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)

The p53 tumor suppressor protein is an important negative regulator of the G1 to S transition in mammalian cells. We have investigated the effect of p53 on the expression of the mouse thymidylate synthase (TS) gene, which normally increases as cells enter S phase. A luciferase indicator gene that was driven by the wild-type or various modified forms of the TATA-less mouse TS promoter was transiently cotransfected with a p53 expression plasmid into TS-deficient hamster V79 cells and the level of luciferase activity was determined. We found that wild-type p53 inhibited TS promoter activity by greater than 95% but had a strong stimulatory effect on an artificial promoter that contained multiple p53-binding sites. In contrast, an expression plasmid that encodes a mutant form of p53 or a wild-type retinoblastoma tumor suppressor protein had little effect on TS promoter activity. Deletion of sequences upstream or downstream of the TS essential promoter region, or inactivation of each of the known elements within the essential promoter region, had no effect on the ability of wild-type p53 to inhibit TS promoter activity. Our observations indicate that the inhibition of TS promoter activity by p53 is not due to the presence of a specific p53 negative response element in the TS promoter. Rather, it appears that p53 inhibits the TS promoter by sequestering ("squelching") one or more general transcription factors.
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PMID:Inhibition of mouse thymidylate synthase promoter activity by the wild-type p53 tumor suppressor protein. 926 Aug 94

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

The mouse double minute 2 (mdm2) proto-oncogene was originally discovered as one of three genes that was amplified in a tumorigenic cell line derived from non-transformed Balb/c cells. Consistent with the expression pattern of mdm2 in these cells, it was later shown that the transforming potential of the mdm2 proto-oncogene can be activated by experimental overexpression. Overexpression of mdm2 protein been detected in a number of diverse human malignancies, indicating that this oncogene plays a key role in human carcinogenesis. One mechanism by which mdm2 overexpression may lead to uncontrolled cellular proliferation is through its ability to physically associate with the p53 tumor suppressor and block p53's growth suppressive functions. Forced overexpression of mdm2 has been shown to block the transactivation, cell cycle arrest and apoptotic functions of p53. The mdm2 gene has also been shown to be a transcriptional target of p53 and the induction of p53 transcriptional activity leads to increases in mdm2 RNA and protein levels. Thus, it appears that an auto-regulatory feedback loop exists between these two proteins which keeps the growth suppressive functions of p53 in check during normal cell cycling. However, this block is thought to be overcome during certain cellular insults, including DNA damage, so that p53 can regulate the expression of genes involved in cell cycle arrest and/or apoptosis. Genetic lesions leading to elevated levels of mdm2 likely impair the ability of p53 to orchestrate the expression of genes controlling cell cycle progression during cellular insults. This may lead to the propagation of genetic errors, genomic instability and ultimately to an increase in the rate of tumor cell evolution. There is also recent evidence which suggests that mdm2 may play roles in p53-independent pathways regulating cellular proliferation. mdm2 has recently been shown to interact with the retinoblastoma tumor suppressor protein p(Rb), and the E2F-1 and DP1 transcription factors. These, and other clinical, cellular and biochemical studies relating to the mdm2 oncogene are reviewed here. In addition, a proposed role for mdm2 in pathways controlling cell cycle response to cellular perturbations is presented.
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PMID:The mdm2 proto-oncogene. 932 85

In the majority of cervical cancers, DNAs of high-risk mucosotpropic human papillomaviruses (HPVs), such as type 16, are maintained so as to express two viral proteins, E6 and E7, suggesting an essential importance to carcinogenesis. The high-risk HPV E6 proteins are known to inactivate p53 tumor suppressor protein but appear to have an additional, molecularly unknown function(s). In this study, we demonstrate that these E6 proteins can bind to the second PDZ domain of the human homologue of the Drosophila discs large tumor suppressor protein (hDLG) through their C-terminal XS/TXV/L (where X represents any amino acid, S/T serine or threonine, and V/L valine or leucine) motif. This finding is similar to the interaction between the adenomatous polyposis coli gene product and hDLG. E6 mutants losing the ability to bind to hDLG are no longer able to induce E6-dependent transformation of rodent cells. These results suggest an intriguing possibility that interaction between the E6 protein and hDLG or other PDZ domain-containing proteins could be an underlying mechanism in the development of HPV-associated cancers.
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PMID:Binding of high-risk human papillomavirus E6 oncoproteins to the human homologue of the Drosophila discs large tumor suppressor protein. 932 58

Transgenic mice harboring the early genome from the human neurotropic JC virus, JCV, develop massive abdominal tumors of neural crest origin during 6-8 months after birth and succumb to death a few weeks later. The viral early protein, T-antigen, which possesses the ability to transform cells of neural origin, is highly expressed in the tumor cells. Immunoblot analysis of protein extract from tumor tissue shows high level expression of the tumor suppressor protein, p53, in complex with T-antigen. Expression of p21, a downstream target for p53, which controls cell cycle progression by regulating the activity of cyclins and their associated kinases during the G1 phase, is extremely low in the tumor cells. Whereas the level of expression and activity of cyclin D1 and its associated kinase, cdk6, was modest in tumor cells, both cyclin A and E, and their kinase partners, cdk2 and cdk4, were highly expressed and exhibited significant kinase activity. The retinoblastoma gene product, pRb, which upon phosphorylation by cyclins:cdk induces rapid cell proliferation, was found in the phosphorylated state in tumor cell extracts, and was detected in association with JCV T-antigen. The transcription factor, E2F-1, which dissociates from the pRb-E2F-1 complex and stimulates S phase-specific genes upon phosphorylation of pRb and/or complexation of pRb with the viral transforming protein, was highly expressed in tumor cells. Accordingly, high level expression of the E2F-1-responsive gene, proliferating cell nuclear antigen (PCNA), was detected in the tumor cells. These observations suggest a potential regulating pathway that, upon expression of JCV T-antigen, induces formation and progression of tumors of neural origin in a whole animal system.
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PMID:Role of cell cycle regulators in tumor formation in transgenic mice expressing the human neurotropic virus, JCV, early protein. 932 27

We have investigated the influence of three structurally different but functionally related compounds [1, 10 ortho-phenanthroline (phenanthroline), Rifampicin and aurin tricarboxylic acid (ATA)] on the rate and the extent of proliferation of progesterone-responsive T47D human breast cancer cells. These compounds have previously been used in this laboratory and have been shown to modulate properties of nucleic acid binding proteins. Because p53 and the progesterone receptor (PR) are both DNA binding proteins that appear to regulate proliferation of breast cells, alterations in T47D cell p53 and PR levels were examined to determine their relevance in cell proliferation. T47D cells were grown in the absence of phenol red and in the presence of 5% fetal calf serum with or without charcoal stripping in the presence of the inhibitors. The rate of proliferation of cells grown in Rifampicin containing medium exhibited nearly 70% inhibition. Phenanthroline, a known metal chelator, was an effective inhibitor of proliferation at 3 mM reducing the cell number by more than 75%. ATA (0.24-2.4 micrograms/ml) inhibited the growth of the cells by nearly 50%. Analysis of the mechanism of action of these compounds revealed that treatment with these compounds caused specific changes in the molecular composition of T47D cell PR. Whereas ATA caused increased stability of PR isoforms, Rifampicin induced a upshift in the mobility of PR in SDS gels-a phenomenon associated with hyperphosphorylation of steroid receptors (SRs). Phenanthroline treatment (> 2 mM) caused a complete down-regulation of PR and the tumor suppressor protein, p53. The downregulation of p53 paralleled the changes in the molecular composition of PR. We propose that the inhibition of T47D cell proliferation by phenanthroline, Rifampicin and ATA results from a number of cellular changes that include regulation of p53 and PR.
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PMID:Inhibition of proliferation of T47D human breast cancer cells: alterations in progesterone receptor and p53 tumor suppressor protein. 935 37

Esophageal tumors from 29 patients residing in Guangzhou, China were examined for mutations in exons 5-8 of the p53 tumor suppressor gene and for p53 protein accumulation in tumor cell nuclei. Anamnestic data for each patient, which included information on family history of cancer, tobacco smoking, drinking of alcoholic beverages, and dietary habits such as consumption of pickled vegetables, were recorded. Screening of DNA from tumor cells microdissected from biopsies was performed by PCR amplification of p53 gene exons 5-8, denaturing gradient gel electrophoresis analysis, and DNA sequencing. Mutations were identified in 20 of 29 tumors (69%). All tumors harboring a missense mutation in the p53 gene also showed nuclear accumulation of the tumor suppressor protein by immunohistochemistry. The most common p53 mutations in these tumors were guanine to adenine (G-->A) transitions (10 of 20 tumors; 50%). We did not find multiple mutations at codon 176, in contrast to Lung et al. in their recent study of esophageal cancer patients from Guangzhou (M. L. Lung et al., Cancer Epidemiol. Biomark. Prev., 5: 277-284, 1996). The mutation prevalence was high both in smokers (13 mutations in 20 smokers; 65%) and in nonsmokers (7 of 9 tumors with mutations; 78%), an observation that differs from that of studies in European and North American patients, which demonstrate a much higher prevalence of p53 mutations in smokers than in nonsmokers (reviewed in R. Montesano et al., Int. J. Cancer Predict. Oncol., 69: 225-235, 1996.). Our findings in this pilot study of tumor suppressor gene mutations in patients from Guangzhou support a large body of epidemiological observations pointing to dietary mutagenic carcinogens peculiar to populations in China at high risk of esophageal cancer.
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PMID:p53 mutations in esophageal tumors from a high incidence area of China in relation to patient diet and smoking history. 936 71

Molecular markers such as mutational spectra or mRNA expression patterns may give some indication of the mechanisms of carcinogenesis induced by fibers and other carcinogens. In our study, tumors were induced by application of crocidolite asbestos or benzo[a]pyrene (B[a]P) to rat peritoneum. DNA and RNA of these tumors were subjected to analysis of point mutations and to investigation of mRNA expression patterns. With both assays we found typical features depending on the type of carcinogen applied. The analysis of point mutations in the tumor suppressor gene p53 revealed mutations in the B[a]P-induced tumors. However, in the tumors induced by crocidolite asbestos that were of the same tumor type as those induced by B[a]P, mutations in p53 were not detectable. Every mutation detected on the DNA level causes an amino acid substitution within one of the functional domains of the tumor suppressor protein. Therefore, these mutations seem to be of biological relevance for tumor progression and indicate a difference in the carcinogenesis regarding the type of the carcinogenic substance. An additional specificity of crocidolite-induced tumors was detectable by analyzing the mRNA expression of the tumor suppressor gene WT1, which is known to be expressed in human mesothelial and mesothelioma cells. A relatively high amount of WT1 mRNA was measured by quantitative competitive reverse transcription-polymerase using RNA extracted from crocidolite-induced tumors. However, WT1 seems to be expressed on a rather low level in tumors induced by B[a]P.
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PMID:Fiber-specific molecular features of tumors induced in rat peritoneum. 940 Jul 7

p53 is a tumor suppressor protein that acts in the nucleus to effect cell cycle arrest and apoptosis. In some cells p53 is located in the cytoplasm, perhaps as a means of downregulating its activity. We recently showed that hsp90 forms a complex with the cytoplasmically localized mutant p53 (TSp53vall35) within transformed cells (Sepehrnia et al., J. Biol. Chem. 271, 15084, 1996). The present study was undertaken to determine the p53 conformation bound to hsp90 and the role of hsp90 in p53 nuclear translocation. We show that hsp90 binds both a native and a denatured form of p53 as determined by conformation-specific antibodies. hsp90 does not bind p53 in a spatial-specific manner because it remains bound to p53 when induced to translocate to the nucleus by the protein synthesis inhibitor cycloheximide (CHX). Treatment of transformed cells with geldanamycin (GA), a small molecule that binds hsp90, causes a rapid destabilization of p53 by 50%. Residual p53 that survives GA treatment is incapable of translocating to the nucleus. GA does not destabilize p53 in cells where p53 is genotypically wild type. Although GA appears to dramatically alter the translocating properties of mutant p53 it does not dissociate the p53-hsp90 complex. We suggest that a second chaperone protein, called p23, which we show also binds p53, may play an important role in these GA-mediated effects.
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PMID:Geldanamycin prevents nuclear translocation of mutant p53. 941 63

Two hundred eight primary squamous cell carcinomas of the head and neck have been analyzed with respect to the presence of the retinoblastoma tumor suppressor protein, pRb. Of these, 23 tumors (11%) that preferentially localized to the tonsils revealed complete absence or dramatic reduction in the amount of pRb. Other cell cycle components, cyclin D1 and p16INK4A, which are intimately related to pRb through an autoregulatory loop, were also dramatically decreased or overexpressed, respectively, in these pRb-defective tumors. On the other hand, the majority of the pRb-defective tumors contained the wild-type p53 gene. No evidence was found for genetic defects at the Rb locus in these tumors. Very significantly, in 11 of 12 pRb-defective tonsillar tumors, but in none of 9 pRb-positive tonsillar tumors (P < 10[-7]), DNA of oncogenic human papillomavirus types was identified, providing a strong indication for a human papillomavirus-associated etiology of these tumors and suggesting the functional inactivation of the pRb protein by the viral E7 gene product. In comparison to all head and neck squamous cell carcinomas studied, the pRb-defective tonsillar tumors were in general more poorly differentiated (P = 0.0059), and they were all metastatic at the time of resection. Of particular clinical interest, despite these adverse histopathological factors, the clinical outcome for these patients was relatively favorable, strongly implying that the pRb-defective tumors responded uniformly well toward postoperative radiation therapy.
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PMID:Etiological involvement of oncogenic human papillomavirus in tonsillar squamous cell carcinomas lacking retinoblastoma cell cycle control. 942 48


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