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)

Two naturally occurring lignanolides, isolated from the tropical climbing shrub Ipomoea cairica, (-)-arctigenin and (-)-trachelogenin, were found to inhibit strongly replication of human immunodeficiency virus type 1 (HIV-1; strain HTLV-III B) in vitro. At a concentration of 0.5 microM, (-)-arctigenin and (-)-trachelogenin inhibited the expression of HIV-1 proteins p17 and p24 by 80-90% and 60-70%, respectively. The reverse transcriptase activity in the culture fluids was reduced by 80-90% when the cells (HTLV-III B/H9) were cultivated in the presence of 0.5 microM (-)-arctigenin or 1 microM (-)-trachelogenin. At the same concentrations, the formation of syncytia in the HTLV-III B/H9-Jurkat cell system was inhibited by the compounds by more than 80%. A series of other lignan type compounds displayed no anti-HIV activity. Studying the molecular mechanism of action of (-)-arctigenin and (-)-trachelogenin we found that both compounds are efficient inhibitors of the nuclear matrix-associated DNA topoisomerase II activity, particularly of the enzyme from HIV-1-infected cells. Our results suggest that both compounds prevent the increase of topoisomerase II activity, involved in virus replication, after infection of cells with HIV-1.
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PMID:Differential in vitro anti-HIV activity of natural lignans. 196 81

DNA topoisomerase-II activity was measured in a variety of rat organs and in two types of cultured mammalian cells at different stages of growth. The assay for enzyme activity is based on the ability of DNA topoisomerase II to catenate relaxed, circular double-stranded [3H]DNA into huge networks of interlocked circles which can be selectively trapped on a nitrocellulose filter. This catenation requires ATP and provides a sensitive, specific, and quantitative way to measure topoisomerase-II activity in crude extracts of nuclei. The level of type-II topoisomerase activity showed little variation at different stages of growth in either Chinese hamster ovary cells or human skin fibroblasts. In both cell types, growth-arrested cells contain levels of topoisomerase II very similar to those seen in actively growing cells. In addition, substantial levels of type-II topoisomerase are found not only in those rat organs expected to contain large populations of growing cells (testis, spleen), but also in organs composed primarily of cells in G0 (brain, liver, lung). These data indicate that total nuclear type-II topoisomerase activity does not vary dramatically with the state of cell growth or degree of cell differentiation.
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PMID:Identification of DNA topoisomerase-II activity in terminally differentiated mammalian organs and in non-growing cultured cells. 196 87

Strategies to circumvent different forms of multidrug resistance (MDR) in tumor cells will be discussed. The form of MDR associated with overexpression of P-glycoprotein. Pgp-MDR, is well-understood, and its features are briefly described. Many clinically useful lipophilic organic bases have been shown to interfere with drug efflux mediated by Pgp, consequently circumventing or overcoming this form of MDR. Based on these empiric observations, screening and molecular modeling efforts are being employed to develop new modulators of Pgp-MDR. However, because inhibition of normal tissue Pgp can cause unacceptable toxicities, new strategies to circumvent Pgp-MDR in tumors must be sought. Possibilities range from pharmacokinetic modeling to the development of tissue-specific inhibitory antibodies or antisense oligonucleotides. Tumor cells expressing altered DNA topoisomerase II express a more restricted form of MDR, termed at-MDR, that will be discussed briefly and compared with Pgp-MDR. Modulators of Pgp-MDR are without effect in cells expressing only at-MDR. However, some analogs of anthracyclines appear to act via a topo II-independent pathway and can circumvent this form of resistance. Also, alterations in topoisomerase II may have consequences for other cellular functions, as at-MDR cells appear to have defects in DNA repair pathways, suggesting other areas for therapeutic exploitation.
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PMID:Strategies to circumvent multidrug resistance due to P-glycoprotein or to altered DNA topoisomerase II. 198 Apr 25

The antitumor agents m-AMSA, etoposide, teniposide and ellipticine have been reported to be potent clastogens in mammalian cells but non- or weakly mutagenic in bacteria; these observations have been correlated to the interference of these chemicals with DNA topoisomerase II activity in the former, but not in the latter, organisms. The genotoxicity of these 4 agents was evaluated using ad-3 reverse- and forward-mutation tests in Neurospora crassa. These agents (up to 0.8 mumole/plate) did not cause reversion in conidia of the ad-3A frameshift strains N24 and 12-9-26 using the overlay plate test, as contrasted to the positive control frameshift mutagen ICR-170. Heterokaryon 12 (H-12) of N. crassa permits the recovery of all classes of forward mutation at the ad-3+ region, including multilocus deletions. Using resting conidia of H-12 in a suspension assay, ellipticine was moderately mutagenic but no increase in ad-3 mutants was noted with the other 3 agents at a dose of 100 micrograms/ml. In vegetative cultures of H-12 grown in the presence of these agents, all 4 agents were nonmutagenic at a dose of 100 micrograms/ml. The positive control mutagen ICR-170 was mutagenic in both resting conidia and growing cultures of H-12. A similarity between the topoisomerase II of N. crassa and DNA gyrase of bacteria is suggested.
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PMID:Tests for the genotoxicity of m-AMSA, etoposide, teniposide and ellipticine in Neurospora crassa. 213 96

(N-[2-(Dimethylamino)ethyl]acridine-4-carboxamide (acridine carboxamide; NSC 601316) is an acridine-derived experimental antitumour agent with curative properties against Lewis lung carcinoma in mice. Although it intercalates into DNA and also appears to interact with topoisomerase II, its DNA binding properties appear distinct from other acridine derivatives such as the clinical antitumour drug, amsacrine. The mutagenic properties of acridine carboxamide, together with three related compounds containing either 9-aminoacridine or phenazine chromophores, were studied at the 6-thioguanine and ouabain loci in cultured V79 Chinese hamster fibroblasts. Each compound, when tested at concentrations causing up to 90% kill, had weak but significant activity at the 6-thioguanine but not at the ouabain locus. All drugs were potent inducers of micronuclei, indicating high clastogenic activity. There was a highly significant relationship between mutation frequency (as resistance to 6-thioguanine) and either cytotoxicity (measured as D37 in a clastogenicity assay) or clastogenicity. A broader range of compounds was also tested for microbial mutagenicity. In Salmonella typhimurium strains, none were mutagenic in TA98, TA100 or TA102 but several were mutagenic in TA1537, a frameshift tester strain. Some drugs also caused 'petite' mutagenesis in Saccharomyces cerevisiae. In general, compounds with the phenazine chromophore, which has no positive charge, were the most mutagenic in these systems. However, activity was not related to mammalian mutagenicity or antitumour effect. The results suggest that in mammalian cells, the cytotoxicity, clastogenicity and mutagenic activity of these drugs are mediated by similar mechanisms to those for amsacrine analogues, probably involving the enzyme DNA topoisomerase II.
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PMID:Genetic toxicology of tricyclic carboxamides, a new class of DNA binding antitumour agent. 214 58

A multidrug-resistant variant of the P388 leukemia cell line exhibits multiple biochemical changes, including reduced drug accumulation and markedly reduced DNA strand breakage induced by anthracyclines. To investigate whether the reduced formation of drug-induced DNA breaks was due to alteration of DNA topoisomerase II activity, nuclear extracts and partially purified enzymes from the sensitive line and the resistant subline were compared. DNA topoisomerase II activity in 0.35 M NaCl nuclear extracts from sensitive cells was approximately 1.7 times higher than that found in extracts from resistant cells, as determined by ability to unknot P4 phage DNA. In addition, it was found that teniposide-stimulated topoisomerase II DNA cleavage activity of nuclear extract from resistant cells was at least 10-fold lower than that from sensitive cells. This differential sensitivity paralleled a similar drug response of nuclei, as determined by the alkaline elution method. However, partially purified DNA topoisomerase II showed similar drug sensitivity in both cell lines. This finding suggests the presence of a modulating factor, which may be lost during purification. These results, indicating a reduction of both catalytic activity and DNA cleavage activity of DNA topoisomerase II in P388 multidrug-resistant cells, emphasize the importance of DNa topoisomerase function in the resistance mechanism. Thus, the concomitant involvement of multiple mechanisms could explain the high degree of resistance of these cells.
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PMID:Evidence of DNA topoisomerase II-dependent mechanisms of multidrug resistance in P388 leukemia cells. 215 5

Type II topoisomerase has been purified from mouse FM3A cells by using P4 phage knotted DNA as a substrate. Analysis of the purified enzyme by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed two bands of apparent molecular masses of 167 and 151 kDa. Partial digestion of the two bands with Staphylococcus aureus V8 protease indicated that the two polypeptides were structurally related. The enzyme required ATP and Mg2+ for activity. dATP could substitute for ATP, and ITP was slightly effective at 5-10 mM. The activity was sensitive to 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA), coumermycin, and ethidium bromide. A protein kinase activity was detected in the partially purified topoisomerase II fraction, and this protein kinase was further purified. The protein kinase phosphorylated the purified topoisomerase II, and the phosphorylation of topoisomerase II by the kinase increased the activity by 8.6-fold over that of the unmodified enzyme. The treatment of the purified topoisomerase II with alkaline phosphatase abolished the enzyme activity almost completely, and the treatment of the dephosphorylated topoisomerase II with the protein kinase restored the enzyme activity. The protein kinase activity was not stimulated by Ca2+ or cyclic nucleotides, and the aminoacyl residue phosphorylated by the kinase was serine. Enzymatic properties of the kinase were very similar to those of the kinase reported to be tightly associated with the Drosophila topoisomerase II [Sander, M., Nolan, J. M., & Hsieh, T.-S. (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 6938-6942]. The immunoprecipitation of nuclear extracts prepared from 32P-labeled cells with anti-mouse topoisomerase II antiserum indicated that DNA topoisomerase II existed in mouse cells as a phosphoprotein.
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PMID:Purification and characterization of type II DNA topoisomerase from mouse FM3A cells: phosphorylation of topoisomerase II and modification of its activity. 215 52

In an attempt to clarify the role of drug-induced protein-associated DNA breaks (i.e., DNA topoisomerase II-mediated DNA cleavage) in the cytotoxic activity of doxorubicin and etoposide, their cellular effects were compared in 2 human small-cell lung cancer (SCLC) lines, characterized by differential sensitivity to DNA topoisomerase II inhibitors. These drugs were selected for comparative studies since they are among the most effective agents in the treatment of SCLC. H146 and N592 cell lines were obtained from pleural effusion and bone-marrow aspirate of pretreated patients, respectively. Both cell lines grew as floating aggregates with similar doubling times (30 and 33 hr for N592 and H146 cells, respectively). Although, immediately after 1 hr exposure to equitoxic drug levels, the extent of DNA cleavage produced by doxorubicin was markedly lower than that produced by etoposide, DNA lesions produced by doxorubicin persisted and even increased following drug removal. In contrast, an almost complete disappearance of etoposide-induced DNA breaks was noted 1 hr after drug removal. Resealing of strand breaks was faster in N592 than in H146 cells. These findings suggest that reversal of these lesions plays a major role in cell survival rather than the occurrence of DNA breaks immediately following drug exposure. This observation is consistent with the view that inhibition of DNA re-ligation rather than stimulation of DNA cleavage is the critical step for drug action. The different response of these cell lines to cytotoxic action of the topoisomerase inhibitors is associated with a differential drug effect on DNA integrity (detected as DNA double-strand breaks and DNA-protein cross-links). However DNA lesions were comparable when cells were exposed to equitoxic drug levels. The observation that etoposide-induced DNA breaks were similar in isolated nuclei from both cell lines suggests that drug-target interaction is modulated in a different manner in the intact cell. As indicated by doxorubicin uptake and retention, cellular drug pharmacokinetics do not account for the different drug response of the studied SCLC lines, presumably, reflecting a different extent of DNA break formation and/or a different cytotoxic consequence of DNA damage.
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PMID:Comparison of DNA cleavage induced by etoposide and doxorubicin in two human small-cell lung cancer lines with different sensitivities to topoisomerase II inhibitors. 215 11

Fostriecin causes a delayed inhibition of replicative DNA synthesis in human cells, consistent with a role for DNA topoisomerase II (its target enzyme) at a late stage in replication. Fostriecin does not inhibit UV-induced excision repair. The less specific inhibitor novobiocin blocks repair in permeabilised cells given a low dose of UV, presumably through a mechanism other than the inhibition of topoisomerase II. Its effect cannot be accounted for by a depletion of the ATP required for incision. Camptothecin, an inhibitor of DNA topoisomerase I, blocks replicative DNA synthesis immediately but incompletely, suggesting a participation of topoisomerase I at the replication fork, but it, too, has no influence on DNA repair. We thus find no evidence for involvement of either topoisomerase I or II in the response of cells to UV damage.
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PMID:Comparison of effects of fostriecin, novobiocin, and camptothecin, inhibitors of DNA topoisomerases, on DNA replication and repair in human cells. 215 21

Etoposide (VP-16) and several other unrelated anti-tumour agents appear to act by inhibiting the enzyme DNA topoisomerase II. We report here the development and characterization of an etoposide-resistant human leukaemic CCRF-CEM cell line, CEM/VP-1. The cell line was 15-fold more resistant to etoposide than the parental CEM cells and exhibited cross-resistance to other topoisomerase II inhibitors including teniposide, m-AMSA, and doxorubicin. CEM/VP-1 cells exhibited only a low level cross-resistance to the Vinca alkaloids, vinblastine and vincristine, known inhibitors of mitotic spindle formation. As a first step in defining the mechanism of resistance to etoposide, we compared the levels of topoisomerase II activity and its drug sensitivity in nuclear extracts from the resistant and sensitive CEM cells. As determined by a kinetoplast DNA decatenation assay, the level of DNA topoisomerase II activity in CEM/VP-1 nuclear extracts was approximately 2-fold lower than that in CEM cells, and the activity appeared to be resistant to inhibition by etoposide. Furthermore, the DNA topoisomerase II activity in CEM/VP-1 nuclear extracts did not promote the etoposide-dependent cleavage of pBR322 DNA observed with extract from sensitive cells. These results suggest that etoposide resistance in the CEM/VP-1 cell line may at least in part be due to an altered topoisomerase II, or associated factor, resulting in a reduced ability to induce DNA cleavage in the presence of drug.
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PMID:Development and properties of an etoposide-resistant human leukaemic CCRF-CEM cell line. 215 15

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