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)

The anti-tumour alkaloid taxol shows strong cytotoxic and antiproliferative activity in two human malignant glioma cell lines, T98G and LN-229. CD95 (Fas/APO-1) ligand is a novel cytotoxic cytokine of the tumour necrosis factor (TNF) family that exerts prominent antiglioma activity. At clinically relevant taxol concentrations of 5-100 nM, taxol and CD95 ligand showed significant synergistic cytotoxicity and growth inhibition. High concentrations of taxol induced G/M cell cycle arrest in both cell lines. The synergy of taxol and CD95 ligand was independent of cell cycle effects of taxol as synergy was achieved at much lower taxol concentrations than G2/M arrest and as cell cycle effects of taxol were unaffected by co-exposure to CD95 ligand. Similarly, high concentrations of taxol were required to induce p53 activity in the p53 wild-type cell line LN-229. This effect was not modulated by CD95 ligand, suggesting that synergy is also independent of p53 activation. However, taxol induced a mobility shift of the bcl-2 protein on immunoblot analysis, indicative of bcl-2 phosphorylation. Bcl-2 phosphorylation on serine was confirmed by immunoprecipitation and phosphoserine immunoblot analysis. Considering (1) that phosphorylation of bcl-2 interferes with its heterodimerization with bax and (2) the inhibition of CD95-mediated apoptosis by bcl-2, we propose that taxol sensitizes malignant glioma cells to CD95 ligand by increasing the functional bax/bcl-2 rheostat in favour of bax and thus cell death.
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PMID:Taxol-mediated augmentation of CD95 ligand-induced apoptosis of human malignant glioma cells: association with bcl-2 phosphorylation but neither activation of p53 nor G2/M cell cycle arrest. 947 35

Hoechst 33342, a bisbenzimidazole dye, binds to adenine/thymine rich regions in the minor groove of deoxyribonucleic acid (DNA). This dye induces apoptosis in BC3H-1 myocytes. The mechanism of Hoechst 33342-induced apoptosis was investigated. Inhibitors of ribonucleic acid (RNA) synthesis, protein synthesis, and serine or cysteine proteases failed to prevent BC3H-1 myocyte death induced by Hoechst 33342. Apoptosis may be dependent on increased p53 expression. Hoechst 33342 had no effect on p53 expression in BC3H-1 myocytes. Lactate oxidation, a monitor of mitochondrial function, was altered by Hoechst 33342 in dose dependent manner. Also, nuclear extracts were used to assay endogenous topoisomerase I activity which was inhibited by Hoechst 33342 treatment of BC3H-1 myocytes. Therefore, Hoechst 33342 appears to initiate apoptosis in BC3H-1 myocytes by a pathway which is independent of de novo RNA and protein synthesis. However, the dye does initiate mitochondrial dysfunction and inhibition of nuclear topoisomerase I as two important steps in the apoptotic pathway.
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PMID:Mechanism of Hoechst 33342-induced apoptosis in BC3H-1 myocytes. 955 49

The C-terminal of p53 (amino-acids 368-383) represses the DNA binding activity of p53. In vitro, phosphorylation of this region by Protein Kinase C (PKC) is associated with increased DNA binding activity. However, whether PKC can directly modulate p53 function in vivo is not known. Here, we demonstrate that cotransfection of p53 with either PKC alpha or PKC zeta increases p53's transcriptional activity. Mutagenesis of p53 indicates that serine 371 is the major site for phosphorylation by PKC alpha in vitro. Mutation of serine 371 caused a small decline in p53 activation by PKC alpha and PKC zeta. However, the alternatively spliced murine p53, which lacks the PKC phosphorylation sites, still demonstrated increased transcriptional activation when cotransfected with either PKC alpha or PKC zeta. The results indicate that phosphorylation of p53 by PKC in vitro does not correlate with the ability of PKC to upregulate p53's transcriptional activity in vivo.
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PMID:Regulation of the p53 protein by protein kinase C alpha and protein kinase C zeta. 957 Nov 86

Understanding how alterations in growth control pathways are translated into changes in the cell cycle regulatory machinery is a major challenge for understanding the development of human cancers. The ability of both tumor suppressor proteins, p53 and BRCA1, to induce the expression of p21(WAF1/Cip1) in combination with the inhibitory activity of p21(WAF1/Cip1) against cyclin-dependent kinases suggests that the regulation of p21(WAF1/Cip1) expression is an important aspect of mammalian cell cycle growth control. To elucidate the role of serine/threonine protein phosphatase type 5 (PP5) in processes regulating cell cycle progression, we developed antisense oligodeoxynucleotides targeted against PP5 (e.g. ISIS 15534) that specifically inhibit PP5 gene expression. Employing ISIS 15534, we demonstrate that the specific inhibition of PP5 gene expression has a marked antiproliferative effect on cells, characterized by induction of p21(WAF1/Cip1) and the subsequent arrest of cell growth. Investigations into the mechanisms leading to growth arrest reveal that, in the absence of PP5, the expression of p21(WAF1/Cip1) is induced in p53-competent A549 cells but not in p53 protein-deficient T-24 cells. Employing a stable cell line derived from p53-deficient human fibroblast that contains tetracycline-regulated transactivator and operator plasmids to control the expression of wild-type p53 (TR9-7 cells), we then show that the induction of p21(WAF1/Cip1), which occurs in response to the inhibition of PP5 expression, requires the p53 protein. Additional studies indicate that PP5 acts upstream of p53, influencing both the phosphorylation state and the ability of p53 to bind DNA, without causing an increase in p53 gene transcription. Together these studies suggest that PP5 is a regulatory component of a signaling pathway that affords replicating cells G1 checkpoint growth control and that it is the regulation of PP5 that, in turn, controls p53-mediated expression of p21(WAF1/Cip1) and growth arrest in this pathway. In addition, since the inhibition of PP5 gene expression has marked antiproliferative activity and the overexpression of p21(WAF1/Cip1) blocks the growth of tumor cells, these studies suggest that compounds that inhibit of PP5 gene expression may be useful in the treatment of human cancers.
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PMID:Serine/threonine protein phosphatase type 5 acts upstream of p53 to regulate the induction of p21(WAF1/Cip1) and mediate growth arrest. 957 75

Polyclonal antibodies were produced and purified that selectively react with a p53 epitope containing the murine phosphoserine-389 or the human phosphoserine-392 residue, but not the unphosphorylated epitope. These antibodies, termed alpha-392, were employed to demonstrate that the phosphorylation of this serine-389 residue in the p53 protein occurs in vivo in response to ultraviolet radiation of cells containing the p53 protein. After ultraviolet radiation of cells in culture, p53 levels increase and concomitantly serine-389 is phosphorylated in these cells. By contrast, the serine-389 phosphorylation of the p53 protein was not detected by these antibodies in the increased levels of p53 protein made in response to gamma radiation or the treatment of cells with etoposide. These results demonstrate an ultraviolet responsive and specific phosphorylation site at serine-389 of the mouse or serine-392 of the human p53 protein. Previous studies have demonstrated that this phosphorylation of p53 activates the protein for specific DNA binding. This study demonstrates in vivo a unique phosphorylation site in the p53 protein that responds to a specific type of DNA damage.
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PMID:Ultraviolet radiation, but not gamma radiation or etoposide-induced DNA damage, results in the phosphorylation of the murine p53 protein at serine-389. 960 Sep 77

Organ and cell cultures of the small intestine serve as excellent in vitro models for programmed cell death (PCD). Cells cultured in serum-free, minimal medium rapidly died, as evidenced by histological changes, internucleosomal DNA cleavage, and TdT-mediated dUTP nick end labeling. Cell death was pervasive, although nonepithelial cells within the fibrovascular villus core were spared. PCD did not require a functional p53 gene. Serine and cysteine protease inhibitors, but not FCS, suppressed it. Relative to structural and functional proteins, dying enterocytes rapidly downregulated Ras-convergent proteins, including epidermal growth factor receptor, Erb-B2, and the son of sevenless guanine nucleotide exchangers. Reductions in the steady-state levels of both protein and mRNA were observed. These reductions were prevented by a combination of death-defying serine and caspase inhibitors, indicating a requirement for the initiation of death. Thus, during catastrophic PCD, intestinal epithelial cells delete cell surface signaling pathways responsible for Ras activation.
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PMID:Dying enterocytes downregulate signaling pathways converging on Ras: rescue by protease inhibition. 961 24

Src kinases and protein kinase C (PKC) have been well studied for their role in oncogenic and normal cellular processes. Herein we report on a novel regulatory pathway mediated by the interaction of PKC-delta with p53/56Lsy (Lyn) and with p60Src (Src) that results in the phosphorylation and increased activity of Lyn and Src. In the RBL-2H3 mast cell line, the interaction of PKC-delta with Lyn required the activation of the high affinity receptor for IgE (FcsigmaRI) while the interaction with Src was constitutive. Increased complex formation of PKC-delta with Lyn or Src led to increased serine phosphorylation and activity of the Src family kinases. Conversely, Lyn was found to phosphorylate Lyn-associated and recombinant PKC-delta in vitro and the tyrosine 52 phosphorylated PKC-delta was recruited to associate with the Lyn SH2 domain. The constitutive association of PKC-delta with Src did not result in the tyrosine phosphorylation of PKC-delta prior to or after FsigmaRI engagement. However in cells over-expressing PKC-delta, FsigmaRI engagement resulted in the dramatic inhibition of Src activity and some inhibition of Lyn activity. Thus, the interaction and cross-talk of PKC-delta with Src family kinases suggests a novel and inter-dependent mechanism for regulation of enzymatic activity that may serve an important role in cellular responses.
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PMID:Tyrosine phosphorylation-dependent and -independent associations of protein kinase C-delta with Src family kinases in the RBL-2H3 mast cell line: regulation of Src family kinase activity by protein kinase C-delta. 969 43

The ATM protein, encoded by the gene responsible for the human genetic disorder ataxia telangiectasia (A-T), regulates several cellular responses to DNA breaks. ATM shares a phosphoinositide 3-kinase-related domain with several proteins, some of them protein kinases. A wortmannin-sensitive protein kinase activity was associated with endogenous or recombinant ATM and was abolished by structural ATM mutations. In vitro substrates included the translation repressor PHAS-I and the p53 protein. ATM phosphorylated p53 in vitro on a single residue, serine-15, which is phosphorylated in vivo in response to DNA damage. This activity was markedly enhanced within minutes after treatment of cells with a radiomimetic drug; the total amount of ATM remained unchanged. Various damage-induced responses may be activated by enhancement of the protein kinase activity of ATM.
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PMID:Enhanced phosphorylation of p53 by ATM in response to DNA damage. 973 14

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

The sequence-specific DNA binding activity of p53 is negatively regulated by a C-terminal domain whose phosphorylation in vitro can activate the latent DNA binding function of the protein. The DNA binding activity of p53 is a core component of its stress-activated transcription function, yet it is not yet clear whether phosphorylation within the C-terminal domain plays a role in the p53 damage response in vivo. As the casein kinase 2 (CK2) site at serine 392 is the C-terminal phosphorylation motif that exhibits the most pronounced conservation at the primary amino acid level, we have focused on determining whether the CK2 site is modified in vivo and whether radiation effects the extent of that phosphorylation. Using antibodies that can detect serine 392-phosphorylation of p53, we demonstrate that UV radiation can trigger extensive phosphorylation at the CK2 site. The CK2 inhibitor, 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB), can partially inhibit the UV-induced phosphorylation at serine 392, suggesting that CK2 is one of the major serine 392-kinases. However, a striking increase in UV-induced serine 392 phosphorylation and p53 transactivation function at higher levels of DRB suggests that a DRB-resistant/stress-activated pathway may target serine 392 in vivo. These data demonstrate that radiation-induced phosphorylation of p53 can occur in vivo at serine 392 and implicate a CK2-independent signal cascade that can function to modulate serine 392 phosphorylation in cells.
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PMID:DNA damage triggers DRB-resistant phosphorylation of human p53 at the CK2 site. 974 84

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