UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increased protein kinase C(alpha) (PKC(alpha)) expression in glioblastoma cells is associated with proliferation and resistance to drug-induced apoptosis by an undefined anti-apoptotic pathway. To clarify the role of PKC in apoptosis, we have investigated the effect of the selective PKC inhibitor Ro 31-8220 (3-[1-[3-(amidinothio)propyl]-3-indolyl]-4-(1-methyl-3-indolyl)-1H -pyrrole-2,5-dione methanesulfonate) in two glioblastoma cell lines whose proliferation is dependent on high levels of PKC(alpha). U-87 and A172 cells treated with an IC50 of Ro 31-8220 exhibited nucleosomal DNA fragmentation that coincided with an increase in the number of apoptotic cells. This effect was preceded by the rapid nuclear accumulation of wild-type p53 within 2 hr, and an increased level of the pro-apoptotic protein, insulin-like growth factor-1-binding protein-3, (IGFBP3) but not other p53-regulated proteins such as p21WAF1 or Bax. Accumulation of p53 was also associated with the hypophosphorylated and activated form of the retinoblastoma tumor suppressor protein (RB) at later times after treatment. These results suggest that PKC(alpha) suppresses apoptosis in glioblastoma cells primarily by restricting the accumulation of p53 and the expression of insulin-like growth factor-1-binding protein, as well as by maintaining RB in an inactive hyperphosphorylated state.
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PMID:Induction of apoptosis in glioblastoma cells by inhibition of protein kinase C and its association with the rapid accumulation of p53 and induction of the insulin-like growth factor-1-binding protein-3. 963 8

We have evaluated the effects of bryostatin 1 on growth of a highly malignant p53-null mouse mammary tumor line, 4T1, and the mechanism by which bryostatin 1 inhibits in vitro growth and in vivo development of tumor and metastases from the orthotopic site. Bryostatin 1 at 20-400 nM concentrations inhibits growth of 4T1 cells by approximately 60% in two-day cultures. Inhibition of growth is associated with an increase in the number of cells undergoing apoptosis with concomitant elevation in the steady state levels of bax protein and drop in bcl-2 levels. The cytotoxic effect of bryostatin 1 on 4T1 cells occurs independently of p53, since there was no evidence of p53-mediated transcriptional activity in 4T1 cells following treatment with bryostatin 1.4T1 cells respond in vivo to bryostatin 1 therapy (75 microg/kg body weight). Intraperitoneal administration of bryostatin 1 inhibits both primary and secondary tumor growth by approximately 50%. However, although bryostatin 1 has a remarkable capacity to slow tumor growth and progression, it is unable to completely eradicate tumor growth and progression due to in vivo development of tumor resistance to bryostatin 1. Levels and cellular distribution of PKCalpha and delta do not correlate with the growth inhibitory effects of bryostatin 1 on 4T1 cells; however, reduction in cytosolic PKCalpha and delta without associated increase in membrane compartment appear to correlate with bryostatin-resistance. Our results suggest that the therapeutic effects of bryostatin 1 in our system do not involve alterations in levels and distribution of PKC but rather a direct upregulation of bax/ bcl-2 ratios that is independent of p53.
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PMID:p53 and protein kinase C independent induction of growth arrest and apoptosis by bryostatin 1 in a highly metastatic mammary epithelial cell line: In vitro versus in vivo activity. 985 25

Protein kinase C (PKC) is a central component in signal transduction and growth control and might be an appropriate target for the chemotherapy of human brain tumors. This study demonstrates that the staurosporine derivative Ro 31-8220, a potent PKC inhibitor, inhibited the growth of 7 human brain tumor cell lines with an IC50 of about 2 microM. Calphostin C, a structurally unrelated PKC inhibitor, inhibited the growth of two of these cell lines with an IC50 of about 100 to 300 nM. Drug withdrawal and clonogenicity assays indicated that the growth inhibition by both of these compounds was irreversible. Morphologic studies, DNA fragmentation studies and flow cytometric assays showed that the treated glioblastoma cells underwent apoptosis. Treatment of glioblastoma cells with Ro 31-8220 lead to a rapid decline in the level of the anti-apoptosis protein bcl-2. At least three of the glioblastoma cell lines carried mutant p53 alleles with missense mutations in the DNA binding domain of p53. Therefore, the induction of apoptosis in these cell lines occurred through a p53-independent mechanism. Furthermore treatment of these glioblastoma cell lines with Ro 31-8220 or calphostin C led to an increase of cells in the G2-M phase of the cell cycle. This correlated with a decrease in CDC2-associated histone H1 kinase activity, as well as a decrease in the level of the CDC2 protein as shown by immunoblotting. When added to subcellular assays Ro 31-8220 markedly inhibited CDC2 histone H1 kinase activity with an IC50 of 100 nM, but calphostin C directly inhibited this kinase activity only at very high concentrations (above 100 microM). Thus these compounds inhibit the growth of glioblastoma cells through novel mechanisms. Ro 31-8220, in particular, might be a useful agent for the treatment of human brain tumors.
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PMID:Growth inhibition induced by Ro 31-8220 and calphostin C in human glioblastoma cell lines is associated with apoptosis and inhibition of CDC2 kinase. 985 77

In this study, we first demonstrated that the widely used oral antifungal drug, ketoconazole (KT), can induce apoptosis in various type of human cancer cells and in a primary culture of rat liver cells. We further investigated the molecular mechanisms of KT-induced apoptosis. It was found that KT induced nuclear accumulation of p53 protein in a dose- and time-dependent manner. The level of p53 protein was elevated approximately three times as much in treated cells 24 h after KT (5 microM) exposure as in cells receiving mock treatment. We found that cells containing wild-type p53 (COLO 205 and Hep G2) were more sensitive to KT exposure. The bax protein was induced and the bcl-2 protein was inhibited by KT in cells containing wild-type p53 (Hep G2, COLO 205) but not in cells without p53 (Hep 3B). The caspase-3 was activated 24 h after KT treatment. The Poly-(ADP ribose) polymerase (PARP) and the lamin A degradation was induced by KT, which promoted nuclear membrane disassembly and eventually caused apoptosis. Our results also indicated that none of the PKC gene family was involved in KT-induced apoptosis.
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PMID:Ketoconazole-induced apoptosis through P53-dependent pathway in human colorectal and hepatocellular carcinoma cell lines. 987 98

Analysis of the expression of a number of known genes in cultured human cells has revealed UVB-induced changes that may be specific for melanocytic cells. The response of c-fos, p53 and HIV-LTR reporter constructs to UVB and UVC was reduced in MM96L melanoma cells compared to HeLa. Cell cycle arrest produced by UVA, gamma radiation, cisplatin or the antimetabolite deoxyinosine differed from that of UVB. Cell cycle analysis after multiple doses of UVB raised the possibility that UVB-induced pRb depletion could result in increased mutation and thus enhanced tumourigenesis of irradiated melanocytes in skin subjected to a defined pattern of UVB exposure. To extend the analysis of gene expression in cultured melanocytic cells to uncharacterised genes, promoter trap cell clones containing unknown genes 'tagged' by a beta-galactosidase reporter construct were generated from MM96L cells. Altered gene expression in clones treated with a panel of DNA-damaging agents was quantitated by measurement of beta-galactosidase activity. Of the clones containing 'tagged' endogenous promoters induced by UVB, 52% were induced only by UVB and not by other DNA-damaging agents (cisplatin, N-methyl-N-nitro-nitrsoguanidine, fotemustine). One third of the clones were also activated by TPA suggesting that general DNA damage responses involving PKC are activated less frequently than unique pathways of gene activation. Overall, 60% of the 50 clones that responded to the panel of agents were induced by only one of the agents, indicating that a high proportion of genes are induced by agent-specific mechanisms. In the long term, promoter trapping may allow the full repertoire of UVB-inducible genes to be characterised.
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PMID:UVB-specific regulation of gene expression in human melanocytic cells: cell cycle effects and implication in the generation of melanoma. 992 Apr 26

The effect of serum starvation on the expression and phosphorylation of PKC-alpha and p53 in Chinese hamster V79 cells was investigated. Serum starvation led to growth arrest, rounding up of cells and the appearance of new PKC-alpha and p53 bands on Western blots. Prolonged incubation (> or = 48 hr) in serum-deprived medium led to cell detachment and death. Moving cells to fresh medium containing 10% serum before, but not after, cell detachment reversed the changes observed in PKC-alpha and p53, and also prevented later cell detachment. Radiolabelling studies showed that the higher-molecular-weight PKC-alpha and p53 bands result from increased phosphorylation, while a lower-molecular-weight PKC-alpha band reflects newly synthesized protein. Immunocomplex kinase assays have shown that the increased phosphorylation of PKC-alpha is associated with its increased activity. To study the relationship between PKC-alpha, p53 and cell death, cells were treated either with TPA, to down-regulate PKC or with staurosporine, to inhibit PKC activity. Staurosporine, a potent PKC inhibitor and inducer of programmed cell death, caused the appearance of new PKC-alpha and p53 bands similar to those induced by serum starvation. If serum starvation was preceded by prolonged (48 hr) TPA treatment to down-regulate PKC-alpha, cell detachment and death did not take place within the same time frame. Intracellular fractionation of cells demonstrated that increased expression of PKC-alpha and the appearance of the associated higher and lower molecular-weight bands occurred in the nucleus. These data highlight the association of PKC-alpha and p53 with cellular events leading to cell death.
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PMID:Effect of serum starvation on expression and phosphorylation of PKC-alpha and p53 in V79 cells: implications for cell death. 993 81

DNA-damaging agents induce phosphorylation of the p53 protein, resulting in its accumulation in the nucleus. To clarify the signal transduction pathway(s) involved in p53 protein accumulation in normal human embryo cells following X-irradiation, the effects of three protein kinase inhibitors were examined. Quercetin, an inhibitor of heat-shock response, dose dependently suppressed the p53 accumulation induced by X-rays at more than 100 microM. No suppression, however, was observed with calphostin-C, a specific inhibitor of protein kinase C, in the range of 0.05 to 0.25 microM. Wortmannin was the most potent inhibitor of p53 accumulation. Its suppressive effect appears within a few minutes of pretreatment with a dose of 25 microM, but posttreatment was less effective. Our findings suggest that PKC is not involved in X-ray-induced p53 accumulation in normal human embryo cells and that a wortmannin-sensitive pathway acts as a sensor of DNA damage.
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PMID:Effects of protein kinase inhibitors on the accumulation kinetics of p53 protein in normal human embryo cells following X-irradiation. 1040 75

The calcium ionophore ionomycin cooperates with the S100B protein to rescue a p53-dependent G(1) checkpoint control in S100B-expressing mouse embryo fibroblasts and rat embryo fibroblasts (REF cells) which express the temperature-sensitive p53Val135 mutant (C. Scotto, J. C. Deloulme, D. Rousseau, E. Chambaz, and J. Baudier, Mol. Cell. Biol. 18:4272-4281, 1998). We investigated in this study the contributions of S100B and calcium-dependent PKC (cPKC) signalling pathways to the activation of wild-type p53. We first confirmed that S100B expression in mouse embryo fibroblasts enhanced specific nuclear accumulation of wild-type p53. We next demonstrated that wild-type p53 nuclear translocation and accumulation is dependent on cPKC activity. Mutation of the five putative cPKC phosphorylation sites on murine p53 into alanine or aspartic residues had no significant effect on p53 nuclear localization, suggesting that the cPKC effect on p53 nuclear translocation is indirect. A concerted regulation by S100B and cPKC of wild-type p53 nuclear translocation and activation was confirmed with REF cells expressing S100B (S100B-REF cells) overexpressing the temperature-sensitive p53Val135 mutant. Stimulation of S100B-REF cells with the PKC activator phorbol ester phorbol myristate acetate (PMA) promoted specific nuclear translocation of the wild-type p53Val135 species in cells positioned in early G(1) phase of the cell cycle. PMA also substituted for ionomycin in the mediating of p53-dependent G(1) arrest at the nonpermissive temperature (37.5 degrees C). PMA-dependent growth arrest was linked to the cell apoptosis response to UV irradiation. In contrast, growth arrest mediated by a temperature shift to 32 degrees C protected S100B-REF cells from apoptosis. Our results suggest a model in which calcium signalling, linked with cPKC activation, cooperates with S100B to promote wild-type p53 nuclear translocation in early G(1) phase and activation of a p53-dependent G(1) checkpoint control.
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PMID:Concerted regulation of wild-type p53 nuclear accumulation and activation by S100B and calcium-dependent protein kinase C. 1049 Jun 52

Telomerase, a specialized RNA-directed DNA polymerase that extends telomeres of eukaryotic chromosomes, is repressed in normal human somatic cells but is activated during development and upon neoplasia. Whereas activation is involved in immortalization of neoplastic cells, repression of telomerase permits consecutive shortening of telomeres in a chromosome replication-dependent fashion. This cell cycle-dependent, unidirectional catabolism of telomeres constitutes a mechanism for cells to record the extent of DNA loss and cell division number; when telomeres become critically short, the cells terminate chromosome replication and enter cellular senescence. Although neither the telomere signaling mechanisms nor the mechanisms whereby telomerase is repressed in normal cells and activated in neoplastic cells have been established, inhibition of telomerase has been shown to compromise the growth of cancer cells in culture; conversely, forced expression of the enzyme in senescent human cells extends their life span to one typical of young cells. Thus, to switch telomerase on and off has potentially important implications in anti-aging and anti-cancer therapy. There is abundant evidence that the regulation of telomerase is multifactorial in mammalian cells, involving telomerase gene expression, post-translational protein-protein interactions, and protein phosphorylation. Several proto-oncogenes and tumor suppressor genes have been implicated in the regulation of telomerase activity, both directly and indirectly; these include c-Myc, Bcl-2, p21(WAF1), Rb, p53, PKC, Akt/PKB, and protein phosphatase 2A. These findings are evidence for the complexity of telomerase control mechanisms and constitute a point of departure for piecing together an integrated picture of telomerase structure, function, and regulation in aging and tumor development-Liu, J.-P. Studies of the molecular mechanisms in the regulation of telomerase activity.
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PMID:Studies of the molecular mechanisms in the regulation of telomerase activity. 1059 57

Although clonogenic or divisional death is the main mechanism by which DNA-damaging agents demonstrate antitumor activity, recent data indicate that strategies specifically designed to trigger apoptosis may also prove to be useful antitumor agents. Protein kinase C (PKC) isoenzymes are involved in the regulation of cell proliferation, differentiation, and survival. Whereas pharmacological inhibition of PKC activity triggers apoptosis in most mammalian cells, cell line and tissue differences in sensitivities to these inhibitors remain. Whereas PKC inhibitors have potential as antitumor agents, issue of kinase specificity and solubility have remained obstacles to their clinical use. In this report, we investigated the antitumor activity of the PKC inhibitor chelerythrine chloride (chelerythrine), a selective inhibitor of group A and B PKC isoforms. Chelerythrine exhibited cytotoxic activity against nine human tumor cell lines tested in vitro. On the basis of the finding that radioresistant and chemoresistant squamous cell carcinoma lines (HNSCC) undergo apoptosis rapidly after treatment with chelerythrine in vitro, we assessed the effects of this agent on p53-deficient SQ-20B HNSCC cells in vivo. The results demonstrate that chelerythrine treatment of nude mice bearing SQ-20B is associated with significant tumor growth delay. Significantly, treatment with chelerythrine resulted in minimal toxicity. These findings demonstrate a potential for chelerythrine as an antitumor drug against squamous cell carcinoma.
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PMID:In vitro and in vivo activity of protein kinase C inhibitor chelerythrine chloride induces tumor cell toxicity and growth delay in vivo. 1069 May 61

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