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)

14-3-3 sigma has been a major G2/M checkpoint control gene and has demonstrated that its inactivation in various cancers occurs mostly by epigenetic hypermethylation, not by genetic change. This study investigated the methylation status and expression of the 14-3-3 sigma gene in 46 oral squamous cell carcinomas by methylation-specific polymerase chain reaction, reverse transcriptase-polymerase chain reaction, Western blotting and immunohistochemistry. Exons of the p53 gene were examined for mutations by sequencing analysis and CyclinD1 by immunohistochemistry. Methylation of the 14-3-3 sigma gene was detected in 13% (6/46) of the oral tumours, but not in corresponding adjacent non-malignant and normal gingival tissues. Intratumoural heterogeneity was found in the tumour tissues including three 14-3-3 sigma-methylated samples. Methylation of 14-3-3 sigma was detected in 3 SCC with p53 mutations and 3 with wild-type p53. Our major findings are: (a) methylation of 14-3-3 gene promoter is a rare event in oral cancer; (b) it is not always associated with 14-3-3 protein levels and there is no clear relationship between its methylation and p53 mutation; (c) loss of 14-3-3 sigma expression is associated with reduced CyclinD1 gene expression.
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PMID:Methylation and intratumoural heterogeneity of 14-3-3 sigma in oral cancer. 1778 41

gamma-Irradiation-mediated ataxia telangiectasia mutated (ATM)-dependent dephosphorylation of serine 376 (S376) at the carboxyl terminus of human p53 results in the exposure of the 14-3-3 consensus-binding site, which includes serine 378 (S378). 14-3-3 binding potentiates p53's DNA-binding ability and causes G(1) arrest. Moreover,endoplasmic reticulum stress-mediated S376 phosphorylation was shown to localize human p53 in the cytoplasm. Although many functions are conserved between human and mouse p53, the functional relevance of S376 and S378 mouse equivalents is not clear. We report here that gamma-irradiation does not lead to 14-3-3 binding to mouse p53. Mouse p53 mutants, such as S373A/D (the equivalent of human S376), S375A/D (the equivalent of human S378), and combinatorial double mutants, were not impaired in their ability to transactivate p53-dependent target genes and were capable of inducing G(1) arrest as efficiently as wild-type p53. Consistently, all mutant p53s were as potent as wild-type mouse p53 in inhibiting cellular colony formation. Furthermore, mouse S373A/D mutants were not defective in cytoplasmic localization in response to endoplasmic reticulum stress. Together, the data suggest that despite a high homology with human p53, neither phosphorylation status at S373 and S375 nor 14-3-3 binding may be a critical event for mouse p53 to be functional.
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PMID:Phosphorylation at carboxyl-terminal S373 and S375 residues and 14-3-3 binding are not required for mouse p53 function. 1789 64

Angiogenesis requires an increase in endothelial cell proliferation to support an increase in mass of blood vessels. We designed an in vitro endothelial cell model to functionally screen for genes that regulate endothelial cell proliferation. A gain of function screen for genes that bypass p53 endothelial cell arrest identified Rem2, a Ras-like GTPase. We show that ectopic Rem2 suppresses p14(ARF) (human) or p19(ARF) (mouse) expression that leads to increased endothelial cell proliferation. Conversely, loss of ectopic Rem2 by RNA interference restores p19(ARF) expression in endothelial cells. We further show that Rem2-interacting 14-3-3 proteins are involved in the cell localization of Rem2, regulation of p19(ARF) expression, and endothelial cell proliferation. Finally, we demonstrate using the RIP1 tag2 mouse model of pancreatic disease that Rem2 is up-regulated in endothelial cells of stage IV disease. The data unravel a possible molecular mechanism for Rem2-induced angiogenesis and suggests Rem2 as a potential novel target for treating pathological angiogenesis.
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PMID:An endothelial cell genetic screen identifies the GTPase Rem2 as a suppressor of p19ARF expression that promotes endothelial cell proliferation and angiogenesis. 1805 57

Overexpression of the Aurora-B kinase correlates with oncogenic transformation and poor prognosis. We evaluated the effects of the bona fide Aurora-B kinase inhibitor AZD1152 on tumor responses to ionizing radiation (IR). When p53(wt) HCT116 and A549 cells were pretreated with AZD1152-HQPA prior to IR, additive effects were observed. Interestingly, more pronounced tumoricidal effects were observed in p53-deficient HCT116 and HT29 cells, as well as A549 cells treated with the p53 inhibitor cyclic pifithrin-alpha. In vivo studies on xenografted mice confirmed enhanced tumor growth delay after the combination of IR plus AZD1152-IR as compared to IR alone. Again, this effect was more pronounced with p53-/- HCT116 and p53-mutant xenografts. The AZD1152-mediated radiosensitization was mimicked by knockdown of Aurora-B with a short interference RNA or by inhibition of Aurora-B by transfection with an inducible kinase-dead Aurora-B. The radiosensitizing effect of AZD1152 was lost in CHK2-/- and 14-3-3-/- HCT116 cells. Altogether, these data indicate that AZD1152 can radiosensitize tumor cell lines in vitro and in vivo, the fact that these effects are exacerbated in p53-deficient cancer cells is of potential interest for further clinical development.
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PMID:Enhancement of radiation response in p53-deficient cancer cells by the Aurora-B kinase inhibitor AZD1152. 1808 27

Sirt2 is a mammalian member of the Sirtuin family of NAD(+) (nicotinamide adenine dinucleotide)-dependent protein deacetylases. Although Sir-2.1 (a Caenorhabditis elegans Sirt2 ortholog) has been reported to interact with PAR-5/FTT-2 (a C. elegans 14-3-3 homolog), the molecular significance of the interaction between Sirt2 and 14-3-3 proteins in mammalian cell is not understood. Here, we report that Sirt2 interacts with 14-3-3 beta and gamma among various 14-3-3 isoforms, and that this interaction is strengthened by AKT. Furthermore, Sirt2 deacetylates and down-regulates the transcriptional activity of p53, and 14-3-3 beta/gamma augment deacetylation and down-regulation of the p53 transcriptional activity by Sirt2 in an AKT-dependent manner. Treatment of cells with nicotinamide, an inhibitor of Sirtuins, relieves the inhibition of p53 by Sirt2 and 14-3-3 beta/gamma. Therefore, our results suggest that the interaction between Sirt2 and 14-3-3 beta/gamma is a novel mechanism for the negative regulation of p53 beside the well-characterized Mdm2-mediated repression.
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PMID:Sirt2 interacts with 14-3-3 beta/gamma and down-regulates the activity of p53. 1824 87

The critical tumor suppressor p53 is mutated or functionally inactivated in nearly all cancers. We have shown previously that the MDM2-MDMX complex functions as an integral unit in targeting p53 for degradation. Here we identify the small protein 14-3-3 as a binding partner of MDMX, which binds at the C terminus (Ser367) in a phosphorylation-dependent manner. Importantly, we demonstrate that the serine/threonine kinase Akt mediates phosphorylation of MDMX at Ser367. This phosphorylation leads to stabilization of MDMX and consequent stabilization of MDM2. Previous studies have shown that Akt phosphorylates and stabilizes MDM2. Our data suggest that stabilization of MDMX by Akt may be an alternative mechanism by which Akt up-regulates MDM2 protein levels and exerts its oncogenic effects on p53 in tumor cells.
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PMID:Phosphorylation of MDMX mediated by Akt leads to stabilization and induces 14-3-3 binding. 1835 62

Deregulation of cell cycle leads to cell transformation and cancer development. Here we present profiling the proteome dynamics using 2-DE and constructing the associated functional networks during the cell cycle of human hepatoma cells, Mahlavu. The protein dynamics was validated by hierarchical clustering analysis on the proteome, and by Northern blot assays on the selected 14-3-3 proteins. Of the 2665 protein spots, 201 with variation coefficient of expression dynamics >20% throughout the cell cycle were subjected to analysis. Degree of the global protein dynamics was phase dependent with the greatest in transitional phases of S/G2, G2/M, and G1/S. Concurrence of pathways coordinating cell-cycle progression versus arrest, and/or pathways regulating apoptosis versus antiapoptosis was always identified during the cell cycle, suggesting the existence of counteracting mechanisms for intracellular homeostasis. Data mining of the results suggested that the key transcription factors in G0/G1, G1/S, S, and G2/M were p53 and SP1, c-Myc, c-Myc and p53, and YY1 and c-Jun, respectively. Our findings for the first time provide insights into the regulation of mammalian cell-cycle progression at the proteome level, and grant a model to study disease mechanisms and to discover therapeutic targets for anticancer therapy.
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PMID:Profiling the proteome dynamics during the cell cycle of human hepatoma cells. 1865 25

Activation of the tumour suppressor p53 on DNA damage involves post-translational modification by phosphorylation and acetylation. Phosphorylation of certain residues is critical for p53 stabilization and plays an important role in DNA-binding activity. The 14-3-3 family of proteins activates the DNA-binding affinity of p53 upon stress by binding to a site in its intrinsically disordered C-terminal domain containing a phosphorylated serine at 378. We have screened various p53 C-terminal phosphorylated peptides for binding to two different isoforms of 14-3-3, epsilon and gamma. We found that phosphorylation at either S366 or T387 caused even tighter binding to 14-3-3. We made by semi-synthesis a tetrameric construct comprised of the tetramerization plus C-terminal domains of p53 that was phosphorylated on S366, S378 and T387. It bound 10 times tighter than did the monomeric counterpart to dimeric 14-3-3. We showed indirectly from binding curves and directly from fluorescence-detection analytical ultracentrifugation that 14-3-3 enhanced the binding of sequence-specific DNA to p53 by causing p53 dimers to form tetramers at lower concentrations. If the in vitro data extrapolate to in vivo, then it is an attractive hypothesis that p53 activity may be subject to control by accessory proteins lowering its tetramer-dimer dissociation constant from its normal value of 120-150 nM.
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PMID:14-3-3 activation of DNA binding of p53 by enhancing its association into tetramers. 1881 99

Osteosarcoma is the most common primary bone tumor associated with childhood and adolescence. In the present study, we investigated the anticancer effect of a new isoflavone derivative, 3',4'-dichloro-3-(3,4-dichlorophenylacetyl)-2,4,6-trihydroxydeoxybenzoin (DDTD) in human osteosarcoma cells. DDTD induced cell apoptosis in human osteosarcoma cell lines (including: U2OS, MG-63, Saos2 and ROS 17/2.8). We found that the accumulation of reactive oxygen species is a critical mediator in DDTD-induced cell death. DDTD induced apoptosis signal-regulating kinase 1 (ASK1) dephosphorylation and its dissociation from 14-3-3. Treatment of osteosarcoma cells with DDTD induced p38 and p53 phosphorylation. Transfection with ASK1, mitogen activated protein kinase (MAPK) kinase (MKK)3/6, and p38 small interfering RNA (siRNA) antagonized the DDTD-induced cell apoptosis. DDTD also triggered the mitochondrial apoptotic pathway, as indicated by a change in Bax/Bcl2 ratio and Caspase-9 activation. Bax knockdown using a Bax siRNA strategy reduced Bax expression and subsequent cell death. In addition, transfection of cells with ASK1, MKK3/6, and p38 siRNA reduced DDTD-induced p38 activation, p53 phosphorylation and Bax expression. These results suggest that DDTD generates reactive oxygen species and activates the ASK1-MKK3/6-p38-p53-Bax pathway to cause osteosarcoma cell death.
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PMID:DDTD, an isoflavone derivative, induces cell apoptosis through the reactive oxygen species/apoptosis signal-regulating kinase 1 pathway in human osteosarcoma cells. 1882 83

Here we show that 14-3-3 proteins bind to Pim kinase-phosphorylated Ser166 and Ser186 on the human E3 ubiquitin ligase mouse double minute 2 (Mdm2), but not protein kinase B (PKB)/Akt-phosphorylated Ser166 and Ser188. Pim-mediated phosphorylation of Ser186 blocks phosphorylation of Ser188 by PKB, indicating potential interplay between the Pim and PKB signaling pathways in regulating Mdm2. In cells, expression of Pim kinases promoted phosphorylation of Ser166 and Ser186, interaction of Mdm2 with endogenous 14-3-3s and p14(ARF), and also increased the amount of Mdm2 protein by a mechanism that does not require Pim kinase activities. The implications of these findings for regulation of the p53 pathway, oncogenesis and drug discovery are discussed.
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PMID:14-3-3 Binding to Pim-phosphorylated Ser166 and Ser186 of human Mdm2--Potential interplay with the PKB/Akt pathway and p14(ARF). 1916 54

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