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)

In Escherichia coli, the miniF plasmid CcdB protein is responsible for cell death when its action is not prevented by polypeptide CcdA. We report the isolation, localization, sequencing and properties of a bacterial mutant resistant to the cytotoxic activity of the CcdB protein. This mutation is located in the gene encoding the A subunit of topoisomerase II and produces an Arg462----Cys substitution in the amino acid sequence of the GyrA polypeptide. Hence, the mutation was called gyrA462. We show that in the wild-type strain, the CcdB protein promotes plasmid linearization; in the gyrA462 strain, this double-stranded DNA cleavage is suppressed. This indicates that the CcdB protein is responsible for gyrase-mediated double-stranded DNA breakage. CcdB, in the absence of CcdA, induces the SOS pathway. SOS induction is a biological response to DNA-damaging agents. We show that the gyrA462 mutation suppresses this SOS activation, indicating that SOS induction is a consequence of DNA damages promoted by the CcdB protein on gyrase-DNA complexes. In addition, we observe that the CcdBS sensitive phenotype dominates over the resistant phenotype. This is better explained by the conversion, in gyrA+/gyrA462 merodiploid strains, of the wild-type gyrase into a DNA-damaging agent. These results strongly suggest that the CcdB protein, like quinolone antibiotics and a variety of antitumoral drugs, is a DNA topoisomerase II poison. This is the first proteinic poison-antipoison mechanism that has been found to act via the DNA topoisomerase II.
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PMID:Cell killing by the F plasmid CcdB protein involves poisoning of DNA-topoisomerase II complexes. 132 24

The effect of ICRF-193, a noncleavable-complex-forming topoisomerase II inhibitor, on simian virus 40 (SV40) DNA and SV40 chromosome replication was examined by using an in vitro replication system composed of HeLa cell extracts and SV40 T antigen. Unlike the topoisomerase inhibitors VP-16 and camptothecin, ICRF-193 had little effect on DNA chain elongation during SV40 DNA replication, but high-molecular-weight DNAs instead of segregated monomer DNAs accumulated as major products. Analysis of the high-molecular-weight DNAs by two-dimensional gel electrophoresis revealed that they consisted of catenated dimers and late Cairns-type DNAs. Incubation of the replicated DNA with topoisomerase II resulted in conversion of the catenated dimers to monomer DNAs. These results indicate that ICRF-193 induces accumulation of catenated dimers and late Cairns-type DNAs by blocking the decatenating and relaxing activities of topoisomerase II in the late stage of SV40 DNA replication. In contrast, DNA replication of SV40 chromosomes was severely blocked by ICRF-193 at the late stage, and no catenated dimers were synthesized. These results are consistent with the finding that topoisomerase II is required for unwinding of the final duplex DNA in the late stage of SV40 chromosome replication in vitro.
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PMID:Effect of ICRF-193, a novel DNA topoisomerase II inhibitor, on simian virus 40 DNA and chromosome replication in vitro. 132 12

We investigated the in vivo effect of ellipticine, a mammalian topoisomeraseII(topoII) inhibitor, on SV40 DNA topology. In contrast to epipodophyllotoxins, ellipticine did not cause significant double stranded cleavage of intracellular SV40 DNA. Furthermore, ellipticine reduced cleavage induced by epipodophyllotoxins, VP16 and VM26. Unexpectedly, ellipticine dramatically increased the superhelical density of a fraction of intracellular SV40 DNA. Several lines of evidence suggest that the formation of this highly supercoiled DNA species (Ih form DNA) is not due to the inhibition of topoII per se, but is the result of intercalation by ellipticine in a subfraction of the intracellular SV40 chromatin followed by the fixation of DNA linking number by a topoisomerase activity. Based on the linking number change and the known unwinding angle of ellipticine, the intercalation density was calculated as one ellipticine molecule per 10-20 bp in the Ih DNA. This result suggests the existence of different populations of intracellular SV40 chromatin with respect to the accessibility to ellipticine intercalation.
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PMID:Ellipticine increases the superhelical density of intracellular SV40 DNA by intercalation. 132 74

GR63178A (NSC D611615) is the second pentacyclic pyrolloquinone to be evaluated clinically as an anticancer drug. Its mechanism of action is unknown but may be related either to its quinone group or planar ring system. In this report we have investigated the ability of GR63178A to bind non-covalently to DNA, inhibit topoisomerase II and undergo reduction to reactive free radical species. Using two DNA duplexes, a 12-mer oligonucleotide which is a preferred sequence for minor groove binders and a hexamer which is a preferred sequence for intercalators, no evidence of significant binding with GR63178A was found. Neither GR63178A nor GR54374X (its 9-hydroxy metabolite) inhibited purified human topoisomerase II in a decatenation assay. Free radical chemistry was studied by both pulse radiolysis and ESR spectroscopy as well as by in vitro drug incubations with NADPH-fortified rat liver microsomes and purified cytochrome P450 reductase. The one-electron reduction potential of GR63178A was -207 mV +/- 10 which is much more positive than other quinone-containing anticancer drugs such as doxorubicin, mitomycin C and mitozantrone. GR63178A underwent enzyme-catalysed quinone reduction more readily than doxorubicin but produced significantly fewer reactive oxygen species. No evidence was detected of drug-induced, radical-mediated DNA damage in vitro using pBR322 plasmid DNA. Disproportionation of the GR63178A semi-quinone free radical proceeded with a rate constant of 1 x 10(9) M-1 sec-1 under anaerobic conditions, one order of magnitude faster than doxorubicin. The preferential disproportionation of the semi-quinone may explain our inability to detect a free radical signal by ESR. The hydroquinone of GR63178A was stable and exhibited strong visible absorption with a bathochromic shift of 120 nm over the parent drug. These unusual properties may be due to the hydroquinone undergoing a form of keto-enol tautomerization. Thus, GR63178A free radical formation does not appear to result in significant drug activation. In conclusion, GR63178A is unlikely to mediate its antitumour activity by DNA binding, topoisomerase II inhibition or free radical formation in direct contrast to similar anthracycline- and anthraquinone-based anticancer drugs.
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PMID:Studies on the molecular pharmacology of GR63178A. A novel pentacyclic pyrolloquinone anticancer drug. 132 74

The ability of a eukaryotic DNA topoisomerase I to catalyze DNA rearrangements was examined in vitro using defined substrates and purified enzyme. Site-specific DNA strand cleavage by vaccinia topoisomerase I across from a nick generated double-strand breaks that could be religated to a heterologous blunt-ended duplex DNA regardless of the sequence of the acceptor molecule. Topoisomerase bound covalently at internal positions could religate the bound strand to an incoming acceptor provided that DNA molecule had sequence homology to the region 3' of the scissile bond. These end-joining reactions suggest two potential modes of topoisomerase-mediated recombination that differ in their requirements for DNA homology.
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PMID:Two classes of DNA end-joining reactions catalyzed by vaccinia topoisomerase I. 132 9

The TOP3 gene of the yeast Saccharomyces cerevisiae was postulated to encode a DNA topoisomerase, based on its sequence homology to Escherichia coli DNA topoisomerase I and the suppression of the poor growth phenotype of top3 mutants by the expression of the E. coli enzyme (Wallis, J.W., Chrebet, G., Brodsky, G., Golfe, M., and Rothstein, R. (1989) Cell 58, 409-419). We have purified the yeast TOP3 gene product to near homogeneity as a 74-kDA protein from yeast cells lacking DNA topoisomerase I and overexpressing a plasmid-borne TOP3 gene linked to a phosphate-regulated yeast PHO5 gene promoter. The purified protein possesses a distinct DNA topoisomerase activity: similar to E. coli DNA topoisomerases I and III, it partially relaxes negatively but not positively supercoiled DNA. Several experiments, including the use of a negatively supercoiled heteroduplex DNA containing a 29-nucleotide single-stranded loop, indicate that the activity has a strong preference for single-stranded DNA. A protein-DNA covalent complex in which the 74-kDa protein is linked to a 5' DNA phosphoryl group has been identified, and the nucleotide sequences of 30 sites of DNA-protein covalent complex formation have been determined. These sequences differ from those recognized by E. coli DNA topoisomerase I but resemble those recognized by E. coli DNA topoisomerase III. Based on these results, the yeast TOP3 gene product can formally be termed S. cerevisiae DNA topoisomerase III. Analysis of supercoiling of intracellular yeast plasmids in various DNA topoisomerase mutants indicates that yeast DNA topoisomerase III has at most a weak activity in relaxing negatively supercoiled double-stranded DNA in vivo, in accordance with the characteristics of the purified enzyme.
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PMID:Identification of the yeast TOP3 gene product as a single strand-specific DNA topoisomerase. 132 25

This article describes the current approach to the systematic management of both small cell and non-small cell lung cancer (NSCLC). The treatment of stages I, II, and IIIa NSCLC is surgical resection. Although adjuvant chemotherapy in stage I disease offers no survival benefit, the role of adjuvant chemotherapy in stage II and IIIa NSCLC remains controversial. Results of pilot studies using neoadjuvant chemotherapy in stage IIIa NSCLC are encouraging and data from ongoing randomized trials are awaited with interest. For locally advanced NSCLC, chest irradiation remains the standard of care. However, the addition of systemic chemotherapy holds promise. The impact of cisplatin-based regimens on overall survival in stage IV NSCLC remains disappointing. The introduction of newer agents, such as 7-ethyl-10-[4-(1-piperidino)-1-piperidino] carbonyloxycamptothecin (CPT-11), a topoisomerase-I inhibitor, has shown early favorable results. Chemotherapy is the most important therapeutic modality in the management of small cell lung cancer because of this cancer's propensity for early dissemination. In limited stage small cell lung cancer, chest radiotherapy, particularly if used early and concurrently with chemotherapy, may improve survival, but at the expense of increased toxicity. The role of prophylactic brain irradiation remains controversial in limited-stage disease. Chemotherapy is also the most important treatment modality in extensive-stage disease, but its role is only palliative. Radiotherapy is reserved primarily for disease-related complications in patients in whom chemotherapy has failed.
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PMID:Lung cancer: a review of current therapeutic modalities. 132 79

We investigated the interaction between human lung cancer cells, laminin, and several differentiating agents. When grown on laminin coated substrate eight out of 11 small cell lung cancer (SCLC) cell lines exhibited attachment to laminin and three had extensive outgrowth of long neurite-like processes. Of seven non-small cell lung cancer cell lines, selected for their in vitro anchorage-independent growth, attachment was observed in only three cell lines, and process formation was far less extensive than in SCLC cell lines. Among several differentiating agents, only dcAMP, which alone induced attachment and some process formation, increased laminin-mediated attachment and process formation of two SCLC cell lines, NCI-N417 a variant cell line, and NCI-H345, a classic cell line. The expression of several neuroendocrine and neuronal markers was investigated in these two SCLC cell lines. The expression of the light subunit of neurofilaments increased in NCI-N417 within 3 to 4 days of seeding, while NCI-H345 exhibited approximately 5 fold increase in expression of the GRP gene and a 3 fold increase expression of the beta-actin gene. The expression of a number of other neuroendocrine and neuronal markers did not change following growth on laminin. The doubling times remained unchanged independent of the presence of and attachment to laminin while topoisomerase II gene expression levels in NCI-N417 cells decreased approximately 5 fold when cells were growing on laminin.
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PMID:Increased expression of differentiation markers can accompany laminin-induced attachment of small cell lung cancer cells. 132 26

Most of the cytotoxic anticancer drugs in current use have been shown to induce apoptosis in susceptible cells. The fact that disparate agents, which interact with different targets, induce cell death with some common features (endonucleolytic cleavage of DNA, changes in chromatin condensation) suggests that cytotoxicity is determined by the ability of the cell to engage this so-called 'programmed' cell death. The mechanism of the coupling of a stimulus (drug-target interaction) to a response (cell death) is not known, but modulation of this coupling may affect the outcome of drug treatment. This review surveys the recent evidence which supports the idea that the drug-target interaction per se is not the sole determinant of cellular sensitivity of cytotoxic drugs. Studies of the signals which might engage apoptosis, the genes which modulate it and the biochemical process of drug-induced apoptosis itself are described, where possible, for glucocorticoids, topoisomerase inhibitors, alkylating agents, antimetabolites and antihormones. It is suggested that identification of the gene products which couple the stimulus to the response, and so determine intrinsic cellular sensitivity (and resistance), will be important targets for new types of drugs. These might then allow responses to occur in the major cancers of man, which are chemoresistant.
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PMID:Apoptosis induced by anticancer drugs. 132 66

The catalytic activity of topoisomerase II is stimulated approximately 2-3-fold following phosphorylation by casein kinase II (Ackerman, P., Glover, C. V. C., and Osheroff, N. (1985) Proc. Natl. Acad. Sci. U. S. A. 82, 3164-3168). In order to delineate the mechanism by which the activity of the enzyme is enhanced, the effects of casein kinase II-mediated phosphorylation on the individual steps of the catalytic cycle of Drosophila topoisomerase II were characterized. Phosphorylation did not affect reaction steps that preceded hydrolysis of the enzyme's high energy ATP cofactor. This included enzyme-DNA binding, pre-strand passage DNA cleavage/religation, the double-stranded DNA passage event, and post-strand passage DNA cleavage/religation. In contrast, the rate of topoisomerase II-mediated ATP hydrolysis was stimulated 2.7-fold following phosphorylation by casein kinase II. Since ATP hydrolysis is a prerequisite for enzyme turnover, it is concluded that phosphorylation modulates the overall catalytic activity of topoisomerase II by stimulating the enzyme's ATPase activity.
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PMID:Effect of casein kinase II-mediated phosphorylation on the catalytic cycle of topoisomerase II. Regulation of enzyme activity by enhancement of ATP hydrolysis. 132 2

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