EC:5.99.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.3 (topoisomerase)
9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Purified type I topoisomerase from calf thymus as well as nuclear and cytoplasmic extracts from EGF-stimulated human and mouse fibroblasts in cell culture efficiently convert supercoiled plasmid DNA to the relaxed form. The purified IgG fraction from the sera of Japanese patients with the rheumatic disease scleroderma were shown to inhibit this relaxation activity. Thus, these patients likely produce autoantibodies to topoisomerase I. In addition, the human, bovine and murine enzymes share antigenic determinants recognized by the antisera.
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PMID:Inhibition of topoisomerase I by antibodies in sera from scleroderma patients. 243 27

Yeast strains with mutations in the genes for DNA topoisomerases I and II have been identified previously. The topoisomerase II mutants (top2) are conditional-lethal, temperature-sensitive mutants defective in the termination of DNA replication and the segregation of daughter chromosomes. The topoisomerase I mutants (top1), including strains with null mutations, are viable and exhibit no obvious growth defects, demonstrating that DNA topoisomerase I is not essential for viability in yeast. In contrast to the single mutants, top1 top2 double mutants grow poorly at the permissive temperature and stop DNA and ribosomal RNA synthesis at the restrictive temperature. Transfer RNA synthesis remains relatively normal. The rate of polyA+ RNA synthesis is down about 3-fold in the double mutant at the non-permissive temperature but the synthesis of three specific RNA polymerase II transcripts is unaffected. The results suggest that DNA replication and at least ribosomal RNA synthesis require an active topoisomerase, presumably to act as a swivel to relieve torsional stress, and that either topoisomerase can perform the required function (except for termination of DNA replication where topoisomerase II is required).
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PMID:DNA topoisomerase activity is required as a swivel for DNA replication and for ribosomal RNA transcription. 244 27

A chromatographic method for the rapid isolation of preparative amounts of plasmid DNA without the use of cesium chloride centrifugation is described. The protocol uses the alkaline extraction procedure and an exclusion column of Fractogel TSK 75S. From a clear lysate it is possible to obtain plasmid DNA completely free of proteins, RNA, and chromosomal DNA. From partially purified plasmid the procedure allows the separation of the different forms. This technique was successfully applied to different plasmids ranging in size from 2.9 to 17.5 MDa. It is a preparative method yielding easily 500 micrograms of pBR322 from 1 liter of amplified culture. The plasmid is suitable for topoisomerase I, topoisomerase II, and EcoRI assays.
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PMID:Purification and separation of various plasmid forms by exclusion chromatography. 244 30

CHO-Cdr20 cells are 10-20 times more resistant to killing by cadmium than the parental CHO cells. Resistance has been linked to amplification of the metallothionein genes MT-I and MT-II and their coordinate induction by cadmium and other toxic metals. We studied the roles of the nuclear enzymes topoisomerase I and topoisomerase II in Cd-induced expression of MT-II. Camptothecin-induced DNA strand breakage, mediated by topoisomerase I in cells, increased by approximately 20% when the resistant cells were incubated first with 50 microM Cd and then with camptothecin. Short DNA fragments were enriched in MT-II-hybridizing sequences, indicating that topoisomerase I-associated breakage was directed in part toward the location of induced gene activity. Ten microM camptothecin inhibited Cd-induced accumulation of MT-II mRNA as well as induced and uninduced RNA synthesis in the resistant cells. These data are consistent with the notion that topoisomerase I participates in most or all forms of RNA synthesis. Topoisomerase II inhibitors which trap cleavable complexes (amsacrine, VM-26, VP-16) increased DNA strand breakage at very high concentrations (50-100 microM); the increased breakage appeared to be concentrated near the MT-II gene. This class of inhibitor did not block the accumulation of MT-II message. Novobiocin, a second type of topoisomerase II inhibitor blocked transcription at 300 microM. Merbarone, a novel, third type of topoisomerase II inhibitor, blocked MT-II transcription at 50-100 microM. The latter two inhibited total RNA synthesis in induced, but not uninduced cells. Thus, it is possible that topoisomerase II plays more than one role in transcription and that more than one form of this enzyme is involved.
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PMID:Evidence for the participation of topoisomerases I and II in cadmium-induced metallothionein expression in Chinese hamster ovary cells. 247 39

A 4-h posttreatment with 4 microM beta-lapachone was previously shown to enhance the lethality of X-rays against human laryngeal epidermoid carcinoma (HEp-2) cells (D. A. Boothman et al., Cancer Res., 47:5361-5366, 1988). We now show that beta-lapachone (a) activates the DNA-unwinding activity of topoisomerase I, (b) inhibits the fast component of potentially lethal damage repair (PLDR) carried out by HEp-2 cells when present during or immediately following X-irradiation, (c) specifically and synergistically enhances the cytotoxic effects of DNA-damaging agents which induce DNA strand incisions, such as neocarzinostatin or X-rays, against a radioresistant human malignant melanoma (U1-Mel) cell line, (d) does not synergistically potentiate melphalan-induced lethality against U1-Mel cells but inhibits survival recovery and increases sister chromatid exchanges, and (e) does not further enhance the lethal effects of X-rays following prolonged drug exposures, indicating that beta-lapachone modifies initially created DNA lesions or inhibits lesion repair but does not create lethal lesions by itself. beta-Lapachone accelerated the DNA-unwinding activity of topoisomerase I derived from avian erythrocytes, calf thymus, or HEp-2 cells. beta-Lapachone did not intercalate into DNA, nor did it inhibit topoisomerase II or ligation carried out by mammalian or T4 DNA ligases. Structurally similar analogues, alpha-lapachone, lapachol, and dichloroallyl lawsone, did not enhance X-ray-induced cytotoxicity nor did they activate topoisomerase I. Camptothecin, a specific inhibitor of topoisomerase I, significantly radiosensitized HEp-2 cells, in a manner similar to beta-lapachone. These results suggest a role of topoisomerase I in DNA repair. The PLDR capacity of confluent-arrested HEp-2 cells was inhibited when beta-lapachone was given immediately following or during X-irradiation. The effect decreased when the drug was added at later times. beta-Lapachone may enhance lethality by converting single- into double-stranded DNA breaks during PLDR or through DNA conformational changes which inhibit PLDR. We propose that either mechanism of enhanced lethality may result from the ability of beta-lapachone to activate topoisomerase I.
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PMID:Inhibition of potentially lethal DNA damage repair in human tumor cells by beta-lapachone, an activator of topoisomerase I. 253 61

A complementary DNA fragment of the human DNA topoisomerase II gene was cloned into a T7 expression vector and overproduced in Escherichia coli. Rabbit polyclonal antibodies were raised against the recombinant topoisomerase II polypeptide which corresponds to the C-terminal one-third of human topoisomerase II polypeptide. Using the antiserum, DNA topoisomerase II levels were measured by immunoblotting human lymphocytes following phytohemagglutinin (PHA) stimulation. Our results showed that the intracellular topoisomerase II but not the topoisomerase I level increased in parallel with the entry of cells into proliferation. At least a 100-fold increase in topoisomerase II was observed at 50 h after PHA stimulation. As topoisomerase II levels increased upon PHA stimulation, DNA damage induced by teniposide (VM26) increased in parallel, as measured by both DNA synthesis inhibition and chromosomal aberrations. However, the damage induced by camptothecin also increased upon PHA stimulation, while the level of topoisomerase I remained relatively constant. Our results suggest that, in addition to cellular contents of topoisomerases, the state of cell proliferation is another important determinant of drug action.
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PMID:Studies of topoisomerase-specific antitumor drugs in human lymphocytes using rabbit antisera against recombinant human topoisomerase II polypeptide. 253 95

Studies were conducted to determine the possible involvement of DNA topoisomerase II (Topo II) in the induction of differentiation in two human promyelocytic HL-60 leukemia cell variants that are either susceptible or resistant to differentiation induced by phorbol-12-myristate-13-acetate (PMA), a protein kinase C activator. The acquisition of maturation markers and changes in the activity, level, and phosphorylation of Topo II were determined after treatment with either novobiocin, a Topo II inhibitor, or PMA. Novobiocin at 50-150 microM induced differentiation in the HL-205 cells but not in the HL-525 cells, although both cell types were equally susceptible to novobiocin-evoked cytotoxicity. In both cell types, novobiocin induced similar reductions in topoisomerase I activity but different reductions in Topo II activity. Treatment with novobiocin at 150 microM for 6 h or at 2 mM for 30 min resulted in a 4-fold or higher reduction in Topo II activity in the differentiation-susceptible HL-205 cells but not in the differentiation-resistant HL-525 cells. A differential response in Topo II activity was also observed after treatment with PMA. The novobiocin-evoked decrease in Topo II activity seems to be due to an enhanced enzyme proteolysis, whereas the PMA-elicited decrease in Topo II activity is associated with an increase in Topo II phosphorylation. 1-(5-Isoquinolinesulfonyl)-2-methylpiperazine, which is an inhibitor of protein kinases, including protein kinase C, diminished the novobiocin-elicited proteolysis of Topo II and the PMA-induced Topo II phosphorylation, as well as the decrease in Topo II activity and the acquisition of differentiation markers induced by either novobiocin or PMA. These results suggest that induction of differentiation in HL-60 cells by novobiocin or PMA is associated with a reduction in Topo II activity, mediated directly or indirectly by a protein kinase(s), perhaps protein kinase C.
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PMID:Novobiocin- and phorbol-12-myristate-13-acetate-induced differentiation of human leukemia cells associated with a reduction in topoisomerase II activity. 253 41

The biological effects of a number of DNA ligands which interact with the minor groove of B-form DNA (e.g. netropsin, distamycin and Hoechst 33258) are thought to arise from the direct disturbance of the processes of DNA replication and transcription. Although ligand binding appears to be an important factor in cytotoxicity, the pathways by which drug molecules can be actively dissociated from nuclear DNA are unknown. Recent evidence suggests that minor groove ligands can distort the manner in which DNA associates with nucleosomal core particles and we have hypothesized that in an intact cell such imposed torsional stress could be subject to the action of cellular topoisomerases. We have used flow cytometry to study the effects of various inhibitors (including topoisomerase-interactive drugs) on the responses of a mutant cell line (HoeR415) to Hoechst 33342, given that the mutant shows resistance to the cytotoxicity of this DNA-specific dye due to an enhanced capacity to dissociate nuclear DNA-dye complexes. Ligand-DNA dissociation in the mutant was found to be energy-dependent but not specifically, affected by the drug-efflux blocker verapamil or by inhibitors of DNA synthesis. The topoisomerase II inhibitors novobiocin, VP16, nalidixic acid and the topoisomerase I-interactive drug camptothecin inhibited ligand-DNA dissociation to various extents with novobiocin being the most effective (100% inhibition at 1 mM). Both novobiocin and camptothecin were without effect on the nuclear loss of a DNA intercalator, adriamycin. We conclude that efficient topoisomerase activity is required for the active dissociation of DNA minor groove-ligand complexes.
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PMID:A role of DNA topoisomerases in the active dissociation of DNA minor groove-ligand complexes. A flow cytometric study of inhibitor effects. 253 63

Ataxia telangiectasia (AT) cell lines are characterised by their hypersensitivity to ionizing radiation and bleomycin, and their failure to inhibit DNA synthesis after DNA damage. A recent report [Singh et al. (1988) Nucl. Acids Res. 16, 3919-3929] indicated that a reduction in topoisomerase II (topo II) activity was a feature of AT lymphoblast cell lines. We have studied the possible role of DNA topoisomerases in determining the phenotype of an AT fibroblast cell line. AT5BIVA cells are sensitive to the topo II inhibitors etoposide (VP16) and amsacrine (m-AMSA), compared to normal human fibroblasts (MRC5-V1 and VA13). AT5BIVA cells express a 3-fold higher level of topo II protein than MRC5-V1 cells, and 6-fold higher than VA13. This is reflected in elevated topo II activity in AT5BIVA cells. Untransformed AT5BI cells also show elevated topo II activity compared to untransformed normal cells. The extent of overproduction of topo II in AT5BIVA cells is comparable with that seen in a mutant Chinese hamster cell line, ADR-1, which is similarly hypersensitive to both bleomycin and topo II inhibitors. However, ADR-1 cells show neither hypersensitivity to ionizing radiation nor abnormal inhibition of DNA synthesis following DNA damage. Topo II overproduction per se does not appear sufficient to generate an "AT-like" phenotype. AT5BIVA cells express a reduced level of topoisomerase I (topo I) and are hypersensitive to the topo I inhibitor, camptothecin. ADR-1 cells express a normal level of topo I, indicating that a reduction in the level of topo I is not the inevitable consequence of an elevation in topo II.
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PMID:Overproduction of topoisomerase II in an ataxia telangiectasia fibroblast cell line: comparison with a topoisomerase II-overproducing hamster cell mutant. 253 56

The mechanism of augmentation of tumor cell killing by immune effector cells and chemotherapeutic drugs was studied. The effect of treating tumor cells with various antineoplastic drugs on their sensitivity to murine natural cell-mediated cytotoxicity in vitro was investigated. Pretreatment with actinomycin D at nontoxic concentrations rendered L929 and WEHI-164 tumor cells more susceptible to killing by mouse spleen lymphocytes in a dose-dependent manner. Similarly, enhancement of L929 tumor cell killing by natural cell-mediated cytotoxicity was observed following treatment of the target cells with the topoisomerase II inhibitors, Adriamycin, amsacrine, bisantrene, etoposide, and teniposide, as well as with topoisomerase I inhibitor, camptothecin. In contrast, drugs which induce their cytotoxic effects by mechanisms that do not involve topoisomerase inhibition such as bleomycin, vinblastine, vincristine, and mitomycin C failed to exhibit synergism with natural cell-mediated cytotoxicity. However, moderate synergy was consistently observed with cis-platinum. The effector cells responsible for the cytotoxicity in the present system are natural cytotoxic cells since they kill WEHI-164 but not YAC cells, are resistant to treatment with anti-asialo-GM1 antibody, and their activity is abolished by anti-tumor necrosis factor antibodies. Indeed, tumor necrosis factor-mediated cytotoxicity of WEHI-164 or L929 was enhanced by treatment of the target cells with topoisomerase II inhibitors. Moreover, WEHI-164 cells selected for tumor necrosis factor resistance were resistant to natural cell-mediated cytotoxicity, and no synergy could be observed with topoisomerase inhibitors.
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PMID:Synergistic antitumor effects of topoisomerase inhibitors and natural cell-mediated cytotoxicity. 253 25

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