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)

We have purified to apparent homogeneity a type II DNA topoisomerase from Xenopus laevis oocyte nuclei (germinal vesicles, or GV). The most pure preparations contain a single polypeptide of 175,000 daltons as determined by SDS-gel electrophoresis. The enzyme changes the linking number of DNA circles in steps of two and reversibly knots or catenates DNA rings. No gyrase activity is detectable and ATP is required.
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PMID:Purification and characterization of Xenopus laevis topoisomerase II. 1087 24

Since topoisomerase poisons allow the enzyme to cut and covalently bind to DNA but abort the subsequent rejoining of the molecule after relieving the torsional stress. To study their action we have made use of a supercoiled form of the pRYG plasmid that bears a specific topoisomerase recognition and binding region. The conversion of the supercoiled circular double-stranded DNA to the linear and open circle forms in the presence of a topoisomerase II poison and a denaturation step by proteinase K-SDS is indicative of the efficiency of our test agents to stabilize the cleavable complex. Using this system, three glucosylated isoflavones (6'-methoxy-pseudobaptigenin-7-O-beta-glucoside, genistin, and daidzin) isolated from cytotoxic chloroform and ethyl acetate extracts of Retama sphaerocarpa Boissier, were found to have the ability to stabilize the cleavage complex human DNA topoisomerase II.
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PMID:Glucosylated isoflavones as DNA topoisomerase II poisons. 1103 85

DNA topoisomerase II (topo II) is an essential nuclear enzyme and is the target for etoposide, which is used in the therapy of childhood acute lymphoblastic leukaemia (ALL). Topo II exists as two isoforms referred to as topo IIalpha and topo IIbeta. To determine whether cellular levels of topo IIalpha and beta are an important factor in determining drug sensitivity/resistance requires accurate, precise measurements of the two isoforms. We have developed a quantitative Western blotting method to accurately measure the absolute amounts of human topo IIalpha and beta, using recombinant human topo IIalpha and beta as standards. This quantitative method has been used to assess the efficiency of several commonly used topo II extraction protocols. The extractable amount of topo IIalpha and beta was found to be salt-dependent. However extraction using the optimal salt concentration was found to be as efficient as extraction with DNase I/Rnase A digestion and SDS solubilisation. Using the optimum extraction procedure and the quantitative immunoblotting method, topo IIalpha and beta was quantified in cell lines, peripheral blood lymphocytes and in lymphoblasts from children with newly diagnosed ALL.
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PMID:Quantitation of DNA topoisomerase IIalpha and beta in human leukaemia cells by immunoblotting. 1106 37

Chloroquinoxaline sulfonamide (chlorosulfaquinoxaline, CQS, NSC 339004) is active against murine and human solid tumors. On the basis of its structural similarity to the topoisomerase IIbeta-specific drug XK469, CQS was tested and found to be both a topoisomerase-IIalpha and a topoisomerase-IIbeta poison. Topoisomerase II poisoning by CQS is essentially undetectable in assays using the common protein denaturant SDS, but easily detectable with strong chaotropic protein denaturants. The finding that detection of topoisomerase poisoning can be so dependent on the protein denaturant used in the assay has implications for drug discovery efforts and for our understanding of topoisomerase poisons.
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PMID:Chloroquinoxaline sulfonamide (NSC 339004) is a topoisomerase IIalpha/beta poison. 1108 7

Antineoplastic bis(dioxopiperazine)s, such as meso-2,3-bis(2,6-dioxopiperazin-4-yl)butane (ICRF-193), are widely believed to be only catalytic inhibitors of topoisomerase II. However, topoisomerase inhibitors have little or no antineoplastic activity unless they are topoisomerase poisons, a special subclass of topoisomerase-targeting drugs that stabilize topoisomerase-DNA strand passing intermediates and thus cause the topoisomerase to become a cytotoxic DNA-damaging agent. Here we report that ICRF-193 is a very significant topoisomerase II poison. Detection of topoisomerase II poisoning by ICRF-193 required the use of a chaotropic protein denaturant in the topoisomerase poisoning assays. ICRF-193 caused dose-dependent cross-linking of human topoisomerase IIbeta to DNA and stimulated topoisomerase IIbeta-mediated DNA cleavage at specific sites on (32)P-end-labeled DNA. Human topoisomerase IIalpha-mediated DNA cleavage was stimulated to a lesser extent by ICRF-193. In vivo experiments with MCF-7 cells also showed the requirement of a chaotropic protein denaturant in the assays and selectivity for the beta-isozyme of human topoisomerase II. Studies with two topoisomerase IIbeta-negative cell model systems confirmed significant topoisomerase II poisoning by ICRF-193 in the wild type cells and were consistent with beta-isozyme selectivity. Common use of only the detergent, SDS, in assays may have led to failure to detect topoisomerase II poisoning by ICRF-193 in earlier studies.
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PMID:Topoisomerase II poisoning by ICRF-193. 1157 77

Luteolin, a naturally occurring flavonoid, is abundant in our daily dietary intake. It exhibits a wide spectrum of pharmacological properties, but little is known about its biochemical targets other than the fact that it induces topoisomerase II-mediated apoptosis. In the present study, we show that luteolin completely inhibits the catalytic activity of eukaryotic DNA topoisomerase I at a concentration of 40 microM, with an IC50 of 5 microM. Preincubation of enzyme with luteolin before adding a DNA substrate increases the inhibition of the catalytic activity (IC50=0.66 microM). Treatment of DNA with luteolin before addition of topoisomerase I reduces this inhibitory effect. Subsequent fluorescence tests show that luteolin not only interacts directly with the enzyme but also with the substrate DNA, and intercalates at a very high concentration (>250 microM) without binding to the minor groove. Direct interaction between luteolin and DNA does not affect the assembly of the enzyme-DNA complex, as evident from the electrophoretic mobility-shift assays. Here we show that the inhibition of topoisomerase I by luteolin is due to the stabilization of topoisomerase-I DNA-cleavable complexes. Hence, luteolin is similar to camptothecin, a class I inhibitor, with respect to its ability to form the topoisomerase I-mediated 'cleavable complex'. But, unlike camptothecin, luteolin interacts with both free enzyme and substrate DNA. The inhibitory effect of luteolin is translated into concanavalin A-stimulated mouse splenocytes, with the compound inducing SDS-K+-precipitable DNA-topoisomerase complexes. This is the first report on luteolin as an inhibitor of the catalytic activity of topoisomerase I, and our results further support its therapeutic potential as a lead anti-cancer compound that poisons topoisomerases.
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PMID:Luteolin, an emerging anti-cancer flavonoid, poisons eukaryotic DNA topoisomerase I. 1202 7

The inhibition of cell proliferation by 1,4-bis (1-naphthyl)-2,3-dinitro-1,3-butadiene (Naph-DNB) was evaluated in vitro against 4 cell lines (L1210/DDP, A2780/DX3, HCT-8/FU7dR, A549-T12) selected for their resistance to cisplatin, doxorubicin, 5-fluorouracil and taxol, and their wild-type counterparts. Naph-DNB is a novel anti-cancer compound obtained years ago within a research project of Organic Chemistry aimed at synthesizing 2,3-dinitrobutadiene derivatives. Because of its chemical structure, Naph-DNB was suggested to interact with nucleic acids, in particular DNA, and the other cellular macromolecules. This hypothesis made us consider Naph-DNB as a candidate for studies concerning its antitumour activity. We used the MTT assay to test the inhibition of cell proliferation after incubation of the cell lines with Naph-DNB for 72 h. For comparison, resistant and wild-type cell lines were also tested against those anticancer drugs used in vitro for their selection. In these culture conditions Naph-DNB retained its inhibiting activity against all resistant cells with IC50 values similar to those obtained in corresponding wild-type cell lines. Moreover, Naph-DNB was twice as effective as 5-fluorouracil against wild-type HCT-8 cells. Our previous findings about the interaction of Naph-DNB with DNA through the formation of interstrand cross-links suggested a mechanism of action similar to that of platinum/alkylating agents or topoisomerase inhibitors (intercalating agents). Our present data obtained by the K-SDS precipitation assay in A2780 and A549 cells showed that Naph-DNB is not able to form a stable topoisomerase-DNA complex as is the case for topoisomerase inhibitors. In conclusion, our results indicate that Naph-DNB is able to overcome some of the classical mechanisms of resistance selected by some anticancer drugs mainly used in clinical setting.
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PMID:1,4-Bis(1-naphthyl)-2,3-dinitro-1,3-butadiene a novel anticancer compound effective against tumor cell lines characterized by different mechanisms of resistance. 1520 65

Reverse gyrase, a topoisomerase which introduces positive superhelical turns into DNA, has been purified from Sulfolobus to near homogeneity. It is a single polypeptide with a mol. wt. of 120 000 as determined by denaturing gel electrophoresis. Contrary to a previous report, it is a type I topoisomerase as judged by the linking-number change of closed circular DNA topoisomer. Unlike other known type I topoisomerases, ATP or dATP is required for introducing positive superhelical turns. In order to relax negatively supercoiled DNA, other nucleotide triphosphates (XTP) are also effective with low efficiency. In the absence of either XTP or divalent cations, the enzyme introduces nicks into closed circular DNA when the reaction is stopped by SDS. This suggests that reverse gyrase cuts one of the two strands of DNA in the course of its enzymatic reaction.
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PMID:Reverse gyrase; ATP-dependent type I topoisomerase from Sulfolobus. 1645 36

Topoisomerase II of kinetoplastid parasites plays an important role in the replication of unusual networks of kinetoplast DNA (kDNA) and is a very useful target for antiparasitic drugs. In this study, we cloned full-length Crithidia fasciculata mitochondrial topoisomerase II gene into pFastBac-HTc vector and successfully expressed an active recombinant full-length mitochondrial topoisomerase II in Bac-to-Bac baculovirus expression system. A rapid and simple purification strategy was established by incorporating a FLAG-tag at the C-terminus of the protein. The purified recombinant topoisomerase II showed a major single band on SDS-PAGE (>96% purity) and was verified through Western blot analysis. The recombinant full-length mitochondrial topoisomerase II exhibited decatenation, catenation and relaxation activity of type II topoisomerase as well as various sensitivities to a series of known topoisomerase inhibitors. These studies explore new way and lay groundwork to express all other similar full-length kinetoplastid topoisomerases, it will also facilitate further elucidation of X-ray structure, catalysis mechanism of kinetoplastid topoisomerases and design of new antiparasitic drugs targeting kinetoplastid topoisomerases.
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PMID:Expression, purification and characterization of recombinant mitochondrial topoisomerase II of kinetoplastid Crithidia fasciculata in High-five insect cells. 1806 76

Visceral leishmaniasis is an emerging neglected tropical disease (NTD) caused by the protozoan Leishmania infantum in the countries bordering the Mediterranean Basin. Currently there is no effective vaccine against this disease, and the therapeutic approach is based on toxic derivatives of Sb(V). Therefore, the discovery of new therapeutic targets and the development of drugs designed to inhibit them comprise an extremely important approach to fighting this disease. DNA topoisomerases (Top) have been identified as promising targets for therapy against leishmaniasis. These enzymes are involved in solving topological problems generated during replication, transcription, and recombination of DNA. Being unlike that of the mammalian host, type IB DNA topoisomerase (TopIB) from Leishmania spp. is a unique bisubunit protein, which makes it very interesting as a selective drug target. In the present investigation, we studied the effect of two TopIB poisons with indenoisoquinoline structure, indotecan and AM13-55, on a murine BALB/c model of infected splenocytes with L. infantum, comparing their effectiveness with that of the clinically tested leishmanicidal drug paromomycin. Both compounds have high selectivity indexes compared with uninfected splenocytes. SDS-KCl-precipitable DNA-protein complexes in Leishmania promastigotes and in vitro cleaving assays confirmed that these drugs are Top poisons. The inhibitory potency of both indenoisoquinolines on L. infantum recombinant TopIB was assessed in vitro, with results showing that indotecan was the most active compound, preventing the relaxation of supercoiled DNA. Experimental infections in susceptible BALB/c mice treated with 2.5 mg/kg body weight/day once every other day for a total of 15 days showed that indotecan cleared more than 80% of the parasite burden of the spleen and liver, indicating promising activity against visceral leishmaniasis.
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PMID:Indotecan (LMP400) and AM13-55: two novel indenoisoquinolines show potential for treating visceral leishmaniasis. 2285 May 21

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