UNIPROT:P04637 - FACTA Search

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)

Irinotecan, a DNA topoisomerase I inhibitor, is widely used in cancer chemotherapy. However, little is known of the mechanisms of its antitumor effects and the development of drug resistance in human hepatocellular carcinoma (HCC). In this study, we investigated the effects of short-term culture with SN-38, the active metabolite of irinotecan, on apoptosis in Huh7 cells. The cells were cultured with SN-38 for 24, 72, and 120 h, and apoptosis was determined using the terminal dUTP nick-end labeling (TUNEL) assay. The expressions of p53, apoptosis-related proteins, and P-glycoprotein (P-gp), a protein conferring the multidrug-resistant phenotype, were analyzed using Western blotting. Induced expression of P-gp was detected using fluorescence microscopy. SN-38 significantly induced apoptosis in Huh7 cells at 24 h. SN-38 also increased the expression of p53, Bax, and caspase-9 and decreased Bcl-xL expression in Huh7 cells. SN-38 decreased p53 expression and increased P-gp expression after 120 h, resulting in inhibition of apoptosis. This inhibition was reversed by the addition of verapamil to the culture medium during 120 h incubation. SN-38-induced P-gp expression was additionally enhanced by p53 decoy oligodeoxynucleotide. The changes in P-gp expression were directly moderated by p53 gene downregulation, suggesting that it plays a role in the mechanism of drug resistance. These results suggest that the accumulation of irinotecan in HCC leads to the development of drug resistance.
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PMID:Irinotecan-induced apoptosis is inhibited by increased P-glycoprotein expression and decreased p53 in human hepatocellular carcinoma cells. 1766 93

Human Topors has originally been identified as binding partner of p53 and DNA topoisomerase I (TOP1). It can function as both an ubiquitin and SUMO-1 E3 ligase for p53. Here we demonstrate that Topors enhances the formation of high-molecular weight SUMO-1 conjugates of TOP1 in a reconstituted in vitro system and also in human osteosarcoma cells, similar to treatment with CPT. In contrast to the situation observed with p53, overall sumoylation levels were rather unaffected. Experiments with TOP1 point mutants strongly suggest that the high-molecular weight conjugates represent SUMO-1 chains formed on a limited number of SUMO-1 acceptor sites.
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PMID:The E3 ligase Topors induces the accumulation of polysumoylated forms of DNA topoisomerase I in vitro and in vivo. 1797 81

In order to enhance the cytotoxicity of radiation, camptothecin (CPT), an inhibitor of DNA topoisomerase I, was added to the cultured glioma cell lines before irradiation (IR). Radiation responses of five glioblastoma cell lines (U87-MG, U373-MG, GHE, GaMG and SNB-19) treated with CPT were analyzed in terms of cell and colony counts, cell cycle progression, expression of histone gamma H2AX, DNA repair protein Rad50, survivin, cleaved caspase 3, p53 and of topoisomerase I. CPT enhanced the radiotoxicity in U87-MG and SNB-19 cell lines if cell and colony counts were used as the end-points. In contrast, pre-treatment with CPT of U373-MG, GHE and GaMG cell lines did not enhance cytotoxicity of IR in terms of cell and colony counts but accelerated DNA damage repair assessed by Rad50 foci. CPT treated glioma cells revealed at least two subpopulations with respect to the expression of histone gamma H2AX, a marker of DNA double-strand breaks. The cell lines tested also differed in the expression of survivin, cleaved caspase 3, p53 and of topoisomerase I. The failure of CPT to enhance the radiotoxicity of glioma U373-MG, GHE and GaMG cell lines in terms of cell and colony counts was found to correlate with accelerated DNA damage repair, and with low expression of topoisomerase I, a target of CPT.
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PMID:Differential response of human glioblastoma cell lines to combined camptothecin and ionizing radiation treatment. 1861 57

The human AP-endonuclease (APE1/Ref-1), an essential multifunctional protein, plays a central role in the repair of oxidative base damage via the DNA base excision repair (BER) pathway. The mammalian AP-endonuclease (APE1) overexpression is often observed in tumor cells, and confers resistance to various anticancer drugs; its downregulation sensitizes tumor cells to those agents via induction of apoptosis. Here we show that wild type (WT) but not mutant p53 negatively regulates APE1 expression. Time-dependent decrease was observed in APE1 mRNA and protein levels in the human colorectal cancer line HCT116 p53(+/+), but not in the isogenic p53 null mutant after treatment with camptothecin, a DNA topoisomerase I inhibitor. Furthermore, ectopic expression of WTp53 in the p53 null cells significantly reduced both endogenous APE1 and APE1 promoter-dependent luciferase expression in a dose-dependent fashion. Chromatin immunoprecipitation assays revealed that endogenous p53 is bound to the APE1 promoter region that includes a Sp1 site. We show here that WTp53 interferes with Sp1 binding to the APE1 promoter, which provides a mechanism for the downregulation of APE1. Taken together, our results demonstrate that WTp53 is a negative regulator of APE1 expression, so that repression of APE1 by p53 could provide an additional pathway for p53-dependent induction of apoptosis in response to DNA damage.
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PMID:Regulation of the human AP-endonuclease (APE1/Ref-1) expression by the tumor suppressor p53 in response to DNA damage. 1820 37

The DNA topoisomerase I (topo1) inhibitor topotecan (TPT) and topo2 inhibitor mitoxantrone (MXT) damage DNA inducing formation of DNA double-strand breaks (DSBs). We have recently examined the kinetics of ATM and Chk2 activation as well as histone H2AX phosphorylation, the reporters of DNA damage, in individual human lung adenocarcinoma A549 cells treated with these drugs. Using a phospho-specific Ab to tumor suppressor protein p53 phosphorylated on Ser15 (p53-Ser15(P)) combined with an Ab that detects p53 regardless of the phosphorylation status and multiparameter cytometry we correlated the TPT- and MXT-induced p53-Ser15(P) with ATM and Chk2 activation as well as with H2AX phosphorylation in relation to the cell cycle phase. In untreated interphase cells, p53-Ser15(P) had "patchy" localization throughout the nucleoplasm while mitotic cells showed strong p53-Ser15(P) cytoplasmic immunofluorescence (IF). The intense phosphorylation of p53-Ser15, combined with activation of ATM and Chk2 (involving centrioles) as well as phosphorylation of H2AX seen in the untreated mitotic cells, suggest mobilization of the DNA damage detection/repair machinery in controlling cytokinesis. In the nuclei of cells treated with TPT or MXT, the expression of p53-Ser15(P) appeared as closely packed foci of intense IF. Following TPT treatment, the induction of p53-Ser15(P) was most pronounced in S-phase cells while no significant cell cycle phase differences were seen in cells treated with MXT. The maximal increase in p53-Ser15(P) expression, rising up to 2.5-fold above the level of its constitutive expression, was observed in cells treated with TPT or MXT for 4-6 h. This maximum expression of p53-Ser15(P) coincided in time with the peak of Chk2 activation but not with ATM activation and H2AX phosphorylation, both of which crested 1-2 h after the treatment with TPT or MXT. The respective kinetics of p53-Ser15 phosphorylation versus ATM and Chk2 activation suggest that in response to DNA damage by TPT or MXT, Chk2 rather than ATM mediates p53 phosphorylation.
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PMID:Phosphorylation of p53 on Ser15 during cell cycle caused by Topo I and Topo II inhibitors in relation to ATM and Chk2 activation. 1880 8

Calothrixins A (1) and B (2) were converted to their O- and N-methylated derivatives, respectively. All four compounds were found to act as poisons of DNA topoisomerase I and to do so reversibly. Three of the calothrixins (1-3) were tested for their cytotoxicity toward cultured (p53 proficient) CEM leukemia cells and found to exhibit IC(50) values ranging from 0.20 to 5.13 muM. The cell cycle effects of calothrixins 1-3 were also studied. Calothrixin B (2) produced G(1) arrest at 0.1 muM concentration, while higher concentrations of calothrixins 1 and 3 resulted in cell accumulation in both the S and G(2)/M phases of the cell cycle. The cell cycle effects produced by the calothrixins were more readily reversible upon removal of the compounds than those produced by camptothecin.
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PMID:Calothrixins, a new class of human DNA topoisomerase I poisons. 1920 91

DNA topoisomerase I (Top1) is a ubiquitous nuclear enzyme that plays essential roles in various cellular processes, such as transcription or replication. Agents that target Top1, involving camptothecin and its derivatives, are among the most effective anticancer drugs used in the clinic. Previous work has suggested that the level of Top1 expression correlates with the cytotoxicity of camptothecin, but no direct evidence has been provided thus far in the context of human cells with a strictly isogenic genetic background. In this study, we perform heterozygous disruption of the Top1 gene (TOP1) by gene targeting in a human pre-B cell line, Nalm-6, which is karyotypically stable and normal for p53 status. We show that the heterozygous loss of the TOP1 gene does confer cellular resistance to camptothecin, to an extent comparable to that observed in the absence of functional p53 protein. Such a tolerance was not observed with other agents that target DNA topoisomerase II. Our results provide direct evidence that human cells with decreased Top1 levels are significantly more resistant to killing by camptothecin than are otherwise isogenic cells.
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PMID:Heterozygous disruption of the DNA topoisomerase I gene confers cellular resistance to camptothecin in human cells. 1933 13

Topors is a DNA topoisomerase I- and p53-binding protein, and mainly functions as a p53 regulator. Accumulating evidence also supports the notion that Topors plays the role as a negative regulator of cell growth, and possibly as a tumor suppressor. Here, we demonstrated that Topors is also involved in normal mitotic progression, since Topors depletion delays mitotic entry and affects mitotic progression. Furthermore, Topors is degradated in response to the activation of the spindle checkpoint. Significantly, Polo-like kinase 1 (Plk1)-associated phosphorylation of Topors at S718 is essential for nocodazole-induced degradation of Topors.
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PMID:Plk1 phosphorylation of Topors is involved in its degradation. 1982 Nov 53

This chapter describes molecular mechanisms of DNA damage response (DDR) and presents flow- and image-assisted cytometric approaches to assess these mechanisms and measure the extent of DDR in individual cells. DNA damage was induced by cell treatment with oxidizing agents, UV light, DNA topoisomerase I or II inhibitors, cisplatin, tobacco smoke, and by exogenous and endogenous oxidants. Chromatin relaxation (decondensation) is an early event of DDR chromatin that involves modification of high mobility group proteins (HMGs) and histone H1 and was detected by cytometry by analysis of the susceptibility of DNA in situ to denaturation using the metachromatic fluorochrome acridine orange. Translocation of the MRN complex consisting of Meiotic Recombination 11 Homolog A (Mre11), Rad50 homolog, and Nijmegen Breakage Syndrome 1 (NMR1) into DNA damage sites was assessed by laser scanning cytometry as the increase in the intensity of maximal pixel as well as integral value of Mre11 immunofluorescence. Examples of cytometric detection of activation of Ataxia telangiectasia mutated (ATM), and Check 2 (Chk2) protein kinases using phospho-specific Abs targeting Ser1981 and Thr68 of these proteins, respectively are also presented. We also discuss approaches to correlate activation of ATM and Chk2 with phosphorylation of p53 on Ser15 and histone H2AX on Ser139 as well as with cell cycle position and DNA replication. The capability of laser scanning cytometry to quantify individual foci of phosphorylated H2AX and/or ATM that provides more dependable assessment of the presence of DNA double-strand breaks is outlined. The new microfluidic Lab-on-a-Chip platforms for interrogation of individual cells offer a novel approach for DDR cytometric analysis.
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PMID:Analysis of individual molecular events of DNA damage response by flow- and image-assisted cytometry. 2172 2

Various DNA-targeting agents may initiate p53-dependent as well as p53-independent response and subsequent apoptosis via alternative cellular systems which include for instance p73, caspase-2 or Bcl-2 family proteins. The scope of involvement of individual molecules in this process and the mechanisms governing their potential interplay are still not entirely understood, in particular in highly aggressive cancers such as in malignant melanoma. In this work we investigated the role and involvement of both p53-dependent and -independent mechanisms in selected melanoma cell lines with differing status of p53 using a model DNA topoisomerase I inhibitor camptothecin (CPT). Here we report that CPT induced in Bowes melanoma cells apoptosis which is essentially p53 and mitochondria-dependent but with some involvement of caspase-2 and p73. Conversely, in mutant p53 melanoma cells overall levels of CPT-induced apoptosis are significantly lower, with p73 and caspase-2 signaling playing important roles. In addition, in these cells the expression of micro RNAs family 34 (miR-34) were low compared to wild-type p53 cells. The ectopic expression of wild type p53 than restored apoptotic response of cells to CPT despite the fact that the expression of miR-34 and miR-155 were not influenced. These results suggest that CPT induces multivariate cellular stress responses including activation of DNA-damage response-p53 pathway as well as p53-independent signaling and their mutual crosstalk play the decisive role in the efficient triggering of apoptosis in melanoma cells.
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PMID:Camptothecin induces p53-dependent and -independent apoptogenic signaling in melanoma cells. 2180 47

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