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)

Two membrane transporters, the 17 amino acid (aa) oligopeptide penetratin derived from the homeodomain of Antennapedia (Ant) and an analogue of the basic domain of TAT (aa 47-57) (TAT-a) from HIV-1, were tested as carriers for a p53 C-terminal peptide (aa 361-382) into human breast cancer cells. The studies were performed to determine whether the membrane-transduction efficiency of membrane carriers: Ant, TAT or TAT analogue (TAT-a) correlated with peptide hydrophobic features. Peptide-sequence analysis clearly demonstrated that the Ant sequence and p53 peptide sequence (p53p) together created a peptide with enhanced hydrophobic characteristics; while the TAT or TAT analogue (TAT-a) and p53p sequence together created a peptide with significantly less hydrophobic qualities. The degree of hydrophobic moment and helical wheel plots for these peptides correlated directly with their ability to transduce the p53 peptide. Western blot analysis revealed that Ant was able to transduce p53 C-terminal peptide into human breast cancer cells as a highly efficient membrane transporter. Compared to Ant, TAT-a fused to the C-terminus of p53 peptide (p53p-TAT-a) was a less efficient carrier into these cells under the conditions of our study. Additionally, N-terminal linked TAT-a to p53p (TAT-a-p53p) showed even lower efficiency as a transporter than p53-TAT-a. Apoptosis assays showed that the p53 peptide, fused at its C-terminus to Ant (p53p-Ant), induced a higher percentage of apoptotic cells in human breast cancer cell lines expressing mutant or wild-type p53 as compared to p53 peptide fused at its C-terminus to the TAT-a sequence (p53p-TAT-a) or when fused at the N-terminus to TAT-a (TAT-a-p53p). These data suggested a direct correlation between hydrophobic characteristics and efficiency as a transporter. Sequence study, using hydrophobic moment and helical wheel analyses, may be useful predictive tools for choosing the best carrier for a peptide.
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PMID:Correlation between hydrophobic properties and efficiency of carrier-mediated membrane transduction and apoptosis of a p53 C-terminal peptide. 1241 61

Interpretation of protein mutagenesis experiments requires the ability to distinguish functionally relevant mutations from mutations affecting the structure. When a protein is expressed soluble in bacteria, properly folded mutants are expected to remain soluble whereas misfolded mutants should form insoluble aggregates. However, this rule may fail for proteins fused to highly soluble carrier proteins. In a previous study, we analysed the biophysical status of HPV oncoprotein E6 fused to the C-terminus of maltose-binding protein (MBP) and found that misfolded E6 moieties fused to MBP formed soluble aggregates of high molecular weight. By contrast, preparations of properly folded E6 fused to MBP were monodisperse. Here, we have used this finding to evaluate the quality of 19 MBP-fused E6 site-directed mutants by using a light scattering assay performed in a fluorimeter. This assay guided us to rule out structurally defective mutants and to obtain functionally relevant E6 mutants selectively altered for two molecular activities: degradation of tumour suppressor p53 and DNA recognition.
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PMID:Protein mutagenesis with monodispersity-based quality probing: selective inactivation of p53 degradation and DNA-binding properties of HPV E6 oncoprotein. 1246 Jul 59

Recent studies suggest that several proteins can transverse biological membranes through protein transduction. The protein transduction domains of these proteins, 10-16 residues long, have been identified as critical domains for the protein transduction. Poly-arginine peptide also has the ability of protein transduction. Here, we show that the protein delivery system using 11 poly-arginine peptides (11R) is a powerful tool for the transduction of the biologically active tumor suppressor protein, p53, to suppress the proliferation of oral cancer cells. The 11R-fused p53 proteins (11R-p53) effectively penetrated across the plasma membrane of the cancer cells and translocated into the nucleus. The proteins induced the activity of the p21/WAF promoter and inhibited the proliferation of human oral cancer cells, in which the p53 gene was mutated. The effect was equivalent to that of the adenovirus-mediated p53 gene transduction system. Moreover, 11R-p53 enhanced the cisplatin-dependent induction of apoptosis of the cells. These data suggest that this protein transduction method may become a promising cancer therapy.
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PMID:Development of p53 protein transduction therapy using membrane-permeable peptides and the application to oral cancer cells. 1248 27

We characterized the mechanism of transforming growth factor beta (TGF-beta) resistance in the VACO-411 human colon carcinoma line. VACO-411 is unique for several reasons, including having a novel mutator phenotype and wild-type p53. Like many colon tumors, VACO-411 is not growth inhibited by TGF-beta. However, VACO-411 represents a subset of colon tumors that are resistant to TGF-beta-mediated growth inhibition, despite the expression of functional TGF-beta receptors. VACO-411 expresses cell surface TGF-beta receptor types I and II, and the coding regions of these receptors are wild type. To further characterize the nature of the VACO-411 defect, we fused VACO-411 with the human breast carcinoma line MCF-7. MCF-7 is also resistant to TGF-beta-mediated growth inhibition. However, unlike VACO-411, MCF-7 lacks cell surface expression of TGF-beta receptor type II, but does contain an intact postreceptor signaling pathway, as shown by regeneration of TGF-beta sensitivity following wild-type TGF-beta receptor type II transfection. In contrast to parental VACO-411 and MCF-7, the morphologically distinct cell hybrids were growth inhibited by TGF-beta. Therefore, the TGF-beta defect in VACO-411 is a postreceptor, loss-of-function mutation which can be genetically complemented. The data suggest that the VACO-411 defect in TGF-beta signaling will be able to be further complemented by microcell-mediated chromosome transfer.
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PMID:Reconstitution of TGF-beta sensitivity in the VACO-411 human colon carcinoma line by somatic cell fusion with MCF-7. 1259 61

Mdm2 and MdmX function as cellular regulators of the p53 tumor suppressor protein. Mdm2, a p53 inducible protein, negatively regulates p53 by inhibiting p53 transcriptional activity and promoting ubiquitin mediated proteasome degradation. The Mdm2 ring finger domain has been shown to possess E3 ligase activity and to be a necessary domain for targeting p53 degradation. MdmX, a p53 binding protein sharing a high degree of structural homology with Mdm2, has emerged as another negative regulator of the p53 tumor suppressor. MdmX has also been shown to block p53 transactivation but unlike Mdm2 cannot induce p53 degradation. Since MdmX also possesses a ring finger domain that allows MdmX to associate with Mdm2, this study focused on elucidating how the ring and zinc fingers of these two proteins affected p53 function. We have generated a series of fusion proteins between Mdm2 and MdmX by swapping the ring finger domains with or without the zinc finger domains and examined how these fusions regulated p53 induced transactivation, ubiquitination, and degradation. All fusions inhibited the transcriptional activity of p53. In the absence of Mdm2, none of the fusion proteins could trigger p53 ubiquitination or degradation. However, in a cell line with endogenous Hdm2, Mdm2:X fusions containing the ring finger domain with or without the zinc finger domain demonstrated p53 ubiquitination presumably through stabilization of Hdm2. Additionally, an Mdm2:XZFRF fusion also degraded p53 when endogenous Hdm2 was present. Results from immunofluorescence studies suggest that p53 is colocalized to the cytoplasm when coexpressed with a Mdm2:X fusion (Mdm2:XZFRF) and that this fusion is capable of stabilizing endogenous Hdm2. Since none of the fusions triggered p53 ubiquitination in cells lacking Mdm2, these results indicate that the E3 ligase domain within the ring finger of Mdm2 when part of MdmX and the MdmX ring finger fused to Mdm2 were not sufficient to trigger p53 ubiquitination, in vivo.
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PMID:Overexpression of Mdm2 and MdmX fusion proteins alters p53 mediated transactivation, ubiquitination, and degradation. 1260 Jan 96

p53 is the most frequently altered gene in human cancer and therefore represents an ideal target for cancer therapy. Several amino terminal p53-derived synthetic peptides were tested for their antiproliferative effects on breast cancer cell lines MDA-MB-468 (mutant p53), MCF-7 (overexpressed wild-type p53), and MDA-MB-157 (null p53). p53(15)Ant peptide representing the majority of the mouse double minute clone 2 binding site on p53 (amino acids 12-26) fused to the Drosophila carrier protein Antennapedia was the most effective. p53(15)Ant peptide induced rapid, nonapoptotic cell death resembling necrosis in all breast cancer cells; however, minimal cytotoxicity was observed in the nonmalignant breast epithelial cells MCF-10-2A and MCF-10F. Bioinformatic/biophysical analysis utilizing hydrophobic moment and secondary structure predictions as well as circular dichroism spectroscopy revealed an alpha-helical hydrophobic peptide structure with membrane disruptive potential. Based on these findings, p53(15)Ant peptide may be a novel peptide cancer therapeutic because it induces necrotic cell death and not apoptosis, which is uncommon in traditional cancer therapy.
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PMID:Preferential induction of necrosis in human breast cancer cells by a p53 peptide derived from the MDM2 binding site. 1262 7

Protein-protein interactions control essential steps in signal transduction pathways and other intracellular processes, and assembly of protein complexes modulates and responds to the regulatory events that exist in living animals. We have used microPET and fluorescence imaging to detect interactions between p53 tumor suppressor and large T antigen (TAg) of SV40 virus in a tetracycline-inducible two-hybrid system. To additionally validate this molecular imaging technique, we investigated whether expression of the reporter gene, comprised of a mutant thymidine kinase from herpes simplex virus 1 fused to green fluorescent protein could quantify relative differences in amounts of interacting hybrid proteins. In HeLa cells stably transfected with the reporter gene and interacting (p53-TAg) or noninteracting (p53 and polyoma virus coat protein) pairs of proteins, treatment with doxycycline produced time- and dose-dependent increases in expression of hybrid proteins. Proportional increases in amounts of reporter gene were produced only in cells expressing p53 and TAg. In mice bearing xenografts of these stably transfected HeLa cells, amounts of hybrid proteins were regulated with doxycycline. Both microPET imaging and biodistribution studies showed time- and dose-dependent increases in accumulation of the reporter substrate 9-(4-[(18)F]-fluoro-3-hydroxymethylbutyl)guanine only in p53-TAg tumors. Fluorescence microscopy of excised tumors also showed corresponding changes in expression of the fusion reporter gene in response to binding of p53 and TAg. These data demonstrate that the imaging two-hybrid system responds in a proportional fashion to increasing amounts of interacting proteins in vivo.
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PMID:Molecular imaging of protein-protein interactions: controlled expression of p53 and large T-antigen fusion proteins in vivo. 1270 63

A frequent genetic alteration found in premalignant stages of pancreatic adenocarcinoma is K-ras oncogene point mutation. The mechanistic basis for the inability of K-ras mutation to transform pancreatic ductal cells is unclear, although cooperating events with p16 inactivation, p53 mutation, and SMAD 4 mutation are recognized to be necessary. We have generated a novel mouse model in which the cytokeratin 19 promoter, specifically active in pancreatic ductal cells but not other cell types of the pancreas, is fused to mutant K-ras. This is of direct relevance to human pancreatic cancer because premalignant lesions are found specifically in ductal cells. There is dramatic periductal lymphocytic infiltration in the pancreata of transgenic mice, predominantly CD4+ T lymphocytes, which may act as an adaptive immune response to activated ras-mediated signaling. In addition, gene array analysis reveals an induction of N-cadherin in transgenic mice pancreatic ductal cells, the significance of which relates to promotion of cell adhesion and deterrence of cell migration. Apart from these important biological considerations, there is parallel activity of the cytokeratin 19 promoter in the stem cell region of the gastric epithelium, namely in mucous neck cells. Activated K-ras in this context causes mucous neck cell hyperplasia, a precursor to gastric adenocarcinoma. There is concomitant parietal cell decrease, which is a key step toward gastric adenocarcinoma. Taken together, we have defined how mutant K-ras signaling modulates important molecular events in the initiating events of pancreatic and gastric carcinogenesis.
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PMID:The mutant K-ras oncogene causes pancreatic periductal lymphocytic infiltration and gastric mucous neck cell hyperplasia in transgenic mice. 1272 9

The migrating position of green fluorescent protein (GFP)-fused polypeptide varied on an SDS/urea gel by a single amino acid change in the fused polypeptide segment. An easy detection method for a single amino acid change based on this observation was called "GFP-display." Using various target polypeptides, staphylococcal protein A (SpA), Ras, p53, and human beta3 adrenergic receptor (AR), and their mobility-shift patterns resulting from the single amino acid changes, several important properties of GFP-display were revealed as follows: (i). since the binding of dodecyl sulfate ions to acidic or hydrophilic amino acids is weaker than that to basic or hydrophobic amino acids, the ions bound weakly to the fused polypeptide segment are forced to come off by high concentrations of urea prior to the ions bound strongly, resulting in the mobility shift, (ii). the mobility shift is estimated to a certain extent using a new parameter called the "GD value" calculated from the isoelectric point, hydrophilicity, and number of fused amino acids, and (iii). the fluorescence intensity of GFP-fused polypeptide tends to increase with the average hydrophilicity of the fused polypeptide segment. GFP-display will be a helpful technique for many kinds of gene or protein studies related to amino acid substitutions such as the random mutagenesis in a gene of interest.
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PMID:General properties of GFP-display, an electrophoretic analysis for single amino acid changes in target polypeptides. 1272 7

The most frequent genetic alteration in cancer is a mutation of p53. In most cases, this leads to a sharp increase of the p53 protein levels but abolishes p53's function as an activator of transcription. To correct this defect, wild-type p53 is being reintroduced into tumor cells through gene therapy vectors, thereby inducing cell death. However, this effect is not necessarily specific for tumor cells. Furthermore, mutant p53 in tumor cells trans-dominantly impairs the function of wild-type p53. As an approach to overcome these obstacles, we have developed an adaptor protein that reactivates mutant p53 rather than stimulating transcription on its own. The DNA binding and tetramerizing portions of the p53-homologue p73 were fused to the oligomerization domain of p53. This chimera binds to the DNA of p53-responsive promoters through the p73-derived portions, and it binds to mutant p53 by the p53-derived oligomerization domain. Through this one-hybrid system, mutant p53 is re-enabled to activate transcription. When the adaptor was expressed in tumor cells that contain mutant p53, expression of p53-responsive genes was activated, and growth was inhibited. No such effects were observed in cells that contain wild-type p53 or no p53 at all. When the adaptor was expressed through an adenovirus vector, tumor cells containing mutant p53 were specifically induced to undergo apoptosis. This strategy can turn mutant p53 into an inhibitor of tumor cell growth and might enable gene therapy to eliminate cancer cells with specificity.
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PMID:Reactivation of mutant p53 by a one-hybrid adaptor protein. 1287 82

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