Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

RNA polymerase I preparations purified from a rat hepatoma contained DNA topoisomerase activity. The DNA topoisomerase associated with the polymerase had an Mr of 110,000, required Mg2+ but not ATP, and was recognized by anti-topoisomerase I antibodies. When added to RNA polymerase I preparations containing topoisomerase activity, anti-topoisomerase I antibodies were able to inhibit the DNA relaxing activity of the preparation as well as RNA synthesis in vitro. RNA polymerase II prepared by analogous procedures did not contain topoisomerase activity and was not recognized by the antibodies. The topoisomerase I: polymerase I complex was reversibly dissociated by column chromatography on Sephacryl S200 in the presence of 0.25 M (NH4)2SO4. Topoisomerase I was immunolocalized in the transcriptionally active ribosomal gene complex containing RNA polymerase I in situ. These data indicate that topoisomerase I and RNA polymerase I are tightly complexed both in vivo and in vitro, and suggest a role for DNA topoisomerase I in the transcription of ribosomal genes.
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PMID:Association of DNA topoisomerase I and RNA polymerase I: a possible role for topoisomerase I in ribosomal gene transcription. 285 18

DNA topoisomerase II was purified from calf thymus nuclei by a simple and fast four-step procedure: selective ammonium sulfate precipitation, chromatography on blue-Sepharose and hydroxyapatite, followed by ultracentrifugation on a glycerol gradient. Starting from 300 g thymus glands, this procedure yields 0.7 mg of homogeneous topoisomerase II. The final product is free of any nucleolytic, proteolytic or topoisomerase I activity. Dodecylsulfate/polyacrylamide gel electrophoresis reveals two bands with apparent molecular masses of 175 and 150 kDa. Analytical gel filtration and sedimentation on isokinetic sucrose gradients were used to determine the Stokes' radius as 6.4 nm and the sedimentation coefficient as 9.5 S, indicating a dimeric structure for the native enzyme. The purified topoisomerase II is strictly dependent on ATP or dATP, the Km values of which were 0.14 mM and 0.5 mM, respectively. Mg2+ is an essential cofactor for the reaction at concentrations between 0.5-8 mM, with an optimum at 4 mM. Mg2+ can be substituted by Mn2+ at concentrations between 0.2-0.4 mM. Both the relaxation and the catenation reaction exhibit a salt optimum at 130 mM NaCl. At concentrations below 30 mM and above 200 mM, the enzyme is inactive. The pH is optimal between 8 and 9.5 using Tris buffers.
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PMID:Purification and characterization of DNA topoisomerase II from calf thymus associated with polypeptides of 175 and 150 kDa. 302 77

Wheat germ contains an enzyme capable of removing supercoils from circular DNA. We have purified this enzyme using Polymin P fractionation, ammonium sulfate precipitation, and chromatography on Bio-Rex 70 and phenyl-Sepharose. Renaturation after electrophoresis on sodium dodecyl sulfate-polyacrylamide gels shows that topoisomerase activity is associated with a polypeptide with a Mr = about 111,000. The enzyme is similar to other eukaryotic type I DNA topoisomerases (nicking-closing enzymes) by the following criteria: it is capable of increasing or decreasing the topological linking number of covalently closed DNA substrate; it is capable of restoring an equilibrium distribution of linking numbers to DNA substrate with a single unique linking number; and it does not require magnesium ion or ATP for activity.
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PMID:Purification and characterization of wheat germ DNA topoisomerase I (nicking-closing enzyme). 626 92

DNA topoisomerases which remove superhelical turns in closed circular DNA have been isolated from cauliflower inflorescences using polyethylene glycol fractionation, ammonium sulfate precipitation, and column chromatography on CM-Sephadex or CM-cellulose and DNA-cellulose. Two distinct enzymes, topoisomerase-I and ATP-dependent topoisomerase, were separated clearly by CM-Sephadex or CM-cellulose, and partially characterized using agarose gel electrophoresis with plasmid pBR322 DNA. Topoisomerase-I acts like other eucaryotic DNA topoisomerases in the absence of ATP, is stimulated by spermidine and inhibited by EDTA. The ATP-dependent topoisomerase acts like topoisomerase-I only in the presence of ATP in the reaction medium, is inhibited by spermidine and EDTA, and does not introduce supertwists into closed duplex DNA or produce catenate aggregates under the present reaction conditions.
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PMID:Isolation and partial characterization of two distinct DNA topoisomerases from cauliflower inflorescence. 628 25

DNA topoisomerases are nuclear enzymes responsible for modifying the topological state of DNA. The development of agents capable of poisoning topoisomerases has proved to be an attractive approach in the search for novel cancer chemotherapeutics. Coralyne, an antileukemic alkaloid, has appreciable structural similarity to the potent topoisomerase I and II poison, nitidine. Analogues of coralyne were synthesized and evaluated for their activity as topoisomerase I and topoisomerase II poisons. These analogues were also evaluated for cytotoxicity in the human lymphoblast cell line, RPMI 8402, and its camptothecin-resistant variant, CPT-K5. The pharmacological activity of these analogues exhibited a strong dependence on the substitution pattern and the nature of substituents. Several 1-benzylisoquinolines and 3-phenylisoquinolines were also synthesized. These compounds, which incorporate only a portion of the ring structure of coralyne, were evaluated as topoisomerase poisons and for cytotoxicity. These structure-activity studies indicate that the structural rigidity associated with the coralyne ring system may be critical for pharmacological activity. The presence of a 3,4-methylenedioxy substituent on these coralyne analogues was generally associated with enhanced activity as a topoisomerase poison. 5,6-Dihydro-3,4-methylenedioxy-10,11-dimethoxydibenzo[a,g]quinoliz inium chloride was the most potent topoisomerase I poison among the coralyne analogues evaluated, having similar activity to camptothecin. This analogue also possessed exceptional potency as a topoisomerase II poison. Despite the pronounced activity of several of these coralyne derivatives as topoisomerase I poisons, none of these compounds had cytotoxic activity similar to camptothecin. Possible differences in cellular absorption between these coralyne analogs, which possess a quaternary ammonium group, and camptothecin may be responsible for the differences observed in their relative cytotoxicity.
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PMID:Coralyne and related compounds as mammalian topoisomerase I and topoisomerase II poisons. 881 27

We present titrations of the human delta beta-globin gene region with DNA minor groove binders netropsin, bisnetropsin, distamycin, chromomycin and four bis-quaternary ammonium compounds in the presence of calf thymus topoisomerase II and DNase I. With increasing ligand concentration, stimulation and inhibition of enzyme activity were detected and quantitatively evaluated. Additionally we show a second type of stimulation, the appearance of strong new topoisomerase II cleavage sites at high ligand concentrations. The specific binding sites of the minor groove binders of the DNA sequence and their microscopic binding constants were determined from DNase I footprints. A binding mechanism for minor groove binders is proposed in order to explain these results especially when ligand concentration is increased.
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PMID:DNA binding properties of minor groove binders and their influence on the topoisomerase II cleavage reaction. 977 Jun 48

We used small molecule screening to discover compounds and mechanisms for overcoming E6 oncogene-mediated drug resistance. Using high-throughput screening in isogenic cell lines, we identified compounds that potentiate doxorubicin's lethality in E6-expressing colon cancer cells. Such compounds included quaternary ammonium salts, protein synthesis inhibitors, 11-deoxyprostaglandins, and two additional classes of compounds-analogs of 1,3-bis(4-morpholinylmethyl)-2-imidazolidinethione (a thiourea) and acylated secondary amines that we named indoxins. Indoxins upregulated topoisomerase IIalpha, the target of doxorubicin, thereby increasing doxorubicin lethality. We developed a photolabeling strategy to identify targets of indoxin and discovered a nuclear actin-related protein complex as a candidate indoxin target.
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PMID:Using small molecules to overcome drug resistance induced by a viral oncogene. 1647 80

Novel substituted triptycene bisquinones and 1, 4-anthracenediones were synthesized and screened for their anti-cancer activities. A number of analogs were synthesized utilizing various synthetic transformations and found to elicit interesting antitumor effects. Analogs included water-soluble pro-drugs and ammonium salts. These potent antitumor drugs are DNA topoisomerase inhibitors that induce DNA strand breaks, inhibit DNA, RNA and protein syntheses and reduce tumor cell proliferation in the nanomolar range in vitro. They induce cytochrome c release, caspase-9, -3 and -8 activities, poly(ADP)-ribose polymerase-1 (PARP) cleavage, and internucleosomal DNA fragmentation by a mechanism which involves caspase-2 activation but not Fas signaling. Moreover, these drugs remain effective in multidrug-resistant tumor cells and have the advantage of blocking nucleoside transport and inducing a rapid loss of mitochondrial transmembrane potential. Based on their effects in tumor cells and isolated mitochondria, it is hypothesized that these drugs might, directly and indirectly, target components of the permeability transition pore to induce mitochondrial permeability transition and the release of proapoptotic factors. This review provides a summary of synthetic efforts and mechanistic endeavor.
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PMID:Syntheses, molecular targets and antitumor activities of novel triptycene bisquinones and 1,4-anthracenedione analogs. 1684 33

Chemical studies of the Chinese herb Corydalis saxicola Bunting led to the isolation and identification of 14 alkaloids, 1-14. Seven of these compounds, 4-9 and 11, were obtained from this plant for the first time. Feruloylagmatine (7) is the first guanidine-type alkaloid to be identified in the family Papaveraceae and in dicotyledonous plants. All of the isolated compounds were assayed for inhibitory activity against human DNA topoisomerase I. A DNA cleavage assay demonstrated that these alkaloids specifically inhibit topoisomerase through stabilization of the enzyme-DNA complex. Among the isolated alkaloids, (-)-pallidine (8) and (-)-scoulerine (11) showed strong inhibitory activities toward topoisomerase I that were comparable to camptothecin, a typical topoisomerase I inhibitor. A preliminary structure-activity relationship study suggested that the quaternary ammonium ion might play an important role in topoisomerase I inhibition by the isoquinoline alkaloids. These data indicated that DNA topoisomerase I inhibition represents probably one of the anticarcinogenic mechanisms of C. saxicola.
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PMID:DNA topoisomerase I inhibitory alkaloids from Corydalis saxicola. 1864 21

A series of novel 9(10H)-acridinone derivatives with terminal amino substituents at C2 position on the acridinone ring were synthesized and studied for their antiproliferative activity and underlying mechanisms. These compounds demonstrated promising cytotoxicity to leukemia cells CCRF-CEM, displaying IC(50) values in the low micromolar range. Structure-activity relationships (SAR) indicated that the compound 6d bearing a pyrrolidine substituent and 8a with a methyl ammonium side chain displayed higher cytotoxicity to CCRF-CEM cells and also solid tumor cells A549, HepG2, and MCF7. Furthermore, the compounds 6d and 8a had strong binding activity to calf thymus DNA (ct DNA), as detected by UV absorption and fluorescence quenching assays, but limited inhibitory activity to human topoisomerase 1 (topo 1). Taken together, this study discovered a series of new synthetic 9(10H)-acridinone derivatives with potent DNA binding and anticancer activity.
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PMID:Novel synthetic 2-amino-10-(3,5-dimethoxy)benzyl-9(10H)-acridinone derivatives as potent DNA-binding antiproliferative agents. 2086 10


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