Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphorylation is an attractive mechanism for regulating the functions of p53. The p34cdc2 kinase, which is involved in regulation of the cell cycle, phosphorylates serine-315 of human p53 in vitro. Casein kinase II phosphorylates serine-389 of mouse p53 in vitro. The amino-terminal region of mouse p53 contains a cluster of potential serine phosphorylation sites. Those sites have been proposed to be sites for phosphorylation by a double-stranded DNA-dependent kinase (DNA-PK) from HeLa cells and can be dephosphorylated by protein phosphatase 2A. To identify in vivo phosphorylation sites in the amino-terminal region of mouse p53, we mutated potential phosphorylation sites and analyzed the mutant proteins by tryptic phosphopeptide mapping. We identified serine-7, -9, -18, and -37 as in vivo phosphorylation sites. We further showed that mouse p53 expressed in bacteria is phosphorylated by DNA-PK on amino-terminal serine residues in vitro.
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PMID:Phosphorylation sites in the amino-terminal region of mouse p53. 158 57

Viral and cellular oncogene products sometimes activate protein kinases, are protein kinases themselves, or share phosphorylation sequence motifs for different protein kinases. We have recently shown that a protein kinase activity is tightly associated with immunopurified p53. We have now expressed p53 in a baculovirus expression system and characterized this protein kinase activity in more detail. We found that casein could compete with p53 in the kinase reaction. Heparin efficiently inhibited the p53 associated protein kinase whereas the polyamine spermidine stimulated enzymatic activity. A synthetic peptide which was shown to be specifically phosphorylated by casein kinase II blocked the in vitro phosphorylation of p53, whereas a synthetic peptide with a potential phosphorylation site on human p53 at ser 315 was ineffective in blocking the phosphorylation of p53. GTP as well as ATP can be used as a phosphate donor in the in vitro kinase reaction. An antibody directed against casein kinase II coprecipitated p53 from insect cells as well as from mammalian cells. These data strongly indicate that casein kinase II is associated with immunopurified p53 and contributes to the phosphorylation of p53. A mutant p53 with a ser 389 to ala exchange was not phosphorylated in vitro by the p53 associated protein kinase.
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PMID:Association of casein kinase II with immunopurified p53. 205 62

Immune complex kinase assays in the simian virus 40 system were performed by incubation of immunoprecipitates containing tumor antigens with [gamma-32P]ATP, followed by analysis of any phosphoacceptor proteins. These assays yielded mainly the viral large T-antigen and, in particular, the associated cellular p53 as endogenous substrates. The nature of these substrates was confirmed by proteolysis techniques. Under specific conditions, casein could be used as an exogenous substrate as well. The kinase reactions showed preference for ATP and MgCl2 instead of GTP or MnCl2. Both phosphoserine and phosphothreonine, but in no case phosphotyrosine, were detected after an immune complex kinase reaction. Apparently, several in vivo phosphorylation sites were recognized in vitro in both large T-antigen and p53, but the presence of some artifactual sites could not be completely excluded. Although contaminating kinases were detectable in the immune complexes, at least the p53 molecules were phosphorylated in vitro in a more specific way. This followed from several characteristics of the immune complex kinase reactions and especially from the strong inhibition of p53 phosphorylation by two anti-large-T monoclonal antibodies. It was shown that large T-antigen showed associated kinase activity, although none of our results could unambiguously demonstrate an intrinsic kinase activity of this protein. Finally, anti-p53 monoclonal antibodies only slightly affected in vitro phosphorylation reactions, whereas a p53 molecule from a simian virus 40-free, chemically transformed human cell line was not phosphorylated in vitro under any condition tested. Thus, it is highly unlikely that the p53 molecule per se carries intrinsic or even associated kinase activities.
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PMID:Protein kinase activities in immune complexes of simian virus 40 large T-antigen and transformation-associated cellular p53 protein. 632 55

The best understood function of p53 is that of cell growth suppression and this is likely to involve sequence-specific DNA binding and modulation of gene expression. Casein kinase II phosphorylates the C-terminal serine of p53 (residue 389 for murine p53) and mutation of this site abolishes p53 growth suppressor function. DNA binding by purified p53 is 'activated' by casein kinase II, suggesting that the carboxyl terminus of p53 represents a critical regulatory domain for sequence-specific DNA binding and hence for growth suppressor function. In the present study we have substituted serine 389 with either aspartic acid (mimics phosphoserine and partially conserves p53 suppressor function) or with alanine, a non-phosphorylable residue which abolishes suppressor function (Milne et al., 1992; Nucleic Acids Research 20, 5565-5570). When expressed in vitro p53ala389 and p53asp389 were both indistinguishable from wild type p53 on the basis of size fractionation and immunoreactivity with PAb421, PAb246 and PAb1620. Both mutants also exhibited specific binding for the DNA consensus p53-CON. Since p53ala389 retains the ability to bind DNA and yet is known to lack growth suppressor function we conclude that phosphorylation by casein kinase II is important for p53 growth suppressor function via a mechanism which is ancillary to p53 sequence-specific DNA binding.
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PMID:Specific DNA binding by p53 is independent of mutation at serine 389, the casein kinase II site. 808 15

Interaction of viral oncoproteins, such as SV40 large T, with cellular growth suppressor proteins Rb and p53 is presumed to inactive or modulate their growth suppression functions, thereby leading to transformation. An additional transformation-related activity of LT leads to hyperphosphorylation of p53. To search for kinases that might be responsible for this effect, p53-LT complexes were immunopurified from different SV40-transformed rat cell lines and assayed for associated kinase activities, in vitro. Protein kinase activity was readily observed in p53-LT immunecomplexes from wild-type transformed cells but was low or undetectable in p53 from mutant-transformed or normal cells. Optimal activity required the presence of Mn++. p53 was phosphorylated at all sites found in vivo. In contrast, LT was phosphorylated only at a subset of formerly identified sites and at additional sites not seen in vivo. The p53-LT-kinase complex was assayed for the presence of casein kinases, cdk like kinases, or DNA-activated kinase, using specific effectors, antibodies, or purified enzymes as tools. DNA-activated kinase or cdc2/cdk2 were not detectable, although the purified enzymes phosphorylated p53 in vitro. Casein kinase 2 represented the major activity, which on p53 phosphorylated not only the C-terminal Ser390 but also several sites in the N-terminal region. One additional activity, not identified so far, may represent an LT-induced or activated kinase. This kinase seems to enhance overall phosphorylation of p53 and, perhaps other substrates, and may thereby contribute to transformation.
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PMID:Characterization of protein kinase activities associated with p53-large-T immune complexes from SV40-transformed rat cells. 839 63

p21WAF1/CIP1 which belongs to a class of regulatory proteins that interact with cyclin dependent kinases is a potent inhibitor of these kinases. The inhibition of the cyclin dependent kinases induces an arrest of cells in the G phase of the cell cycle. In addition p21WAF1/CIP1 associates with PCNA and inhibits DNA replication. Here, we show that p21WAF1/CIP1 binds to the regulatory beta-subunit of protein kinase CK2 but not to the catalytic alpha-subunit. Binding of p21WAF1/CIP1 down regulates the kinase activity of CK2 with respect to the phosphorylation of the beta-subunit of CK2, casein and the C-terminus of p53. This study demonstrates a new binding partner for the regulatory beta-subunit of protein kinase CK2 which regulates the activity of the holoenzyme.
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PMID:p21WAF1/CIP1 interacts with protein kinase CK2. 871 Mar 78

Casein kinase I is a family of serine/threonine protein kinases common to all eukaryotes. In yeast, casein kinase I homologues have been linked to the regulation of growth, DNA repair and cell division. In addition, their subcellular localization to membraneous structures and the nucleus is essential for function. In higher eukaryotes, there exist seven genetically distinct isoforms: (alpha), ss, (gamma)1, (gamma)2, (gamma)3, (delta) and (epsilon). Casein kinase I(alpha) exhibits a cell cycle-dependent subcellular localization including an association with cytosolic vesicular structures and the nucleus during interphase, and the spindle during mitosis. casein kinase I has also been shown to modulate critical regulators of growth and DNA synthesis/repair in mammalian cells such as SV40 large T antigen and p53. These results suggest that casein kinase I may be involved in processes similar to those ascribed to the yeast casein kinase I homologues. To define a role for casein kinase I(alpha) in cell cycle regulation, the mouse oocyte was utilized because of its well-defined cell cycle and ease of micromanipulation. Immunofluorescence studies from meiosis I of maturation to the first zygotic cleavage demonstrated that the kinase was associated with structures similar to those previously reported. Microinjection of casein kinase I(alpha) antibodies at metaphase II-arrest and G2 phase, had no effect on the completion of second meiosis or first division. However, microinjection of these antibodies during the early pronucleate phase prior to S-phase onset blocked uptake of the kinase into pronuclei and interfered with proper and timely cell cycle progression to first cleavage. These results suggest that the kinase regulates the progression from interphase to mitosis during the first cell cycle.
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PMID:A casein kinase I isoform is required for proper cell cycle progression in the fertilized mouse oocyte. 936 78

Abundance and activity of p53 are predominantly regulated posttranslationally. Structural disturbance in transcribed genes induced by radiation, e.g. DNA damage, or by transcriptional inhibitors cause p53 protein stabilization by a yet unknown mechanism. Using stable and transient transfections for the analysis of p53 mutant proteins, we have ruled out a role in stabilization by UV, gamma irradiation or actinomycin C for the following putative phosphorylation sites in the p53 protein: serines 6, 9, 15, 33, 315 and 392, and threonine 18. By double mutation combinations of phosphorylations were also ruled out; 6,9; 15,18; 15,37. These mutations eliminate modifications by casein kinases I and II, DNA-PK, ATM, CDK and JNK. Also the 30 carboxyterminal amino acids are not required for induced p53 stabilization. Thus neither phosphorylations of individual amino acids nor interactions of the carboxyterminus of p53 with cellular macromolecules appear to play a role in the stabilization process. The only single prerequisite for induced stabilization of p53 is its prior destabilization by Mdm2. However, the level of active Mdm2 must be controlled carefully: overexpression of Mdm2 inhibits UV induced p53 stabilization.
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PMID:DNA damage induced p53 stabilization: no indication for an involvement of p53 phosphorylation. 1020 33

Mammary gland involution is characterized by extensive apoptosis of the epithelial cells. At the onset of involution, Stat3 is specifically activated. To address the function of this signaling molecule in mammary epithelial apoptosis, we have generated a conditional knockout of Stat3 using the Cre-lox recombination system. Following weaning, a decrease in apoptosis and a dramatic delay of involution occurred in Stat3 null mammary tissue. Involution is normally associated with a significant increase in IGFBP-5 levels. This was observed in control glands, but not in the absence of Stat3. IGFBP-5 has been suggested to induce apoptosis by sequestering IGF-1 to casein micelles, thereby inhibiting its survival function. Our findings suggest that IGFBP-5 is a direct or indirect target for Stat3 and its upregulation is essential to normal involution. No marked differences were seen in the regulation of Stat5, Bcl-x(L), or Bax in the absence of Stat3. Precocious activation of Stat1 and increases in levels of p53 and p21 occurred and may act as compensatory mechanisms for the eventual initiation of involution observed in Stat3 null mammary glands. This is the first demonstration of the importance of a Stat factor in signaling the initiation of physiological apoptosis in vivo.
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PMID:Suppression of epithelial apoptosis and delayed mammary gland involution in mice with a conditional knockout of Stat3. 1052 4

The tumour suppressor p53 protein integrates multiple signals regulating cell cycle progression and apoptosis. This regulation is mediated by several kinases that phosphorylate specific residues in the different functional domains of the p53 molecule. The human VRK1 protein is a new kinase related to a poxvirus kinase, and more distantly to the casein kinase 1 family. We have characterized the biochemical properties of human VRK1 from HeLa cells. VRK1 has a strong autophosphorylating activity in several Ser and Thr residues. VRK-1 phosphorylates acidic proteins, such as phosvitin and casein, and basic proteins such as histone 2b and myelin basic protein. Because some transcription factors are regulated by phosphorylation, we tested as substrates the N-transactivation domains of p53 and c-Jun fused to GST. Human c-Jun is not phosphorylated by VRK1. VRK1 phosphorylates murine p53 in threonine 18. This threonine is within the p53 hydrophobic loop (residues 13-23) required for the interaction of p53 with the cleft of its inhibitor mdm-2. The VRK1 C-terminus domain (residues 268-396) that contains a nuclear localization signal targets the protein to the nucleus, as determined by using fusion proteins with the green fluorescent protein. We conclude that VRK1 is an upstream regulator of p53 that belongs to a new signalling pathway.
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PMID:The human vaccinia-related kinase 1 (VRK1) phosphorylates threonine-18 within the mdm-2 binding site of the p53 tumour suppressor protein. 1095 72


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