Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Apoptosis of HepG2 cells triggered by various agents is characterized in an attempt to delineate the common apoptosis signaling pathway in human hepatoma cells. Several hallmarks of apoptosis, including DNA laddering, chromatin condensation and fragmentation, and an apoptosis specific cleavage of 28S and 18S ribosomal RNA were observed after treatment with curcumin. Curcumin treatment however did not alter the expression levels of Bcl-2 and Bax proteins. p53 protein accumulated slowly and decreased abruptly after reaching the maximum. Conversely, c-Myc protein decreased initially and subsequently increased preceding the onset of apoptosis. The accumulation of p53 protein is not due to increased levels of p53 mRNA and does not result in growth arrest. Staurosporine, quinacrine, ultraviolet irradiation, hydrogen peroxide, and cyclohexamide are all capable of triggering apoptosis in HepG2 cells. While most of these agents affect the expression levels of p53 and c-Myc similarly, none of them altered the expression levels of the Bcl-2 and Bax proteins. In conclusion, these data suggest that p53 and c-Myc may play a more important role in the apoptosis signaling pathway in HepG2 cells, than the bcl-2 gene family.
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PMID:Differential regulation of p53, c-Myc, Bcl-2 and Bax protein expression during apoptosis induced by widely divergent stimuli in human hepatoblastoma cells. 876 Mar 2

PC12 cells have previously been shown to cease cell division during nerve growth-factor (NGF)-induced differentiation by affecting specific cell cycle proteins. Staurosporine, a protein kinase inhibitor, also causes PC12 cell differentiation, independently of neurotrophins or plasma membrane receptors. We have investigated the relationship of the tumor suppressor protein, p53, and other cell cycle proteins to the antiproliferative effects of NGF and staurosporine in PC12 cells. NGF treatment of PC12 cells stimulated an increase of p53 protein in the nucleus and, more slowly, an increase in total cellular p53 protein. Levels of the cyclin-kinase inhibitor p21/WAF1, cyclin D1, and cyclin G, all downstream transcriptional targets of p53, increased after short times of NGF treatment. Cessation of replication and differentiation occurred more rapidly in defined medium (2 days) than in serum medium (6 days), in correspondence with the more rapid changes in both p53 and p21/WAF1 levels in defined medium (1 hour) than in serum (1 day). Levels of p34cdc2 and p33cdk2 kinase dropped after 6 to 10 days treatment with NGF in serum, close to the time of terminal differentiation. Staurosporine, on the other hand, inhibited DNA replication of PC12 cells in a time- and dose-dependent fashion by affecting cyclin-dependent kinases. Staurosporine had no effect on the protein levels of p53, p21/WAF1, or cyclin G. The kinase activity of both p34cdc2 and p33cdk2 were inhibited in vitro with IC50 values of 20 nM and 75 nM, respectively. In vivo p34cdc2 kinase activity was inhibited within 1 day, before the decrease in the levels of p34cdc2 protein at days 2 to 3. In contrast, in vivo p33cdk2 kinase activity only decreased in concert with protein levels. Although both NGF and staurosporine inhibit DNA replication concomitant with induction of differentiation by affecting the activity of p34cdc2 and p33cdk2, the mechanism of the two agents is quite different. NGF achieves inhibition of activity of these cyclin-dependent kinases by signalling through the TrkA receptor to the tumor suppressor protein p53 and then to p21/WAF1. In contrast, staurosporine directly inhibits the activity of p34cdc2 and p33cdk2 by binding to them and also indirectly by alteration of their phosphorylation through other regulatory kinases.
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PMID:Different mechanisms for inhibition of cell proliferation via cell cycle proteins in PC12 cells by nerve growth factor and staurosporine. 928 22

Bax (a death-promoting member of the bcl-2 gene family), the tumor suppressor gene product p53, and the ICE/ced-3-related proteases (caspases) have all been implicated in programmed cell death in a wide variety of cell types. However, their roles in radiation-induced neuronal cell death are poorly understood. In order to further elucidate the molecular mechanisms underlying radiation-induced neuronal cell death, we have examined the ability of ionizing radiation to induce cell death in primary cultured hippocampal neurons obtained from wild-type, p53-deficient and Bax-deficient newborn mice. Survival in neuronal cultures derived from wild-type mice decreased in a dose-dependent manner 24 hr after a single 10 Gy to 30 Gy dose of ionizing radiation. In contrast, neuronal survival in irradiated cultures derived from p53-deficient or Bax-deficient mice was equivalent to that observed in control, nonirradiated cultures. Western blot analyses indicated that neuronal p53 protein levels increased after irradiation in wild-type cells. However, Bax protein levels did not change, indicating that other mechanisms exist for regulating Bax activity. Adenovirus-mediated overexpression of p53 also caused neuronal cell death without increasing Bax protein levels. Irradiation resulted in a significant induction in caspase activity, as measured by increased cleavage of fluorogenic caspase substrates. However, specific inhibitors of caspase activity (zVAD-fmk, zDEVD-fmk and BAF) failed to protect postnatal hippocampal neurons from radiation-induced cell death. Staurosporine (a potent inducer of apoptosis in many cell types) effectively induced neuronal cell death in wild-type, p53-deficient and Bax-deficient hippocampal neurons, indicating that all were competent to undergo programmed cell death. These results demonstrate that both p53 and Bax are necessary for radiation-induced cell death in postnatal cultured hippocampal neurons. The fact that cell death occurred despite caspase inhibition suggests that radiation-induced neuronal cell death may occur in a caspase-independent manner.
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PMID:Evidence for involvement of Bax and p53, but not caspases, in radiation-induced cell death of cultured postnatal hippocampal neurons. 985 57

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

Human catecholaminergic neuroblastoma cells (SH-SY5Y) have been widely used in different neurochemical investigations. Quite often these cells are induced to differentiation by various agents, such as staurosporine and retinoic acid. Interestingly, even though both staurosporine and retinoic acid induce similar morphological differentiation in SH-SY5Y cells, we found that these two groups of differentiated cells exhibited opposite vulnerability to harmful chemicals and physical insults. In the present study, cisplatin, 5-fluorouracil (5-FU), N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP-4), 6-hydroxydopamine (6-OHDA), and gamma-radiation were used to assess the tolerance of the differentiated cells. Cell viability was determined by 3-(4,5-dimethylthiazol-2yl)-2, 5-diphenyltetrazolium bromide (MTT) assay. Staurosporine-treated SH-SY5Y cells were more sensitive to these toxic insults than the untreated controls. In contrast, retinoic acid-treated cells became more resistant to the same treatments. The expression of the proteins of the protooncogene Bcl-2 and the tumor suppressor gene p53 following staurosporine or retinoic acid treatment was assessed by Western blot and immunocytochemistry. Retinoic acid increased Bcl-2 and decreased p53 levels, whereas staurosporine decreased Bcl-2 and increased p53 levels. The opposite alteration of Bcl-2 (anti-apoptotic) and p53 (apoptotic) contents in SH-SY5Y cells with retinoic acid and staurosporine are attributed to the changes in cell vulnerability. These observations also indicate that caution should be taken when chemically induced differentiated neuroblastoma cells are to be used as an in vitro model for studying neuronal survival.
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PMID:Differential effects of staurosporine and retinoic acid on the vulnerability of the SH-SY5Y neuroblastoma cells: involvement of bcl-2 and p53 proteins. 1051 16

DNA-damaging agents such as cisplatin arrest cell cycle progression at either the G1, S, or G2 phase, although the G1 arrest is seen only in cells expressing the wild-type p53 tumor suppressor protein. Caffeine has been shown to abrogate the S and G2 arrest in p53-defective cells and to enhance cytotoxicity, but at concentrations too toxic to administer to humans. We have reported that 7-hydroxystaurosporine (UCN-01) also overcomes S and G2 phase arrest and enhances the cytotoxicity of cisplatin. We show here that UCN-01 at non-cytotoxic concentrations abrogated S and G2 arrest induced by cisplatin in two p53-defective human breast cancer cell lines. UCN-01 pushed the cells through S phase and mitosis, with subsequent apoptosis. Inhibition of mitosis with nocodazole reduced the apoptosis induced by UCN-01 plus cisplatin. Seven staurosporine analogs were compared for their ability to abrogate cell cycle arrest. Staurosporine was as effective as UCN-01 at abrogating S and G2 arrest, but the concentrations required were cytotoxic. K252a abrogated S phase arrest but failed to abrogate G2 arrest because alone it induced G2 arrest. Hence, K252a did not enhance cisplatin-induced cytotoxicity because it failed to push the cells through a lethal mitosis. None of the other analogs influenced cell cycle progression at the concentrations tested. Accordingly, UCN-01 was the only analog that overcame cell cycle arrest and enhanced the cytotoxicity of cisplatin while exhibiting no cytotoxicity of its own. Hence, UCN-01 remains the most promising candidate for testing clinically in combination with cisplatin.
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PMID:Comparison of the efficacy of 7-hydroxystaurosporine (UCN-01) and other staurosporine analogs to abrogate cisplatin-induced cell cycle arrest in human breast cancer cell lines. 1057 Dec 45

Staurosporine has been reported to cause arrest of cells in G1 phase at low concentration and in G2 phase at high concentration. This raises the question of why the effects of staurosporine on the cell cycle depend on the applied concentration. In order to verify these multiple functions of staurosporine in Meth-A cells, we used cyclin E as a landmark of G1/S transition, cyclin B as a landmark of G2/M transition and MPM2 as a hallmark of M phase. We found that staurosporine arrested cells in G1 phase at a low concentration (20 nM) and in G2/M phase at a high concentration (200 nM). However, 200 nM staurosporine increased the expression of cyclin B and cdc2 proteins, suggesting that the cells progressed through the G2/M transition, and increased the expression of MPM2 protein, indicating that the cells entered M phase. Moreover, 200 nM staurosporine increased the expression of p53 and p21 proteins and inhibited the expression of cyclin E and cdk2 proteins, suggesting that the cells were arrested in the G1 phase of the next cycle. Morphological observation showed similar results as well. These data suggest that the G2/M accumulation induced by 200 nM staurosporine does not reflect G2 arrest, but rather results from M phase arrest, followed by progression from M phase to the G1 phase of the next cycle without cytokinesis, and finally arrest of the cells in G1 phase.
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PMID:Both low and high concentrations of staurosporine induce G1 arrest through down-regulation of cyclin E and cdk2 expression. 1069 60

These studies examine characteristics of the quiescent period (timelag) of the free cytosolic calcium ([Ca++]i) elevation that follows stimulation of human basophils through the IgE receptor. Previous studies established that the [Ca++]i timelag was sensitive to the rate of ligand binding, but little else is known about this response characteristic. The [Ca++]i timelag could be lengthened using antigenic stimulation that is rapid but only weakly induces secretion: tenfold differences in the "strength" of the stimulus, as assessed by histamine release, are associated with threefold differences in the timelag. Inhibiting p53/56lyn kinase with low concentrations of the specific inhibitor, PP1, lengthened the [Ca++]i timelag dramatically. PP1 was also found to delay the onset of syk phosphorylation and histamine release. Staurosporine and genistein, which are known to inhibit early tyrosine kinases, had, at best, only modest effects on the [Ca++]i timelag. Specific inhibitors of protein kinase C (PKC) had no effect on the [Ca++]i timelag, and direct activation of PKC with PMA had only very modest effects on the timelag. Contrary to expectations, basophils with the so-called nonreleasing phenotype demonstrated an IgE-mediated [Ca++]i response at the single-cell level. However, the length of [Ca++]i timelag in nonreleasing basophils was threefold longer than normally found in releasing basophils. Furthermore, the [Ca++]i response was significantly more asynchronous than in releasing basophils and lacking in a sustained [Ca++]i elevation. These studies indicate that the [Ca++]i timelag following stimulation through the IgE receptor is sensitive to inhibition of lyn kinase but not other agents that have been demonstrated to inhibit early tyrosine kinases previously. However, only one characteristic of the [Ca++]i response phenotype of nonreleasing basophils--the [Ca++]i timelag but not the absence of a sustained [Ca++]i elevation--could be mimicked by inhibition of lyn kinase with PP1.
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PMID:Characteristics of the free cytosolic calcium timelag following IgE-mediated stimulation of human basophils: significance for the nonreleasing basophil phenotype. 1127 72

Apoptosis of vascular smooth muscle cells is critically involved in progression of atherosclerosis and may prevent intimal hyperplasia in restenosis and vascular remodeling. Nitric oxide (NO) is known to induce apoptosis, but the signaling pathways still remain unclear. We investigated p53 accumulation, protein kinase C (PKC) activation and nuclear transcription factor (NF-kappaB) binding activity as possible signaling mechanisms of NO-induced apoptosis. Apoptosis was induced dose-dependently with the NO-donors sodiumnitroprusside (SNP: 232+/-48%) and SIN-1 (241+/-90% of actinomycin D induced apoptosis; means +/- SEM, *p< or =0.05 vs. control) in HSMC. Inhibition of PKC significantly attenuated NO-induced apoptosis. Staurosporine reduced SIN-1/SNP-mediated DNA fragmentation by 55.3+/-13.8% and 38.3+/-13.9% respectively. Comparable results were obtained for calphostin C. However, NO-mediated induction of apoptosis was not preceded by p53 accumulation. SNP decreased NF-kappaB binding activity in HSMC. These results suggest that induction of apoptosis by exogenous NO in HSMC is not dependent on p53 accumulation but involves protein kinase C signaling and regulation of NF-kappaB binding activity. This opens a new therapeutical approach in preventing restenosis after angioplasty.
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PMID:Involvement of PKC and NF-kappaB in nitric oxide induced apoptosis in human coronary artery smooth muscle cells. 1168 11

4-nitroquinoline N-oxide (4-NQO) is a potent mutagen and carcinogen. To elucidate the cellular response to 4-NQO, we studied the transcriptional regulation of human proliferating cell nuclear antigen (hPCNA), an essential protein in DNA replication and repair, after 4-NQO treatment. We found that hPCNA promoter was dose-dependently transactivated by 4-NQO under the concentration of 2 microM via a previously reported p53-binding element located from -236 to -217 upstream of the transcription start site. Based on our western blot analysis, the phosphorylation of serine at the 15th residue (Ser15) of p53 was activated by 4-NQO, whereas the level of p53 in the cells did not change much. It was observed that Staurosporine, a Ser/Thr kinase inhibitor, blocked the Ser15 phosphorylation of p53 and the hPCNA promoter response to 4-NQO simultaneously, suggesting that Ser15 phosphorylated p53 was the 4-NQO-responsive hPCNA regulator. The [3H]-thymidine deoxyribose (TdR) incorporation assay and the comet assay showed that DNA repair was triggered when DNA replication was inhibited after the treatment of 4-NQO, and the hPCNA transactivation seemed to contribute to DNA repair. Taken together, our data indicate that after 4-NQO treatment hPCNA is transactivated by Ser15 phosphorylated p53, and participate in DNA repair.
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PMID:p53 protein activates the transcription of human proliferating cell nuclear antigen in response to 4-nitroquinoline N-oxide treatment. 1547 86


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