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)

In vitro changes of normal human keratinocytes (NHKs) derived from the oral mucosa after treatment with the chemical carcinogen 7,12 dimethylbenz[a]anthracene (DMBA; 5, 50, 200 ng/10 ml) were evaluated. NHKs were also treated with chemopreventive nutrient agents that previously had enhanced growth of epidermal and oral keratinocytes or suppressed growth of oral squamous cell carcinoma. These agents included the carotenoids beta-carotene and canthaxanthin and the retinoid retinyl palmitate (60 microM). Plating efficiency, growth in agarose (independent growth), viability [tetrazolium salt (MTT) assay], and proliferation ([3H]thymidine labeling) defined the growth of NHKs. The number of cornified cells and keratin expression (high-molecular-weight keratin) defined differentiation. gamma-Glutamyl transpeptidase, p53 expression, and tumorigenesis in mice defined oxidation and malignant transformation. Treatment with DMBA (50 ng/10 ml) was detected by autofluorescence; it produced an increase in pleomorphism and multinucleation and enhanced plating efficiency and the number of colonies grown in agarose. Chemopreventive treatment enhanced the number of colonies grown in agarose, but the MTT levels and [3H]thymidine incorporation-proliferation (24 h) were reduced. Chemopreventives also increased differentiation defined by the number of cornified cells and the expression of high-molecular-weight keratin-positive cells. Malignant transformation potential was depressed by reducing gamma-glutamyl transpeptidase and mutant p53 expression, whereas tumor suppressor p53 was enhanced. NHKs treated with DMBA and injected into nude mice (nu/nu: 1 x 10(6) cells/0.25 ml) produced tumor masses (3 of 3 animals), whereas the nutrient and DMBA groups produced smaller tumor masses, some with central ulcers (2 of 3 animals). Mock injection of untreated or nutrient-treated NHKs without DMBA treatment did not produce a tumor mass (0 of 3 animals). beta-Carotene, retinyl palmitate, and canthaxanthin increased differentiation and reduced transformation induced by DMBA in oral NHKs.
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PMID:In vitro growth changes of oral human keratinocytes after treatment with carotenoids, retinoid, and/or DMBA. 1022 45

ortho-Phenylphenol (OPP) and its sodium salt, which are used as fungicides and antibacterial agents, have been found to cause carcinomas in the urinary tract of rats. To clarify the carcinogenic mechanism of OPP, we compared the DNA damage inducing ability of an OPP metabolite, phenyl-1,4-benzoquinone (PBQ) with that of another metabolite, phenylhydroquinone (PHQ). Pulsed field gel electrophoresis showed that PBQ and PHQ induced DNA strand breakage in cultured human cells, but PBQ did it more efficiently than PHQ. Significant increases in 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG) were observed in cells treated with PBQ and PHQ, and the increase of 8-oxodG induced by PBQ was significantly higher than that induced by PHQ. Using 32P-5'-end-labeled DNA fragments obtained from human p53 tumor suppressor gene and c-Ha-ras-1 protooncogene, we showed that PBQ plus NADH, and also PHQ, induced DNA damage frequently at thymine residues, in the presence of Cu(II). The intensity of DNA damage by PBQ was stronger than that by PHQ, showing higher importance of PBQ than other OPP metabolites. Catalase and bathocuproine inhibited Cu(II)-mediated DNA damage by PBQ plus NADH and PHQ, suggesting that H2O2 reacts with Cu(I) to produce active species causing DNA damage. Electron spin resonance and UV-visible spectroscopic studies have demonstrated generation of semiquinone radical and superoxide from the reaction of PBQ with NADH or the Cu(II)-mediated autoxidation of PHQ. The present results suggest that these OPP metabolites cause oxidative DNA damage through H2O2 generation in cells, and the damage may lead to mutation and carcinogenesis. It is concluded that PBQ may play a more important role in the expression of OPP carcinogenicity than other OPP metabolites.
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PMID:Oxidative damage to cellular and isolated DNA by metabolites of a fungicide ortho-phenylphenol. 1033 3

Nitroxyl anion (NO(-)), the one-electron reduction product of nitric oxide (NO(.)), is formed under various physiological conditions. We have used four different assays (DNA strand breakage, 8-oxo-deoxyguanosine formation in calf thymus DNA, malondialdehyde generation from 2'-deoxyribose, and analysis of site-specific DNA damage using (32)P-5'-end-labeled DNA fragments of the human p53 tumor suppressor gene and the c-Ha-ras-1 protooncogene) to study the effects of NO(-) generated from Angeli's salt on DNA damage. It was found that strong oxidants are generated from NO(-), especially in the presence of H(2)O(2) plus Fe(III)-EDTA or Cu(II). NO(.) released from diethylamine-NONOate had no such effect. Distinct effects of hydroxyl radical (HO(.)) scavengers and patterns of site-specific DNA cleavage caused by Angeli's salt alone or by Angeli's salt, H(2)O(2) plus metal ion suggest that NO(-) acts as a reductant to catalyze the formation of the HO(.) from H(2)O(2) plus Fe(III) and formation of Cu(I)-peroxide complexes with a reactivity similar to HO(.) from H(2)O(2) and Cu(II). Angeli's salt and H(2)O(2) exerted synergistically cytotoxic effects to MCF-7 cells, determined by lactate dehydrogenase release assay. Thus NO(-) may play an important role in the etiology of various pathophysiological conditions such as inflammation and neurodegenerative diseases, especially when H(2)O(2) and transition metallic ions are present.
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PMID:Cytotoxicity and site-specific DNA damage induced by nitroxyl anion (NO(-)) in the presence of hydrogen peroxide. Implications for various pathophysiological conditions. 1040 35

We have used transmission electron microscopy to analyze the specificity and the extent of DNA bending upon binding of full-length wild-type human tumor suppressor protein p53 (p53) and the p53 core domain (p53CD) encoding amino acid residues 94-312, to linear double-stranded DNA bearing the consensus sequence 5'-AGACATGCCTAGACATGCCT-3' (p53CON). Both proteins interacted with high specificity and efficiency with the recognition sequence in the presence of 50 mM KCl at low temperature ( approximately 4 degrees C) while the p53CD also exhibits a strong and specific interaction at physiological temperature. Specific complex formation did not result in an apparent reduction of the DNA contour length. The interaction of p53 and the p53CD with p53CON induced a noticeable salt-dependent bending of the DNA axis. According to quantitative analysis with folded Gaussian distributions, the bending induced by p53 varied from approximately 40 degrees to 48 degrees upon decreasing of the KCl concentration from 50 mM to approximately 1 mM in the mounting buffer used for adsorption of the complexes to the carbon film surface. The p53CD bent DNA by 35-37 degrees for all salt concentrations used in the mounting buffer. The bending angle of the p53/DNA complex under low salt conditions showed a somewhat broader distribution (sigma approximately 39 degrees ) than at high salt concentration (sigma approximately 31 degrees ) or for p53CD (sigma approximately 24-27 degrees ). Together, these results demonstrate that the p53CD has a dominant role in complex formation and that the complexes formed both by p53 and p53CD under moderate salt conditions are similar. However, the dependence of the bending parameters on ambient conditions suggest that the segments flanking the p53CD contribute to complex formation as well. The problems associated with the analysis of bending angles in electron microscopy experiments are discussed.
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PMID:DNA bending due to specific p53 and p53 core domain-DNA interactions visualized by electron microscopy. 1058 3

Gastric cancer, the second most common cancer in the world, kills about one million people a year, almost half of whom are Chinese. Chinese, Japanese and Koreans as well as east Europeans top the list with over 40 per 100,000 population per year, with a wide margin over Americans, Indians and Zimbabweans in whom the rates are below 1 per 100,000. The excellent prognosis of early gastric cancer is well established, and survival of cancer involving beyond the submucosa remains poor and there is little new in management. However, recent years have witnessed a breakthrough in the understanding of causative factors and molecular genetic abnormalities in gastric cancer that should pave the way for prevention, early detection and prognostication. Established carcinogens for gastric cancer now include Helicobacter pylori and N-nitroso compounds; other causative factors include salt and salted food intake, cigarette smoking, male sex, and familial genetic abnormalities. H. pylori infection increases cancer risk by about 5 in a 10-year period. Diet high in salt carries a relative risk of up to 6, and a highly significant correlation between 24 h urinary salt content and incidence of gastric cancer has been shown in 24 countries. The risk from smoking and male sex is under 2. Many N-nitroso compounds, which come from nitrites, which in turn come from nitrates in food following bacterial transformation in a hypochlorhydric environment, are established carcinogens in animals, but their risk for human gastric cancer is still debatable. The intestinal type of gastric cancer, according to Correa's hypothesis, develops from chronic inflammation leading to intestinal metaplasia, dysplasia and cancer, and is more associated with H. pylori and early gastric cancer. The diffuse type of gastric cancer does not go through these precancerous conditions and moves straight from inflammation to cancer. Associated with inflammation are an increase in proliferation and apoptosis, and this fine balance between proliferation and apoptosis may be uncoupled by genetic mutations. It is believed that as a result of the accumulation of molecular genetic abnormalities, a cancer eventually develops and metastasizes. p53 mutation, cyclin overexpression (especially in intestinal type), microsatellite instability, down regulation of E-cadherin (especially in diffuse type), and telomerase reactivation are some prominent examples. These molecular abnormalities have the potential for screening, early detection and prognostication. Fruits and vegetables, green tea, alpha-tocopherol and other micronutrients such as selenium have been shown to reduce the risk for gastric cancer. In fact, it has been reported that diet consisting of vegetables and fruits, low in salt, together with the avoidance of cigarette smoking would prevent two-thirds to three-quarters of gastric cancer. Furthermore, eradication of H. pylori, and for that matter future vaccination, has the theoretical potential of preventing gastric cancer, and the potential use of COX2 inhibiting NSAID in inducing apoptosis may reverse precancerous conditions of the stomach. Both approaches are being intensely studied.
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PMID:9th Seah Cheng Siang Memorial Lecture: gastric cancer--where are we now? 1067 11

The bradykinin type 2 receptor (BK2) is a developmentally regulated G protein-coupled receptor that mediates diverse actions such as vascular reactivity, salt and water excretion, inflammatory responses, and cell growth. However, little is known regarding regulation of the BK2 gene. We report here that the rat BK2 receptor is transcriptionally regulated by the tumor suppressor protein p53. The 5'-flanking region of the rat BK2 gene contains two p53-like binding sites: a sequence at -70 base pairs (P1 site) that is conserved in the murine and human BK2 genes; and a sequence at -707 (P2) that is not. The P1 and P2 motifs bind specifically to p53, as assessed by gel mobility shift assays. Transient transfection into HeLa cells of a CAT reporter construct driven by 1.2-kilobases of the BK2 gene 5'-flanking region demonstrated that the BK2 promoter is dose dependently activated by co-expression of wild-type p53. Co-expression of a dominant negative mutant p53 suppresses the activation of BK2 by wild-type p53. Promoter truncation localized the p53-responsive element to the region between -38 and -94 base pairs encompassing the p53-binding P1 sequence. Furthermore, p53-mediated activation of the BK2 promoter is augmented by the transcriptional co-activators, CBP/p300. Interestingly, removal of the P2 site by truncation or site-directed deletion amplifies p53-mediated activation of the BK2 promoter. These results demonstrate that the rat BK2 promoter is a target for p53-mediated activation and suggest a new physiological role for p53 in the regulation of G protein-coupled receptor gene expression.
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PMID:The bradykinin type 2 receptor is a target for p53-mediated transcriptional activation. 1074 62

The prevalence of Barrett's oesophagus has risen over a short time interval implying environmental in addition to genetic aetiological factors. Bile salt effects from duodenogastro-reflux are assuming increasing importance with deoxycholic and taurodeoxycholic acid being particularly associated with Barrett's oesophagus. The cellular biology changes appear to follow a progression from initial inflammation and oesophagitis to metaplasia and dysplasia through to adenocarcinoma. Mechanisms of restitution include epidermal growth factor mediated increases in epithelial thickness. This results in basal stem cells becoming superficially placed and exposed further to luminal refluxed bile salts. Immature stem cells result which undergo mutation to a metaplastic glandular phenotype with intestinal metaplasia. P53 mutation increasingly occurs in progression to dysplasia and carcinoma and may confer a survival advantage of these cell clones by delaying apoptosis. Cell cycling gene mutations occur with accumulation of cells in G2 phase. Disruption of cellular checkpoint mechanisms in the mitotic process result in loss of heterozygosity and aneuploidy including loss of the Y chromosome. Identical mutations between adjacent areas of dysplasia and adenocarcinoma supports clonal expansion as the mechanism of carcinogenesis. APC tumour suppressor gene mutations are conserved in synchronous carcinomas in Barrett's dysplasia and are associated with beta-catenin accumulation in the nucleus and cellular migration with invasion. Cumulative genetic errors result in abnormal clones with metastatic or angiogenic potential. When a clone with malignant potential occurs adenocarcinoma can result completing the progression from inflammation to metaplasia and dysplasia through to adenocarcinoma.
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PMID:Genetic versus environmental interactions in the oesophagitis-metaplasia-dysplasia-adenocarcinoma sequence (MCS) of Barrett's oesophagus. 1090 14

The E6 Zn(2+)-binding protein of high-risk human papillomaviruses (HPVs) is one of the major transforming proteins encoded by these tumor viruses. A bacterial system was used to express wild type and truncated forms of HPV-16 E6 linked to GST. The recombinant proteins were released from GST through cleavage of a factor Xa site. Functional analysis of these proteins demonstrated that amino acids 2--142 comprise the minimal domain of E6 required to promote the degradation of p53 in vitro in a rabbit reticulocyte lysate. This purified protein, E6(Delta 143--151), required a high salt concentration for maximum solubility, eluted as a monomer on gel filtration, and was shown to bind two Zn(2+) ions by atomic absorption analysis. An N-terminal subdomain of E6 (amino acids 2--77, E6-N) was similarly purified. Unlike E6(Delta 143--151), E6--N was very soluble in low-salt buffers and hence was highly amenable to biophysical characterization. E6-N was shown to bind one Zn(2+) ion by electrospray mass spectrometry and by atomic absorption analysis. UV--visible spectroscopic analysis of Co(2+)-substituted E6--N revealed that four cysteine residues coordinate the metal ion. Mutational studies of all the cysteine residues in E6--N substantiated a critical role for Cys 30, 33, 63, and 66 in Zn(2+) binding and in proper folding of the subdomain. Equilibrium sedimentation of E6-N demonstrated that it is a monomer, like E6(Delta 143--151), at low concentrations, but dimerization occurs at high concentrations (K(d) = 0.1 mM). Finally, circular dichroism studies revealed significant secondary structure for both E6(Delta 143--151) and E6--N. The results support a model of monomeric E6 possessing two functionally critical Zn(2+)-binding motifs.
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PMID:Purification and biophysical characterization of a minimal functional domain and of an N-terminal Zn2+-binding fragment from the human papillomavirus type 16 E6 protein. 1117 Apr 44

B-cell chronic lymphocytic leukemia (CLL) is the most common type of leukemia diagnosed in the Western Hemisphere and remains incurable with currently available therapy. In an attempt to identify new potential therapy for CLL, we explored the pre-clinical activity of gemcitabine in human B-CLL cells (n =11). Mononuclear cell isolates were exposed to varying concentrations of gemcitabine (0.01-100 microM) for 4, 24, and 96 h. Viability, as determined by the tetrazolium salt (MTT) assay, after a 4 h incubation with gemcitabine declined in 6 of 8 (75%) evaluable patients at a concentration < 30 microM (a physiologically attainable level), and 3 of 8 of the B-CLL cells had an LC50 (concentration where 50% loss of viability is observed) < 30 microM. At 4 days of drug exposure, 82% (9/11) of patients had an LC50 < 30 microM. Annexin-V/propidium iodine staining demonstrated apoptosis in CLL cells exposed to 30 microM of gemcitabine. Examination of changes in apoptosis related proteins demonstrated no significant change in bcl-2, bax or p53 protein expression with gemcitabine (23 microM) at 4, 24, or 48 h. These data demonstrate that gemcitabine has pre-clinical activity in B-CLL and supports its exploration as a single agent and in combination with other active agents in this disease.
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PMID:Gemcitabine demonstrates in vitro activity against human B-cell chronic lymphocytic leukemia. 1133 14

Gluthoxim--bis(g-L-gluthamyl)-L-cystenyl-bis-glycin disodium salt (C20H32O16N6S2)--is an analog of oxidized gluthation with a stable disulfide bond. It is a drug of a new class of thiopoetins which regulate thiol disulfide metabolism. Gluthoxim is used as a support substance in chemotherapy of cancer. The present investigation deals with feasibility of gluthoxim-induced apoptosis in tumor cell cultures, including human myeloleukema cells HL60 which lack protein p53 gene, so crucial for apoptosis. Also, gluthoxim effect was studied with respect to transformed murine fibroblasts C8 and A4, carrying the plasmide structure with Ras and E1A genes which boost Ras-gene expression. This in turn makes fibroblasts ready to start apoptosis. Gluthoxim induction of cell death was demonstrated in both cell lines; however, apoptosis in cells C8 (with intact gene p53) was much more pronounced than in cells A4 without this gene. It is suggested that apoptosis can be triggered by both imbalance of redox potential typical of tumor cells, induction of p53 synthesis and an impact on the phosphoproteinase cascade of Ras-signal pathway.
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PMID:[Molecular genetic aspects of the antineoplastic effect of gluthoxim]. 1154 35

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