EC:5.99.1.2 - FACTA Search

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)

New details of the molecular interactions of quinolones with their target DNA gyrase and DNA have come from the nucleotide sequences of the gyrA genes from resistant mutants of Escherichia coli and wild-type strains of other bacteria and studies of gyrase A tryptic fragments, all suggesting the importance of an amino-terminal domain in quinolone action. Alterations in DNA supertwisting were also associated with altered quinolone susceptibility, possibly by indirect effects on DNA gyrase expression. Specific binding of relevant concentrations of norfloxacin to a complex of DNA gyrase and DNA in the presence of ATP, the cooperativity of DNA binding, and the crystalline structure of nalidixic acid have led to a model in which quinolones bind cooperatively to a pocket of single-strand DNA created by DNA gyrase. Quinolones vary in their relative activity against DNA gyrase and its eukaryotic homolog topoisomerase II, and in some assays increased action against the eukaryotic enzyme was associated with genotoxicity. Inhibition of bacterial DNA synthesis by quinolones may correlate with MICs in some species, but comparisons of drug accumulation and inhibition of DNA synthesis in permeabilized cells among species have been difficult to interpret. The specific factors necessary for bacterial killing by quinolones in addition to interaction with DNA gyrase have remained elusive, but include oxygen and new protein synthesis. The coordinate expression of the SOS proteins appears not to be necessary for quinolone lethality. Two independent mutants with selective reduced killing by quinolones and beta-lactams indicate overlap in the pathways of bactericidal activity of these classes of agents with distinct targets.
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PMID:Mode of action of the new quinolones: new data. 165 Jun 98

Nuclear extracts from teniposide (VM-26)-resistant sublines of the human leukemic cell line CCRF-CEM have decreased levels of DNA topoisomerase II catalytic activity and decreased capacity to form drug-stabilized covalent protein-DNA complexes. The ATP concentration required for equivalent activity in a DNA-unknotting assay is 2- to 8-fold higher in nuclear extracts from drug-resistant cell lines as compared with the parental line. When adenosine 5'-[beta,gamma-imido]triphosphate is substituted for ATP in complex-formation assays, no significant change is seen with drug-sensitive cells, but a 50-65% reduction is seen with VM-26-resistant cells. Collectively, these results indicate that an alteration in ATP binding may be involved in the resistance phenotype. Therefore, we identified regions of the topoisomerase II sequence that conform to previously identified nucleotide-binding sites. Starting with cDNA as the template we determined the sequence of the topoisomerase II mRNA surrounding these sites by sequencing DNA fragments produced by the polymerase chain reaction. In the region corresponding to the consensus B ATP-binding sequence described by Walker et al. [Walker, J. E., Saraste, M., Runswick, M. J. & Gay, N. J. (1982) EMBO J. 1, 945-951], the cDNA from the two VM-26-resistant sublines contained an altered sequence having a G----A base change. This base substitution results in the replacement of the conserved arginine at position 449 with a glutamine. Hybridization with allele-specific oligonucleotides confirmed the presence of both the normal and the altered sequence in the resistant cell lines, whereas only the normal sequence was found in the sensitive CEM cells. A chemical mismatch cleavage procedure for the detection of mispaired bases in DNA duplexes identified no other alterations in the 5' third of the mRNA coding sequence, which contains the complete ATP-binding domain of topoisomerase II. The presence of mRNA encoding topoisomerase II with Gln449 correlates both with the presence of a topoisomerase II protein whose interaction with ATP is altered and with increased resistance to the cytotoxicity of VM-26.
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PMID:Expression of a mutant DNA topoisomerase II in CCRF-CEM human leukemic cells selected for resistance to teniposide. 165 58

We have characterized the topoisomerase I and II activities in nuclear extracts from immature embryos of Zea mays and the effect of the treatment with 2,4-dichlorophenoxyacetic acid (2,4-D) and abscisic acid (ABA). These extracts were shown to be essentially devoid of protease and nuclease activities and they were tested for their ability to relax supercoiled DNA, unknotting P4 DNA and catenate circular duplex DNA under catalytic conditions. Unknotting and catenation reactions are strictly magnesium- and ATP-dependent, but not the relaxation of circular supercoiled DNA allowing the detection of both topoisomerase I and II activities. Two cytotoxic drugs, camptothecin, a plant alkaloid that inhibits eukaryotic topoisomerase I, and epipodophyllotoxin VM-26 (teniposide) that inhibits topoisomerase II, have been assayed in our extracts showing similar inhibitory effects on topoisomerase enzymes. Alkaline phosphatase treatment of nuclear extracts abolishes both topoisomerase activities. Nuclear extracts from embryos treated with 2,4-D showed 200% increase on topoisomerase II activity as compared with untreated ones, but only residual activity was detected in ABA-treated embryos. Nuclear extracts from hormone-treated and untreated embryos showed similar topoisomerase I activity with deviations of less than 25%. These differences are discussed in terms of possible post-translational modifications of the enzymes associated with the increase in proliferation activity of calli.
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PMID:Characterization of topoisomerase I and II activities in nuclear extracts during callogenesis in immature embryos of Zea mays. 165 30

In this work some aspects of carcinogenesis are given. The importance of the emergence of Z or H DNA structure in the gene, or in the flanking gene sequences for the gene deletion and unusual gene recombination, is discussed. Some considerations on the role of selective pressure (of polyamines, of Mg2+, of the various levels of topoisomerase II, and of ATP) in the process of oncogene amplification, are given too.
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PMID:The importance of the specific Z-DNA structure and polyamines in carcinogenesis: fact or fiction. 165 80

DNA topoisomerase II was isolated from mouse leukemia L1210 cells and the activity was determined by using P4 phage knotted DNA and pBR 322 DNA as the substrates. Based on these results, a method for screening antitumor agents by using DNA topoisomerase II as a target was established. The experiments showed that DNA topoisomerase II catalyzed pBR 322 DNA breaking and relaxing which were reversible and dependent on ATP. The activity was increased 2-4 times in the presence of ATP 1 mmol.L-1. In contrast with type II enzyme, the activity of DNA topoisomerase I was completely inhibited in the presence of ATP 1 mmol.L-1 and had full activity in the absence of ATP. Type II enzyme also showed the unknotting activity by using p4 phage knotted DNA as a substrate. DNA cleavage and relaxing reaction induced by type II enzyme increased 5-fold in the presence of Doxorubicin (Dox) 1 microgram.ml-1 or daunorubicin (Dau). Etoposide (Eto) and aclarubicin B (Acl B) also stimulated the reaction at 100 micrograms.ml-1. The cleavage reaction resulted from topoisomerase II was inhibited by other agents, such as frankincense extracts, terpenic compounds (BC series).
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PMID:Determination of DNA topoisomerase II activity from L1210 cells--a target for screening antitumor agents. 166 90

Pentamidine and related derivatives inhibit an ATP-dependent topoisomerase activity from Pneumocystis carinii extracts. Since it would be extremely difficult to purify ample quantities of the organisms to allow characterization of the enzyme and carry out drug binding experiments, we have begun the cloning of the topoisomerase genes with a goal towards expression of each gene in a heterologous system. Following construction of genomic libraries in the vectors lambda DASH and lambda ZAP, oligonucleotides corresponding to conserved regions of both topoisomerases I and II were used in the polymerase chain reaction (PCR) of P. carinii DNA to generate probes. Candidate clones for both genes have been identified. Partial DNA sequence of the topoisomerase II gene has been determined.
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PMID:Inhibition of topoisomerases from Pneumocystis carinii by aromatic dicationic molecules. 166 35

We have initiated the characterization of the DNA helicases from HeLa cells, and we have observed at least 4 molecular species as judged by their different fractionation properties. One of these only, DNA helicase I, has been purified to homogeneity and characterized. Helicase activity was measured by assaying the unwinding of a radioactively labelled oligodeoxynucleotide (17 mer) annealed to M13 DNA. The apparent molecular weight of helicase I on SDS polyacrylamide gel electrophoresis is 65 kDa. Helicase I reaction requires a divalent cation for activity (Mg2+ greater than Mn2+ greater than Ca2+) and is dependent on hydrolysis of ATP or dATP. CTP, GTP, UTP, dCTP, dGTP, dTTP, ADP, AMP and non-hydrolyzable ATP analogues such as ATP gamma S are unable to sustain helicase activity. The helicase activity has an optimal pH range between pH8.0 to pH9.0, is stimulated by KCl or NaCl up to 200mM, is inhibited by potassium phosphate (100mM) and by EDTA (5mM), and is abolished by trypsin. The unwinding is also inhibited competitively by the coaddition of single stranded DNA. The purified fraction was free of DNA topoisomerase, DNA ligase and nuclease activities. The direction of unwinding reaction is 3' to 5' with respect to the strand of DNA on which the enzyme is bound. The enzyme also catalyses the ATP-dependent unwinding of a DNA:RNA hybrid consisting of a radioactively labelled single stranded oligodeoxynucleotide (18 mer) annealed on a longer RNA strand. The enzyme does not require a single stranded DNA tail on the displaced strand at the border of duplex regions; i.e. a replication fork-like structure is not required to perform DNA unwinding. The purification of the other helicases is in progress.
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PMID:A DNA helicase from human cells. 170 1

Although various anti-cancer drugs have widely differing primary modes of action, the mechanisms of cell death appear similar but are not well understood. To investigate this problem we exposed cultured human leukemic T-lymphoblasts to 1-hr pulse doses of an alkylating agent (mafosfamide) and a topoisomerase II inhibitor (etoposide) that cause delayed cell death. The effects of these drugs on nucleotide content, poly (ADP-ribosyl)ation and DNA strand breakage were assessed. Both drugs caused DNA strand breakage, and although the pattern differed, this seemed to be the major mechanism by which cells were killed. The degree and time course of the NAD and ATP depletion that mafosfamide and etoposide caused were similar. Both drugs caused a nadir in cellular nucleotide levels 2 hr after exposure but between 2 and 6 hr there was a partial recovery. This correlates with the time course of the DNA damage they caused and appeared to result from poly (ADP-ribosyl)ation. Both drugs were shown to cause apoptotic cell death associated with endonucleolytic DNA fragmentation. We suggest that DNA damage, as a primary or secondary effect, associated with poly (ADP-ribosyl)ation and apoptotic cell death may be a common pathway of cytotoxic drug action.
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PMID:DNA damage, poly (ADP-ribosyl)ation and apoptotic cell death as a potential common pathway of cytotoxic drug action. 174 64

Inherited susceptibility to a wide variety of neoplasias (Li-Fraumeni syndrome), has been shown in studies of one cancer-prone family, to have an intriguing association with an aberrant c-raf-1 gene and inheritance of a radioresistant phenotype in their non-cancerous skin fibroblasts. This association together with observations that DNA topoisomerases, when defective, can introduce errors into DNA and that these enzymes are perturbed in vitro by serine/threonine kinases similar to raf encoded proteins, prompted investigation of DNA topoisomerase activity of the family's fibroblasts. Since radioresistance was transferred to murine cells (NIH-3T3) when the aberrant c-raf-1 gene from this family was transfected, we also examined transformants containing this and other oncogenes. V-raf/c-myc and EJ-ras transformants were examined, the former because the family's skin fibroblasts also have 3-8-fold elevated myc expression (not apparently relevant to radioresistance) and the latter because ras, like raf, conveys radioresistance. The family members' fibroblasts and the three transfected murine lines, showed a similar perturbation of a spermidine and ATP-dependent DNA catenation activity (typical of DNA topoisomerase II). There was a significant positive correlation (r = 0.93; P = 0.0026) between the degree of activation of topoisomerase II and one measure of radioresistance (the Dq value). Relaxation of DNA supercoiling (topoisomerase I activity and other DNA nicking enzymes) was not abnormal. Cytotoxicity assays and evaluation of the influence of topoisomerase II inhibitors on DNA/protein complex formation, corroborated the existence of a qualitative topoisomerase II defect in the family's cells and transfectants. Although the contention that the qualitative topoisomerase II abnormalities observed here may be associated with malfunction is highly speculative, these findings may be relevant to the mechanism of oncogenesis, not only in this family, but with raf and ras type oncogenes.
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PMID:Aberrant DNA topoisomerase II activity, radioresistance and inherited susceptibility to cancer. 184 52

The post-strand-passage DNA cleavage/religation equilibrium of Drosophila melanogaster topoisomerase II was examined. This was accomplished by including adenyl-5'-yl imidodiphosphate, a nonhydrolyzable ATP analogue which supports strand passage but not enzyme turnover, in assays. Levels of post-strand-passage enzyme-mediated DNA breakage were 3-5 times higher than those generated by topoisomerase II prior to the strand-passage event. This finding correlated with a decrease in the apparent first-order rate of topoisomerase II mediated DNA religation in the post-strand-passage cleavage complex. Since previous studies demonstrated that antineoplastic drugs stabilize the pre-strand-passage cleavage complex of topoisomerase II by impairing the enzyme's ability to religate cleaved DNA [Osheroff, N. (1989) Biochemistry 28, 6157-6160; Robinson, M.J., & Osheroff, N. (1990) Biochemistry 29, 2511-2515], the effects of 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA) and etoposide on the enzyme's post-strand-passage DNA cleavage complex were characterized. Both drugs stimulated the ability of topoisomerase II to break double-stranded DNA after strand passage. As determined by two independent assay systems, m-AMSA and etoposide stabilized the enzyme's post-strand-passage DNA cleavage complex primarily by inhibiting DNA religation. These results strongly suggest that both the pre- and post-strand-passage DNA cleavage complexes of topoisomerase II serve as physiological targets for these structurally disparate antineoplastic drugs.
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PMID:Effects of antineoplastic drugs on the post-strand-passage DNA cleavage/religation equilibrium of topoisomerase II. 184 75

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