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)

p202 is an interferon (IFN)-inducible, primarily nuclear, phosphoprotein (52-kDa) whose overexpression in transfected cells inhibits colony formation. p202 binds to the retinoblastoma tumor suppressor protein and two other members of the pocket family proteins (p107 and p130). Moreover, overexpression of p202 in transfected cells inhibits the transcriptional activity of E2Fs (E2F-1/DP-1 and E2F-4/DP-1), p53, AP-1 c-Fos and c-Jun, NF-kappaB p50 and p65. Here we demonstrate that inhibition of endogenous p202 production in murine AKR-2B fibroblasts did not result in an increase in cell proliferation. Instead, these cells exhibited increased susceptibility to apoptosis in response to decrease in serum concentrations in the growth medium. These observations are consistent with the notion that normal levels of p202 may be needed for the regulation of cell proliferation.
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PMID:p202 prevents apoptosis in murine AKR-2B fibroblasts. 964 35

The adenovirus type 5 (Ad5) early 1B 55-kDa protein (E1B-55kDa) is a multifunctional phosphoprotein that regulates viral DNA replication and nucleocytoplasmic RNA transport in lytically infected cells. In addition, E1B-55kDa provides functions required for complete oncogenic transformation of rodent cells in cooperation with the E1A proteins. Using the far-Western technique, we have isolated human genes encoding E1B-55kDa-associated proteins (E1B-APs). The E1B-AP5 gene encodes a novel nuclear RNA-binding protein of the heterogeneous nuclear ribonucleoprotein (hnRNP) family that is highly related to hnRNP-U/SAF-A. Immunoprecipitation experiments indicate that two distinct segments in the 55-kDa polypeptide which partly overlap regions responsible for p53 binding are required for complex formation with E1B-AP5 in Ad-infected cells and that this protein interaction is modulated by the adenovirus E4orf6 protein. Expression of E1B-AP5 efficiently interferes with Ad5 E1A/E1B-mediated transformation of primary rat cells. Furthermore, stable expression of E1B-AP5 in Ad-infected cells overcomes the E1B-dependent inhibition of cytoplasmic host mRNA accumulation. These data suggest that E1B-AP5 might play a role in RNA transport and that this function is modulated by E1B-55kDa in Ad-infected cells.
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PMID:E1B 55-kilodalton-associated protein: a cellular protein with RNA-binding activity implicated in nucleocytoplasmic transport of adenovirus and cellular mRNAs. 973 34

p202 is an IFN-inducible, primarily nuclear, phosphoprotein (52-kDa) whose constitutive overexpression in transfected cells inhibits colony formation. To investigate the molecular mechanism(s) by which expression of p202 protein impairs colony formation, we established stable cell lines that inducibly express p202. Using this cell model, we demonstrate that the induced expression of p202 in asynchronous cultures of these cells was accompanied by: (a) an increase in steady-state levels of p21(WAF1/CIP1/SDI1) (p21) mRNA and protein; (b) a decrease in Cdk2 protein kinase activity; and (c) an increase in the functional form of retinoblastoma protein (pRb). Transient transfection of a p202-encoding plasmid in Saos-2 cells, which do not harbor a wild-type p53 protein, resulted in an increase in p21 protein, which indicated that p202 could regulate expression of p21 protein independent of p53 protein. Moreover, we demonstrate that expression of p202 in these cells increased cell doubling time without accumulation of cells in a particular phase of the cell cycle. Taken together, these results are consistent with the possibility that p202 protein contributes to the cell growth retardation activity of the IFNs, at least in part, by modulating p21 protein levels.
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PMID:Retardation of cell proliferation after expression of p202 accompanies an increase in p21(WAF1/CIP1). 1007 3

In response to environmental stress, the p53 phosphoprotein is stabilized and activated to inhibit cell growth. p53 stability and activity are negatively regulated by the murine double minute (Mdm2) oncoprotein in an autoregulatory feedback loop. The inhibitory effect of Mdm2 on p53 has to be tightly regulated for proper p53 activity. Phosphorylation is an important level of p53 regulation. In response to DNA damage, p53 is phosphorylated at several N-terminal serines. In this study we examined the role of Ser20, a potential phosphorylation site in human p53, in the regulation of p53 stability and function. Substitution of Ser20 by Ala (p53-Ala20) significantly increases the susceptibility of human p53 to negative regulation by Mdm2 in vivo, as measured by apoptosis and transcription activation assays. Mutation of Ser20 to Ala renders p53 less stable and more prone to Mdm2-mediated degradation. While the in vitro binding of p53 to Mdm2 is not increased by the Ala20 mutation, the same mutation results in a markedly enhanced binding in vivo. This is consistent with the conclusion that phosphorylation of Ser20 in vivo attenuates the binding of wild-type p53 to Mdm2. Peptides bearing non-phosphorylated Ser20 or Ala20 compete with p53 for Mdm2 binding, while a similar peptide with phosphorylated Ser20 does not. This implies a critical role for Ser20 in modulating the negative regulation of p53 by Mdm2, probably through phosphorylation-dependent inhibition of p53-Mdm2 interaction.
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PMID:Critical role for Ser20 of human p53 in the negative regulation of p53 by Mdm2. 1020 44

The p53 tumor suppressor gene, which is considered the guardian of the genome, encodes a phosphoprotein, which is a sequence-specific transcriptional activator or repressor of target genes. The role of p53 in developmental processes has not been studied extensively, although its expression appears to undergo temporal and spatial changes during prenatal and postnatal development. In the present study, we assessed the levels of p53 mRNA and protein in the developing rat brain and its relation to developmental cell death. Furthermore, we investigated the potential role of n-methyl-d-aspartate (NMDA) receptors in regulating p53 expression, since these receptors are involved in the control of cell death. We found that p53 mRNA and protein were detectable in the rat brain throughout perinatal development. In embryos, p53 immunoreactivity was mainly localized in the nuclei of neuroepithelial cells, with a maximum in staining at embryonic day (E)12. In the neuroepithelium, we also found significant numbers of TdT-mediated dUTP nick end labeling (TUNEL)-positive cells, both in dividing periventricular cells and in migrating neurons. In neonates, immediately after birth there was a reduction in the number of apoptotic cells, which then increased to reach a maximum at postnatal day (P)5. Postnatally, apoptotic as well as p53-positive cells were detected in most brain areas. P53 immunoreactivity was also highest on P5. In most cells, p53 immunoreactivity and the TUNEL signal colocalized. P53 immunoreactivity as well as the number of TUNEL- positive cells were dramatically decreased in the brains of newborns treated with MK-801, an NMDA receptor antagonist. Our results show that p53 is involved in the control of developmental cell death, and that NMDA receptors play a regulatory role in the expression of the p53 gene, and thus in apoptosis occurring in the developing rat brain.
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PMID:p53 expression and regulation by NMDA receptors in the developing rat brain. 1034 Jul 50

The tumor suppressor protein p53 is a phosphoprotein and has growth and transformation suppression functions. Phosphorylation of wild-type p53 is known to modulate its function. To investigate the role of phosphorylation in modulating the functions of mutant p53, we constructed a series of phosphorylation site mutants based on mutant p53 Ala143 (p53-143) and p53 His175 (p53-175). When transfected into p53-negative Saos-2 cells, parental mutant p53-143 and p53-175 abolished both growth suppression and induction of apoptosis. However, DNA-activated protein kinase (DNA-PK) or cyclin-dependent kinase (cdks) phosphorylation site double mutants partially restored the growth suppression and induction of apoptosis and recovered the p53-specific DNA binding activity. We also observed a difference in sensitivity to calpain from parental mutants p53-175 and p53-175/15 or p53-175/315. These results suggest that the lack of phosphorylation at either the DNA-PK or cdks site in p53 mutants partially restores the wild-type functions by altering their conformation.
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PMID:Inhibition of mutant p53 phosphorylation at serine 15 or serine 315 partially restores the function of wild-type p53. 1042 75

Intratumoral thymidylate synthase (TS) expression and M(r) 53,000 phosphoprotein (p53) overexpression were studied immunohistochemically in sections from stored paraffin-embedded primary colorectal cancers in 70 patients who had undergone surgery during the years 1987-1990. These cancers were classified according to Dukes' stage A-D, using monoclonal antibodies TS 106 and DO-7. In patients with Dukes' stage A-C tumors, univariate analyses showed that there was a significant correlation (P = 0.048) between disease-free survival and TS expression and between TS expression and time to death with colorectal cancer (P = 0.038). In patients with Dukes' stage A-D tumors, overall survival was correlated to TS expression (P = 0.015), Dukes' stage (P < 0.001), and level of tumor differentiation (P = 0.044) but not to p53 overexpression. Patients with low intratumoral TS expression survived significantly longer than patients with high expression. Cox multivariate analysis showed that Dukes' stage (P < 0.001) and TS expression (P = 0.043) could independently serve as prognostic factors for time to death with colorectal cancer in patients with Dukes' stage A-D tumors.
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PMID:Immunohistochemically detected thymidylate synthase in colorectal cancer: an independent prognostic factor of survival. 1069 May 28

Mdm2 is a phosphoprotein that interacts with protein p53, inhibiting its activity. A serine located in position 17 of Mdm2, has been implicated in its phosphorylation process. We hypothesize that point mutations at serine 17 could block its phosphorylation and thereby increase the p53-Mdm2 interaction. This mechanism could increase the p53 degradation and cause a loss of the protective effect of p53 against tumorigenesis. This hypothesis was based on recent studies in vitro, demonstrating that when serine 17 is mutated, the DNA-dependent protein kinase, activated by genomic damage, is unable to phosphorylate it. Thus, we investigated whether structural point mutations at exon 3 of the Mdm2 gene, affecting codon 17, were present in 162 human primary tumors, 70 breast carcinomas, 14 bladder tumors, 18 colon adenocarcinomas and 60 testicular tumors. Direct sequencing of a fragment (204 bp) of exon 3 of the Mdm2 gene that contains the codon 17 showed no mutations at this position, independently of the presence or absence of p53 gene mutations in the same tumors. These results do not support the hypothesis that mutations in the Mdm2 gene at this level are involved in the tumorigenic process of human cancers.
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PMID:Absence of point mutations at codon 17 of the mdm2 gene (serine 17) in human primary tumors. 1075 33

p53 protein is a nuclear 53-kDa phosphoprotein that acts as a suppressor protein. There are several studies on the expression of p53 in skin tumors, but few deal with adnexal malignant tumors because of their rarity. We performed immunohistochemistry for the detection of p53 and Ki-67 in two cases of malignant spiradenomas and six cases of spiradenomas retrieved from our files. In our cases, p53 was expressed only in the malignant areas of the lesions, whereas the benign areas of the spiradenocarcinomas and all the spiradenomas were negative (nuclear positivity <10%). These results seem to support the idea that p53 is implicated in the malignant transformation of adnexal tumors.
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PMID:p53 expression in two cases of spiradenocarcinomas. 1077 Apr 28

The high risk human papillomaviruses (HPVs) are associated with carcinomas of cervix and other genital tumors. Previous studies have identified two viral oncoproteins E6 and E7, which are expressed in the majority of HPV-associated carcinomas. The ability of high risk HPV E6 protein to immortalize human mammary epithelial cells has provided a single gene model to study the mechanisms of E6-induced oncogenic transformation. In recent years, it has become clear that in addition to E6-induced degradation of p53 tumor suppressor protein, other targets of E6 are required for mammary epithelial cells immortalization. Using the yeast two-hybrid system, we have identified a novel interaction of HPV16 E6 with protein kinase PKN, a fatty acid- and Rho small G protein-activated serine/threonine kinase with a catalytic domain highly homologous to protein kinase C. We demonstrate direct binding of high risk HPV E6 proteins to PKN in wheat-germ lysate in vitro and in 293T cells in vivo. Importantly, E6 proteins of high risk HPVs but not low risk HPVs were able to bind PKN. Furthermore, all the immortalization-competent and many immortalization-non-competent E6 mutants bind PKN. These data suggest that binding to PKN may be required but not sufficient for immortalizing normal mammary epithelial cells. Finally, we show that PKN phosphorylates E6, demonstrating for the first time that HPV E6 is a phosphoprotein. Our finding suggests a novel link between HPV E6 mediated oncogenesis and regulation of a well known phosphorylation cascade.
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PMID:PKN binds and phosphorylates human papillomavirus E6 oncoprotein. 1080 24

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