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)

A novobiocin-resistant subline of WEHI-3B D+ murine monomyelocytic leukemia cells was developed by the continuous exposure of cells to this agent in vitro. Sensitive (WEHI-3B/S) and novobiocin-resistant (WEHI-3B/NOVO) sublines were cloned in vitro. WEHI-3B/NOVO cells were stable in the absence of novobiocin for more than 3 months, and the sensitive and resistant clones displayed the same growth rate, cell cycle distribution, cell size, DNA and protein content, and cloning efficiency. Novobiocin has been shown to compete with ATP for the ATP-binding site of topoisomerase II; therefore, intracellular ATP levels can influence the cellular sensitivity to novobiocin. High-performance liquid chromatographic analysis of total cell extracts demonstrated that no difference exists between WEHI-3B/S and WEHI-3B/NOVO cells in the content of ATP. Furthermore, exposure of both cell lines to novobiocin did not affect intracellular ATP levels. In addition to an approximately 2-fold level of resistance to novobiocin, the WEHI-3B/NOVO subline was also 7- and 11-fold cross-resistant to the topoisomerase II-targeted drugs, teniposide and etoposide (VP-16), respectively. A lower level of cross-resistance, comparable to that of novobiocin, was observed in WEHI-3B/NOVO cells for the intercalating topoisomerase II-reactive drugs, doxorubicin, 4'-(9-acridinylamino)methanesulfon-m-anisidide and aclacinomycin A, while the sensitivity to the cytotoxic action of the non-topoisomerase II-acting agents, camptothecin and vincristine, was not altered. After 3-6 h of exposure to 1 microM VP-16, WEHI-3B/S cells accumulated in the S and G2 + M phases of the cell cycle. Similar changes were detected in WEHI-3B/NOVO cells only after exposure to a 10-fold higher concentration of VP-16. Exposure to 150 microM novobiocin caused an accumulation of WEHI-3B/S cells in the G0-G1 phase of the cell cycle but did not affect the cell cycle distribution of WEHI-3B/NOVO cells, while camptothecin induced the same type and extent of changes in the cell cycle distribution of both cell lines. Although the WEHI-3B/NOVO subline appeared to be less responsive to the differentiation-inducing activity of novobiocin and teniposide, the capacity of WEHI-3B/NOVO cells to respond to the differentiation-inducing agent 13-cis-retinoic acid was not significantly different from that of WEHI-3B/S cells. A slight decrease in the accumulation of VP-16 occurred in the resistant cell line, which did not appear to be of sufficient magnitude to account for the 11-fold increase in the degree of resistance to this agent.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Development and characterization of a WEHI-3B D+ monomyelocytic leukemia cell line resistant to novobiocin and cross-resistant to other topoisomerase II-targeted drugs. 131 27

Ninety quinolones were evaluated to determine whether their ability to induce mammalian topoisomerase II mediated DNA cleavage in vitro correlated with their antitumor activity in vivo. Ten quinolones generated linear DNA at a yield of more than 10% of substrate supercoiled DNA in the mammalian topoisomerase II mediated DNA cleavage assay. All of these compounds showed a significant increase in life span (greater than 20%) in the murine leukemia P388 model. These antitumor quinolones have closely related structures: two halogens at C-6 and C-8; and cyclopropyl at N-1 of quinolone skeleton. In contrast, many analogues of the above quinolones, as well as new quinolones used clinically as an antibacterial drug, did not induce the cleavable complex in vitro or show antitumor activity in vivo. These findings indicate that quinolone derivatives can be a promising new class of antitumor agent targeting mammalian topoisomerase II.
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PMID:Antitumor quinolones with mammalian topoisomerase II mediated DNA cleavage activity. 131 28

The decatenation activity of DNA topoisomerase II is essential for viability as eukaryotic cells traverse mitosis. Phosphorylation has been shown to stimulate topoisomerase II activity in vitro. Here we show that topoisomerase II is a phosphoprotein in yeast and that the level of incorporated phosphate is significantly higher at mitosis than in G1. Comparison of tryptic phosphopeptide maps reveals that the major phosphorylation sites in vivo are targets for casein kinase II. Incorporation of phosphate into topoisomerase II is nearly undetectable at the non-permissive temperature in a conditional casein kinase II mutant. The sites modified by casein kinase II are located in the extreme C-terminal domain of topoisomerase II. This domain is absent in prokaryotic and highly divergent among eukaryotic type II topoisomerases, and may serve to regulate functions of topoisomerase II that are unique to eukaryotic cells.
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PMID:Casein kinase II phosphorylates the eukaryote-specific C-terminal domain of topoisomerase II in vivo. 131 74

A putative topoisomerase II gene of African swine fever virus was mapped using a degenerate oligonucleotide probe derived from a region highly conserved in type II topoisomerases. The gene is located within EcoRI fragments P and H of the African swine fever virus genome. Sequencing of this region has revealed a long open reading frame, designated P1192R, encoding a protein of 1192 amino acids, with a predicted molecular weight of 135,543. Open reading frame P1192R is transcribed late after infection into a 4.6-kb RNA. The deduced amino acid sequence of this open reading frame shares significant similarity with topoisomerase II sequences from different sources, with percentages of identity between 23 and 29%. The evolutionary relationships among the topoisomerase II sequences of ASF virus, eukaryotes and prokaryotes were analyzed and a phylogenetic tree was established. The tree indicates that the ASF virus topoisomerase II gene was present in the virus genome before protozoa, yeasts, and metazoa diverged.
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PMID:A gene homologous to topoisomerase II in African swine fever virus. 131 88

A number of quinolones and related antibacterial compounds were screened for activity against calf thymus topoisomerase II by using the P4 unknotting and DNA breakage assays. Several compounds from different structural classes which inhibited DNA unknotting with 50% inhibitory concentrations ranging from 8 to 25 micrograms/ml were identified. Two experimental isothiazoloquinolones from this group, designated A-65281 and A-65282, were also found to induce considerable DNA breakage mediated by calf thymus topoisomerase II, with 32P-end-labeled pBR322 as the substrate. These compounds were nearly as potent as teniposide, with DNA breakage activity evident at concentrations as low as 4 micrograms/ml. However, some differences in DNA cleavage patterns from those with teniposide were evident. These studies have thus identified a new class of agents which have activity against both bacterial and eukaryotic type II topoisomerases. The implications of these data for the selectivity of topoisomerase-directed compounds and the potential toxicity of such compounds developed as antibacterial agents are discussed.
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PMID:Induction of calf thymus topoisomerase II-mediated DNA breakage by the antibacterial isothiazoloquinolones A-65281 and A-65282. 131 51

Amsacrine and demethylepipodophyllotoxins (etoposide and teniposide) are potent topoisomerase II inhibitors which have optimum activity in different cancers. To investigate whether these differences are due to different activity on cellular oncogenes, drug-induced topoisomerase II cleavage sites were mapped and sequenced in the human c-myc protooncogene. In the presence of purified murine L1210 topoisomerase II, amsacrine induces prominent cleavage in the P2 promoter (site 2499/2502). Footprinting experiments indicate that topoisomerase II binds to the entire promoter region (approximately 20 base pairs on the sides of the P2 site). In the case of teniposide or etoposide, cleavage is more diffuse and markedly less at the P2 site. Mapping of cleavage sites in human small cell lung carcinoma cells (NCI N417) also shows that cleavage in the P2 promoter region is induced preferentially by amsacrine but not by demethylepipodophyllotoxins. Thus, selective gene damage among topoisomerase II inhibitors may contribute to differential anticancer activity.
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PMID:Differential effects of amsacrine and epipodophyllotoxins on topoisomerase II cleavage in the human c-myc protooncogene. 131 59

The two-year survival rate of patients with small cell lung cancer is less than 10%. The major reason for this poor outcome is the development of drug resistance. Panels of small cell lung cancer cell lines have been established, providing models for the study of drug resistance in this tumour. One such model is the doxorubicin-selected H69AR cell line. H69AR displays the typical multidrug resistance phenotype in that it is cross-resistant to anthracyclines, Vinca alkaloids (e.g., vinblastine) and epipodophyllotoxins (e.g., VP-16). However, H69AR cells do not overexpress P-glycoprotein, the membrane drug efflux pump frequently found on multidrug resistant cells. Some alterations in glutathione levels and associated enzyme activities were found but the data do not support the notion that enhanced drug detoxication is involved in H69AR cell resistance. Fewer drug-induced DNA strand breaks, reduced levels of topoisomerase II, and reduced formation of drug-stabilized DNA/topoisomerase II complexes were observed in H69AR cells. These data implicate topoisomerase II in the resistance phenotype of H69AR cells, but cannot explain H69AR cell resistance to the Vinca alkaloids, which do not have topoisomerase II as a target. Monoclonal antibodies against antigens overexpressed on H69AR cells have been derived and four have been characterized. Immunoscreening of an H69AR cDNA expression library has allowed the identification of one of these antigens as p36 (annexin II), a Ca2+/phospholipid binding protein. Chemosensitizers and novel xenobiotics have been examined for their ability to circumvent the drug resistance of H69AR cells. The limited success of these investigations suggests that innovative approaches may be required. In conclusion, the data obtained with H69AR and other models of small cell lung cancer indicate that multiple mechanisms contribute to drug resistance in this disease.
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PMID:The 1991 Merck Frosst Award. Multidrug resistance in small cell lung cancer. 131 57

Drosophila melanogaster topoisomerase II is capable of joining phi X174 (+) strand DNA that it has cleaved to duplex oligonucleotide acceptor molecules by an intermolecular ligation reaction (Gale, K. C. and Osheroff, N. (1990) Biochemistry 29, 9538-9545). In order to investigate potential mechanisms for topoisomerase II-mediated DNA recombination, this intrinsic enzyme activity was further characterized. Intermolecular DNA ligation proceeded in a time-dependent fashion and was concentration-dependent with respect to oligonucleotide. The covalent linkage between phi X174 (+) strand DNA and acceptor molecules was confirmed by Southern analysis and alkaline gel electrophoresis. Topoisomerase II-mediated intermolecular DNA ligation required the oligonucleotide to contain a 3'-OH terminus. Moreover, the reaction was dependent on the presence of a divalent cation, was inhibited by salt, and was not affected by the presence of ATP. The enzyme was capable of ligating phi X174 (+) strand DNA to double-stranded oligonucleotides that contained 5'-overhang, 3'-overhand, or blunt ends. Single-stranded, nicked, or gapped oligonucleotides also could be used as acceptor molecules. These results demonstrate that the type II enzyme has an intrinsic ability to mediate illegitimate DNA recombination in vitro and suggests possible roles for topoisomerase II in nucleic acid recombination in vivo.
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PMID:Intrinsic intermolecular DNA ligation activity of eukaryotic topoisomerase II. Potential roles in recombination. 131 9

The effects of selected DNA repair inhibitors on the frequency of human cytomegalovirus (HCMV)-induced chromosome aberrations were evaluated in human peripheral blood lymphocytes (PBLs). Treatment of HCMV-infected PBLs with camptothecin (0.05 to 0.3 micrograms/ml), an inhibitor of topoisomerase I, for 30 hr resulted in a significant (P less than 0.01) synergistic enhancement of the frequency of HCMV-induced chromosome damage. On the other hand, a significant increase in the frequency of chromosome damage was not noted for infected PBLs treated with either 3-aminobenzamide (3-AB; 3 to 30 micrograms/ml), an inhibitor of poly(ADP-ribose) polymerase, or novobiocin (3 to 30 micrograms/ml), an inhibitor of topoisomerase II or excision repair processes, for 30 hr. Chromatid-type breaks and exchanges were the predominant type of chromosome aberrations observed in the HCMV-infected cells treated with camptothecin, suggesting that HCMV infection is associated with the induction of single-strand DNA breaks. Furthermore, these findings suggest that HCMV infection does not inflict direct DNA damage which is repaired through 3-AB- or novobiocin-sensitive pathways.
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PMID:Modulation of the frequency of human cytomegalovirus-induced chromosome aberrations by camptothecin. 131 15

The effect of mammalian and bacterial topoisomerase II inhibitors on Leishmania promastigotes was studied in vitro. Parasites were incubated with drugs, and cytotoxicity was assessed on the basis of the loss of flagellar motility and cell lysis after 48 h. 9-Aminoacridines, which are structurally related to the known antileishmanial compounds quinacrine and chlorpromazine, showed activity against the parasite at concentrations in the range of 10 to 20 microM. Adriamycin showed far less activity, while etoposide and several quinolones were inactive at 100-microM concentrations. These results demonstrate that a particular structural class of compounds is cytotoxic to Leishmania species. The unique structure-activity relationship discovered suggests that leishmanial topoisomerase II could be a useful target for chemotherapy.
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PMID:Cytotoxicity of acridine compounds for Leishmania promastigotes in vitro. 131 84

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