti-apoptotic) regulators. The former include p53, Bid, Noxa, PUMA, Bax, TNF, TRAIL, Fas/FasL, PITSLRE, interferons, and c-KIT/SCF. The latter include Bcl-2, Bcl-X(L), Mcl-1, NF-(K)B, survivin, livin, and ML-IAP. Alternatively, some molecules such as TRAF-2, c-Myc, endothelins, and integrins may have either pro- or anti-apoptotic effects. Some of these molecules are of potential therapeutic use, such as: (1) p53, which influences resistance to chemotherapy; (2) Mcl-1 and Bcl-X(L), which can override apoptosis; (3) TRAIL, which has selective fatal effects on tumour cells; (4) NF-(K)B, which when downregulated sensitizes cells to TRAIL and TNF; (5) the PITSLRE kinases, whose alteration appears to result in Fas resistance; (6) interferons, which sensitize cells to other factors; and (7) survivin and other IAPs that inhibit apoptosis. This review summarizes the state of current knowledge about the key molecular components and mechanisms of apoptosis in melanoma, discusses potential therapeutic ramifications, and provides directions for future research.
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PMID:Apoptosis and melanoma: molecular mechanisms. 1451 53

Neutrophils and monocytes/macrophages are derived from common progenitors, but exhibit markedly different lifespans. Differentiated neutrophils are short-lived and die rapidly by apoptosis, while monocytic cells are longer-lived. In this report we used the HL-60 cell line as a model system to identify differences in apoptotic pathways which might account for the differing lifespans of granulocytic vs monocytic cells. We observed that induction of granulocytic differentiation by retinoic acid led to robust activation of the executioner protease caspase-3, and early onset of apoptosis. By contrast, caspase-3 was not appreciably activated during phorbol 12-myristate 13-acetate (PMA)-induced monocytic differentiation, and apoptosis was delayed in these cells. Since the activation of caspase-3 is inhibited by members of the inhibitor of apoptosis (IAP) and Bcl-2 protein families, we investigated the expression of anti-apoptotic members of these families. Induction of monocytic differentiation led to marked upregulation of the IAP protein XIAP, as well as the Bcl-2 family member Bcl-X(L). During granulocytic differentiation the levels of XIAP progressively declined, while Bcl-X(L) levels remained unchanged. A different IAP protein, survivin, was downregulated during differentiation along either lineage, as was expression of Bcl-2. The upregulation of Bcl-X(L) during monocytic differentiation coincided with phosphorylation/activation of STAT3, a known activator of bcl-X gene transcription. Moreover, Bcl-X(L) upregulation was dependent on MEK/ERK signaling. Upregulation of XIAP proceeded in a MEK/ERK-independent fashion. Treatment with antisense Bcl-X(L) or XIAP oligonucleotides resulted in significant loss of viability in cells differentiating along the monocytic lineage. Together, these findings indicate that the levels of XIAP and Bcl-X(L) are regulated by distinct pathways during monocytic differentiation, and that upregulation of these proteins contributes to the increased longevity of cells in the monocytic lineage.
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PMID:Differential activation of apoptosis regulatory pathways during monocytic vs granulocytic differentiation: a requirement for Bcl-X(L)and XIAP in the prolonged survival of monocytic cells. 1259 39

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