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)

Simian virus 40 (SV40) large-T antigen and the cellular protein p53 were phosphorylated in vivo by growing cells in the presence of 32Pi. The large-T/p53 complex was isolated by immunoprecipitation and used as a substrate for protein phosphatase 2A (PP2A) consisting of the catalytic subunit (C) and the two regulatory subunits, A and B. Three different purified forms of PP2A, including free C, the AC form, and the ABC form, could readily dephosphorylate both proteins. With both large-T and p53, the C subunit was most active, followed by the AC form, which was more active than the ABC form. The activity of all three forms of PP2A toward these proteins was strongly stimulated by manganese ions and to a lesser extent by magnesium ions. The presence of complexed p53 did not affect the dephosphorylation of large-T antigen by PP2A. The dephosphorylation of individual phosphorylation sites of large-T and p53 were determined by two-dimensional peptide mapping. Individual sites within large-T and p53 were dephosphorylated at different rates by all three forms of PP2A. The phosphates at Ser-120 and Ser-123 of large-T, which affect binding to the origin of SV40 DNA, were removed most rapidly. Three of the six major phosphopeptides of p53 were readily dephosphorylated, while the remaining three were relatively resistant to PP2A. Dephosphorylation of most of the sites in large-T and p53 by the AC form was inhibited by SV40 small-t antigen. The inhibition was most apparent for those sites which were preferentially dephosphorylated. Inhibition was specific for the AC form; no effect was observed on the dephosphorylation of either protein by the free C subunit or the ABC form. The inhibitory effect of small-t on dephosphorylation by PP2A could explain its role in transformation.
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PMID:Dephosphorylation of simian virus 40 large-T antigen and p53 protein by protein phosphatase 2A: inhibition by small-t antigen. 184 68

Malignant cells of the mouse transformed by a variety of different agents have been found to express high levels of a 53,000 Mr phosphoprotein (designated p53). Little or no p53 can be detected in normal mouse cells. The nucleus appears to be the predominant site of p53 localization in transformed cells. p53-related antigens are also found in transformed cells of rat, hamster, rabbit, and human. In cells transformed by simian virus 40 (SV40), p53 forms a complex with SV40 tumor (t) antigen, resulting in the coprecipitation of T antigen by monoclonal p53 antibodies. Immune complexes of p53 precipitated from extracts of SV40- or methylcholanthrene-transformed cells by monoclonal p53 antibodies have protein kinase activity. This enzymatic activity is dependent upon divalent cations, utilizing Mn2+ more effectively than Mg2+. The phosphorylation of p53 in this kinase reaction has been found to involve serine and threonine, but not tyrosine residues. In view of the finding that the transforming proteins of several different oncogenic viruses have kinase activity, the association of this activity with p53 is important with regard to the possibility of a common pathway of transformation by diverse agents.
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PMID:p53 transformation-related protein: detection of an associated phosphotransferase activity. 626 26

IL-7 was identified originally as a specific pre-B cell growth factor. We have investigated its signal transduction mechanism by using the human pre-B cell line Nalm-6, and have found that it stimulates tyrosine phosphorylation of various proteins: pp27, pp43, pp54, pp64, pp78, pp90, pp105, and pp120. Antiphosphotyrosine immunoprecipitates from IL-7-stimulated Nalm-6 showed two major proteins of M(r) = 60,000 and 55,000, capable of autophosphorylation. Autophosphorylation was maximal 10 min after the cells were challenged with the cytokine. Antiphosphotyrosine immunoprecipitates from IL-7-stimulated cells also increased tyrosine phosphorylation of the exogenously added substrate histone H2B. Furthermore, by using a polyclonal anti-IL-7 receptor (IL-7R) Ab in Western blotting analysis, we observed that antiphosphotyrosine immunoprecipitates were associated with the IL-7R in a transient manner. These data indicate that the IL-7R associates with tyrosine-phosphorylated proteins as its amino acid sequence is devoid of a putative site of tyrosine phosphorylation. These results were confirmed as several 32P-labeled proteins were visualized after immunoprecipitation by using anti-IL-7R Ab. Anti-IL-7R immunoprecipitates from IL-7-stimulated cells revealed a unique band of M(r) = 60,000 associated with the receptor able to autophosphorylate in the presence of ATP and Mn2+. Hence, we identified p59fyn and p53/56lyn to be stimulated by IL-7. In contrast to p53/56lyn, p59fyn was found to be associated constitutively with the cloned IL-7R. These data emphasize the role of the src family in hematopoiesis.
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PMID:Activation of src family kinases in human pre-B cells by IL-7. 751 33

We have discovered that the ability of the tumor suppressor protein p53 to bind to the viral large T antigen (TAg) oncogene product is regulated by divalent cations. Both proteins were purified from an insect cell line infected with the appropriate baculovirus expression vector. In a two-site capture enzyme-linked immunosorbent assay, complex formation between the purified proteins is strictly dependent on the addition of specific concentrations of divalent metal ions, notably zinc, copper, cadmium, cobalt, manganese, and nickel. In the presence of zinc the pattern of proteolytic fragments obtained when TAg was subjected to proteolysis by endoproteinase Glu-C (V8) was strikingly different, supporting the idea that a conformational change in TAg associated with ion binding is required for it to complex with p53. Monoclonal antibody analysis provides supporting evidence for a conformational change. When TAg was captured onto an enzyme-linked immunosorbent assay plate coated with PAb 419 as opposed to many other anti-TAg antibodies, complex formation was completely independent of the presence of additional divalent cations. Our results suggest that the ability of p53 and TAg to form a stable complex in vitro is dependent upon a regulatory domain residing in the N terminus of TAg, zinc ions or the binding of a specific monoclonal antibody (PAb 419) provoking a conformational change in TAg that facilitates and supports complex formation.
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PMID:Modification of an N-terminal regulatory domain of T antigen restores p53-T antigen complex formation in the absence of an essential metal ion cofactor. 861 69

Tumor necrosis factor (TNF) stimulates generation of reactive oxygen intermediates, secretion of granule constituents, and rearrangement of the cytoskeleton in neutrophils (PMN); this response requires that PMN be adherent to plasma or extracellular matrix proteins, and is dependent on beta 2 integrins. Tyrosine phosphorylation of distinct proteins [Fuortes et al., J Cell Biol 120:777-784, 1993] and activation of the protein tyrosine kinase p58c-fgr [Berton et al., J Cell Biol 126:1111-1121, 1994] were recently recognized as signals involved in beta 2 integrin-dependent responses of TNF-treated PMN. As the integrin capability to bind their ligands is regulated by divalent cations we investigated whether modulation of PMN adhesion to fibrinogen by divalent cations also affected activation of protein tyrosine kinases. In the absence of divalent cations or in the presence of Ca2+ alone, PMN did not adhere to fibrinogen in response to TNF. However, Mg2+, either alone or together with Ca2+, promoted stimulated adhesion to fibrinogen. We also found that Mn2+ promoted PMN adhesion to fibrinogen without additional stimuli. Analysis of the activity of two src family tyrosine kinases, p58c-fgr and p53/56lyn, showed that their autophosphorylating kinase activity strictly correlated with adhesion. In fact, only in the presence of Mg2+, but not in the absence of divalent cations or in the presence of Ca2+ alone, TNF increased p58c-fgr and p53/56lyn kinase activities; and this was prevented by anti-CD18 antibodies. In addition, Mn2+ strongly promoted activation of p58c-fgr and p53/56lyn without additional stimuli. Analysis of tyrosine phosphorylated proteins with anti-phosphotyrosine immunoblots showed that divalent cations regulated adhesion and protein tyrosine phosphorylation in the same fashion. Detergent extraction of proteins showed that the Mg(2+)-dependent, TNF-stimulated adhesion redistributed p58c-fgr and p53/56lyn to a Triton-insoluble fraction. In addition, analysis of p58c-fgr activity allowed us to demonstrate that the fraction of p58c-fgr which became Triton-insoluble displayed a higher kinase activity. These findings establish that PMN adhesion signals for activation of two different src family tyrosine kinases. The evidence that Mn2+, a strong promoter of integrin function, induces adhesion and activation of tyrosine kinases without additional stimuli suggest the existence of a direct link between beta 2 integrins binding to fibrinogen and activation of tyrosine kinases in neutrophils.
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PMID:Activation of p58c-fgr and p53/56lyn in adherent human neutrophils: evidence for a role of divalent cations in regulating neutrophil adhesion and protein tyrosine kinase activities. 886 73

Src family kinases are implicated in signaling by integrins in polymorphonuclear neutrophils (PMN). To identify proteins present in complexes with Src family kinases, we subjected p58(c-fgr) or p53/56(lyn) immunoprecipitates from Triton X-100 lysates of PMN incubated on fibrinogen-coated surfaces to in vitro kinase assays. Assays on p58(c-fgr) or p53/56(lyn) immunoprecipitates from Triton lysates of PMN induced to spread over fibrinogen in response to TNF-alpha showed that several proteins form complexes with Src family kinases and can be phosphorylated in vitro. Immunoblot analysis showed that the p72(syk) tyrosine kinase is one of these proteins. Formation of protein complexes containing Src family kinases and p72(syk) required PMN spreading because p72(syk) was not detected in p58(c-fgr) or p53/56(lyn) immunoprecipitates from PMN, which were stimulated with TNF-alpha, in suspension. In addition, induction of PMN spreading with Mn2+ in the absence of TNF-alpha promoted the formation of protein complexes containing Src family kinases and p72(syk). We also found that p72(syk)-autophosphorylating kinase activity was enhanced, and a fraction of p72(syk) was translocated to a Triton-insoluble cytoskeletal fraction in PMN induced to spread over fibrinogen by TNF-alpha or Mn2+. In vitro kinase assays on CD18 (beta 2 integrin subunit) immunoprecipitates from Triton lysates of spread PMN showed that several proteins formed complexes with CD18 and could be phosphorylated in vitro. Immunoblot analysis of CD18 immunoprecipitates allowed us to identify p72(syk) as one of these proteins. These findings show that PMN spreading is accompanied by activation of p72(syk) and formation of multimolecular complexes in which Src family kinases and p72(syk) colocalize.
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PMID:Signaling by adhesion in human neutrophils: activation of the p72syk tyrosine kinase and formation of protein complexes containing p72syk and Src family kinases in neutrophils spreading over fibrinogen. 902 32

The p53 tumor suppressor protein is activated and phosphorylated on serine-15 in response to various DNA damaging agents. The gene product mutated in ataxia telangiectasia, ATM, acts upstream of p53 in a signal transduction pathway initiated by ionizing radiation. Immunoprecipitated ATM had intrinsic protein kinase activity and phosphorylated p53 on serine-15 in a manganese-dependent manner. Ionizing radiation, but not ultraviolet radiation, rapidly enhanced this p53-directed kinase activity of endogenous ATM. These observations, along with the fact that phosphorylation of p53 on serine-15 in response to ionizing radiation is reduced in ataxia telangiectasia cells, suggest that ATM is a protein kinase that phosphorylates p53 in vivo.
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PMID:Activation of the ATM kinase by ionizing radiation and phosphorylation of p53. 973 15

ATM is mutated in the human genetic disorder ataxia telangiectasia, which is characterized by ataxia, immune defects, and cancer predisposition. Cells that lack ATM exhibit delayed up-regulation of p53 in response to ionizing radiation. Serine 15 of p53 is phosphorylated in vivo in response to ionizing radiation, and antibodies to ATM immunoprecipitate a protein kinase activity that, in the presence of manganese, phosphorylates p53 at serine 15. Immunoprecipitates of ATM also phosphorylate PHAS-I in a manganese-dependent manner. Here we have purified ATM from human cells using nine chromatographic steps. Highly purified ATM phosphorylated PHAS-I, the 32-kDa subunit of RPA, serine 15 of p53, and Chk2 in vitro. The majority of the ATM phosphorylation sites in Chk2 were located in the amino-terminal 57 amino acids. In each case, phosphorylation was strictly dependent on manganese. ATM protein kinase activity was inhibited by wortmannin with an IC(50) of approximately 100 nM. Phosphorylation of RPA, but not p53, Chk2, or PHAS-I, was stimulated by DNA. The related protein, DNA-dependent protein kinase catalytic subunit, also phosphorylated PHAS-I, RPA, and Chk2 in the presence of manganese, suggesting that the requirement for manganese is a characteristic of this class of enzyme.
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PMID:Purification and characterization of ATM from human placenta. A manganese-dependent, wortmannin-sensitive serine/threonine protein kinase. 1071 94

The vaccinia-related kinase 1 (VRK1) protein is a nuclear Ser-Thr kinase that phosphorylates p53 in Thr18. We have determined the enzyme properties regarding its different substrates. VRK1 has a high affinity for ATP (K(m) 50 microM) and is thus saturated by the intracellular concentration of ATP in vivo. VRK1 uses preferentially magnesium, but is also functional with manganese and zinc. The VRK1 protein is autophosphorylated in multiple residues without effect on its activity. One autophosphorylated residue, T355, is within the VRK1 regulatory carboxy terminus. The kinase phosphorylates p53 with a K(m) of 1 microM and is well suited to respond to the variations of intracellular p53 concentration, which fluctuates as a response to different types of cellular stress.
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PMID:Kinetic properties of p53 phosphorylation by the human vaccinia-related kinase 1. 1188 97

Oxidative damage to DNA is thought to play a significant role in mutagenesis, aging, and cancer. Sensitivity to oxidative DNA damage and DNA repair efficiency were examined using a series of human breast epithelial cell lines-MCF-10A, MCF-10AT, and MCF-10ATG3B-with progressively elevated Ras protein. Breast epithelial cells were treated with H2O2, in the absence and presence of the DNA-repair inhibitors hydroxyurea (HU) and cytosine arabinoside (Ara-C). DNA strand breaks were assessed by the mean olive tail moment (microm) using the alkaline single-cell gel electrophoresis (Comet) assay. In untreated cells, the mean olive tail moment values were 4.3 +/- 0.7, 8.3 +/- 1.1, and 7.1 +/- 0.6 microm in the MCF-10A, MCF-10AT, and MCF-10ATG3B cells, respectively. Five min H2O2 treatment produced concentration-dependent DNA damage, with the MCF-10A cells most susceptible and the tumorigenic MCF-10ATG3B cells the least susceptible. Treatment with 100 microM H2O2 resulted in approximately 17-, 6-, and 4.5-fold increases in mean olive tail moment values in the MCF-10A, MCF-10AT, and MCF-10ATG3B cells, respectively, compared to untreated cells. The HCC1937 tumor cell line responded in a manner comparable to the MCF-10ATG3B cells treated with H2O2, HU/Ara-C pre-treatment resulted in a approximately 1.5-fold increase in olive tail moment values in all three cell lines. Protein levels of antioxidant enzymes, including catalase, copper/zinc superoxide dismutase (Cu/Zn SOD), and manganese SOD (MnSOD) were determined in order to examine a potential mechanism for increased resistance to H2O2-mediated DNA damage. Levels of these enzymes increased progressively, with highest expression in MCF-10ATG3B cells. Increased cellular resistance also coincided with marked decreases in p53 protein levels. These results demonstrate that, in this cell lineage, sensitivity to oxidative DNA damage by H2O2 decreases with tumorigenicity (i.e., MCF-10A vs. MCF-10ATG3B), and show that DNA repair, altered Ras, and p53 expression, or compensatory mechanisms involving elevated antioxidant enzymes are involved in mediating these effects.
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PMID:Oxidative DNA damage and repair in a cell lineage model of human proliferative breast disease (PBD). 1280 49

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