Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 carcinogen-transformed rat hepatoma cell line (Reuber H-35) was utilized as a model system for investigation of the biochemical factors which may limit the effectiveness of chemotherapy in intrinsically resistant tumors such as hepatocellular carcinoma. Northern blotting demonstrated expression of mRNA coding for the P-170 membrane-glycoprotein associated with the multi-drug resistance phenotype, while Western blotting identified the P-170 glycoprotein in the hepatoma cell membrane. Consistent with these observations, tumor cell sensitivity to the vinca alkaloids, vincristine and vinblastine, to the anthracycline antibiotics, Adriamycin and daunorubicin, and to the demethylepipodophyllotoxin derivative, VM-26, was enhanced by continuous incubation in the presence of the calcium channel antagonist, verapamil. Verapamil produced a minimal change in cell sensitivity to the demethylepipodophyllotoxin derivative, VP-16, and to the aminoacridine, m-AMSA. Relatively high detoxification potential via the glutathione metabolic pathway was also observed in the hepatoma cell. The capacity of topoisomerase II in nuclear extracts from the hepatoma cell to mediate cleavable complex formation stimulated by VM-26, VP-16 and m-AMSA appeared to be at least comparable to, if not greater than that from drug-sensitive HL-60 cells, suggesting that drug resistance may not occur at the level of this enzyme. Consistent with findings in a number of tumor cell lines resistant to antineoplastic drugs, the antiproliferative activity of the topoisomerase II inhibitors VM-26, VP-16 and m-AMSA appeared to be dissociable from the induction of DNA strand breaks, suggesting that such lesions in DNA may fail to fully account for the antiproliferative activity of these agents in the hepatoma cell.
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PMID:Components of intrinsic drug resistance in the rat hepatoma. 131 Aug 53

We have compared topoisomerase I and II cleavage sites on the actin 5C and 57A genes and the hsp70 genes in Drosophila Kc cells using the inhibitors camptothecin (topoisomerase I specific) and VM-26 (topoisomerase II specific) to assess the role of these enzymes in transcriptional regulation. Topoisomerase I cleavage sites were localized to the transcribed regions of the actin 5C and hsp70 genes and were present only when these genes were active. The actin 57A gene, shown previously to be inactive in Kc cells, had no detectable topoisomerase I cleavage sites. In contrast to topoisomerase I, topoisomerase II cleavage sites could be detected on transcriptionally active and inactive actin and hsp70 DNA sequences. Topoisomerase II cleavage sites on the inactive hsp70 gene were primarily localized to the very 5' end of the transcribed region of the gene. However, upon heat-induced activation of hsp70 transcription, topoisomerase II cleavage rapidly shifted from the 5' to the 3' end of the gene. Then, during the shutdown of hsp70 expression, there was a gradual reappearance of topoisomerase II cleavage at the 5' end of the gene that temporally correlated with the repression of hsp70 transcription. There was a similar preferential association of topoisomerase II with the 5' ends of transcriptionally repressed actin 5C and 57A genes. These results demonstrate that there are marked differences in how topoisomerases I and II interact with transcriptionally active and inactive regions of chromatin. In addition, we have identified an unusual type of topoisomerase II binding site that is preferentially associated with the 5' ends of inactive hsp70 and actin genes, suggesting that this enzyme may facilitate changes in chromatin structure that are associated with repression of gene transcription.
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PMID:Analysis of topoisomerase I and II cleavage sites on the Drosophila actin and Hsp70 heat shock genes. 131 49

This study shows that not only concanavalin A-stimulated proliferating lymphocytes but also unstimulated mouse splenic lymphocytes are sensitive to the topoisomerase II (topo II) inhibitor teniposide (VM-26). When unstimulated lymphocytes are pretreated with VM-26 for a 2-h period and are then incubated in drug-free medium, cell viability, as determined by trypan blue exclusion, decreases to 40% of the control by 6 h. The drug-treated cultures show two to three times the level of detergent soluble DNA than the control cultures and agarose gel electrophoresis of the soluble DNA shows the presence of oligonucleosomal-sized fragments, a feature considered to be a hallmark of apoptosis. Phase contrast microscopy, Hoechst staining for DNA, and immunofluorescence microscopy of various nuclear and cytoplasmic antigens (nucleolar fibrillarin, snRNP, ubiquitin, vimentin, tubulin) in the VM-26-treated cells characterize the morphological changes during apoptosis of these cells. The role of topo II as the mediator of the VM-26 effects is supported by pulsed field gel electrophoresis, which shows the typical topo II-induced cleavage of supercoiled DNA into loop-sized 300- and 50-kbp fragments. We conclude that the cancer chemotherapeutic agent VM-26 interacts with topo II and induces apoptosis in unstimulated lymphocytes.
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PMID:The topoisomerase II inhibitor teniposide (VM-26) induces apoptosis in unstimulated mature murine lymphocytes. 131 87

DNA topoisomerase II is an enzyme that affects nuclear structure and function and is the target of a number of anticancer drugs in clinical use, including teniposide (VM-26). We have used our polyclonal antisera that recognize both the M(r) 170,000 and 180,000 forms of topoisomerase II to examine the nuclear distribution of topoisomerase II in cytospin preparations of drug-sensitive (CEM) and VM-26-resistant (CEM/VM-1 and CEM/VM-1-5) human leukemic lymphoblasts. We have also examined the nuclear distribution of topoisomerase II in monolayer cultures of a human rhabdomyosarcoma (Rh30) cell line. In the absence of drug, we observed a focal "patchy" staining of nuclear topoisomerase II in all cell lines, that was especially notable in the lymphoblastic cells. Treatment of CEM and Rh30 cells with VM-26 under conditions that increase the number of covalent topoisomerase II-DNA complexes increased both the intensity and the homogeneity of nuclear topoisomerase II staining in a subpopulation of cells; focal staining was less evident after treatment with drug. These responses were roughly proportional to the concentration of VM-26 used and required only brief (approximately 25-min) incubation with drug. We also found that treatment of CEM cells with 4'-(9-acridinylamino)methanesulfon-m-anisidide similarly increased the intensity and homogeneity of nuclear topoisomerase II immunostaining. In contrast, 4'-(9-acridinylamino)methanesulfon-o-anisidide and 1-beta-D-arabinofuranosylcytosine, agents that do not inhibit topoisomerase II, did not produce this effect. Finally, the VM-26-mediated alteration in topoisomerase II staining intensity and distribution was attenuated in proportion to the degree of VM-26 resistance in the CEM/VM-1 and CEM/VM-1-5 sublines. These results appear to be related to the ability of the drug to stabilize DNA-topoisomerase covalent ("cleavable") complexes in intact cells. Our findings indicate that anti-topoisomerase II drugs, such as VM-26, have profound effects on the ability to detect topoisomerase II in the nucleus and provide a novel way of examining drug-stabilized DNA topoisomerase II complexes in intact single tumor cells.
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PMID:DNA topoisomerase II immunostaining in human leukemia and rhabdomyosarcoma cell lines and their responses to topoisomerase II inhibitors. 132 39

A recently developed in vitro excision-repair system was used to investigate the effect of the topoisomerase poisons VM 26, fostriecin and camptothecin on DNA repair replication carried out by Chinese hamster ovary cell extracts. VM 26 and camptothecin partially inhibit topoisomerases II and I respectively, which are present in the repair-competent extracts, but have only slight effects on the repair efficiency. On the contrary, the antitumor drug fostriecin markedly affects repair replication but, in contrast to a previous report, does not seem to have, under the experimental conditions used, any inhibitory effect on topoisomerase II. This lack of correlation between the ability to inhibit DNA topoisomerases and the effect on DNA repair replication suggests that topoisomerases should not play a primary role in mammalian excision repair. The use of cleavable-complex stabilizing poisons to investigate the role of eukaryotic topoisomerases in DNA excision repair is discussed.
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PMID:Effect of topoisomerase poisoning by antitumor drugs VM 26, fostriecin and camptothecin on DNA repair replication by mammalian cell extracts. 132 26

Teniposide is the result of extensive, long-term efforts to refine and improve on the cytotoxic activity of naturally occurring compounds extracted from podophyllin resins and purified. Isolation of an extremely potent though minor component of one of the early podophyllin derivatives led in turn to the synthesis and evaluation of several aldehyde condensation products. Two of these, teniposide and etoposide, were further investigated when their considerable antitumor activity in animals became apparent. Recognition of transient DNA breaks induced by teniposide, etoposide, and other podophyllotoxin analogues established not only that their site of activity was DNA but also that their cytotoxic effect was dose-dependent. Extensive investigation has further indicated that a primary mechanism of action of these agents involves inhibition of the catalytic activity of eukaryote topoisomerase II and, more important, the consequent stabilization of the normally transient covalent intermediate formed between the DNA substrate and the enzyme. As a result of elevated enzyme levels or enzyme activity, or both, in transformed cells, topoisomerase II inhibitors are highly selective for cancer cells versus normal cells. Although teniposide is not substantially more potent than etoposide in terms of catalytic inhibition or stabilization of the DNA-enzyme intermediate, it is more readily taken up by cells, which results in greater teniposide accumulation within the cells and, thus, a greater capacity for cytotoxicity.
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PMID:Mechanisms of action of teniposide (VM-26) and comparison with etoposide (VP-16). 132 25

Treatment of human K-562-J leukemia cells for 1 h with the topoisomerase II-reactive drugs VP-16, VM-26, or mAMSA resulted in a dose-dependent inhibition of proliferation and in an increase in the percentage of cells staining positive for hemoglobin, a marker of erythroid differentiation. Staining for hemoglobin of up to about 60% of the cells was observed at 20 microM VP-16, 1 microM VM-26, and 8 microM mAMSA. Such treatment also caused a G2/M arrest in the cell cycle. Incubation of the cells with radiolabeled VP-16 indicated that the induced erythroid differentiation was not due to continuous cell exposure to a residual amount of the drug. VP-16-induced erythroid differentiation was also not affected by DNA, RNA, or protein synthesis inhibitors. Differentiation induction and the G2/M arrest evoked by VP-16, VM-26, and mAMSA were, however, reduced in the presence of novobiocin. Our results indicate that topo-reactive drugs that cause G2/M arrest in the K-562-J cell cycle can induce in these cells erythroid differentiation after a short and irreversible interaction with their target molecule(s).
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PMID:The effect of topoisomerase inhibitors on the expression of differentiation markers and cell cycle progression in human K-562 leukemia cells. 133 Jun 53

A previous report from this laboratory demonstrated that novobiocin produced supra-additive cytotoxicity when combined with etoposide (VP-16) or teniposide (VM-26) in WEHI-3B D+ and A549 cells. The increase in cytotoxicity was accompanied by an increase in the formation of drug-stabilized protein-DNA covalent complexes. We now report that novobiocin increased the amount of VP-16-induced covalent complexes between the 170 kDa form of topoisomerase II and DNA in WEHI-3B D+ cells, as measured by the band-depletion immunoblotting assay, while it did not affect the extractable topoisomerase II activity, measured by the unknotting of P4 phage DNA and by a DNA cleavage assay. Novobiocin progressively increased the steady-state concentration of intracellular VP-16. Removal of novobiocin resulted in a rapid return of VP-16 to levels comparable to those seen with VP-16 alone. The increased accumulation of VP-16 was accounted for by an increase in the exchangeable fraction only. The novobiocin-mediated increase in the steady-state concentration of VP-16 occurred whether novobiocin was added simultaneously with VP-16 or was added after a steady-state level of VP-16 had been achieved. Novobiocin did not affect the initial rate of uptake of VP-16; however, it inhibited the efflux of the epipodophyllotoxin. In fact, when cells were loaded with the same level of VP-16 in the presence or absence of novobiocin, the efflux curves in the presence or absence of novobiocin were significantly different. We conclude that the inhibition of VP-16 efflux by novobiocin is responsible for the increase in VP-16 accumulation, leading to increased formation of VP-16-stabilized topoisomerase-II-DNA covalent complexes and increased cytotoxicity.
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PMID:Novobiocin-induced accumulation of etoposide (VP-16) in WEHI-3B D+ leukemia cells. 133 54

VP-16 resistant cells, FvprB350 (50B-3), were isolated from mouse breast cancer cell line FM3A. 50B-3 cells showed 84-fold higher resistance than their parent cells. Reduced drug uptake was not found in resistant cells. Quantitative analysis of drug-stimulated DNA cleavage activity using 3'32P end-labeled pBR322 restriction fragments showed that VP-16 stimulated DNA-topoisomerase II cleavable complex forming activity in crude nuclear extract from 50B-3 cells was approximately one-fifth as compared with that of FM3A wild-type cells. Dot-blot analysis of RNA extracted from the two cell lines showed that mRNA levels of topoisomerase II in 50B-3 cells drastically decreased and catalytic activity was also 1/2-1/3 as compared with that of parent cells. 50B-3 cells showed cross resistance to VM-26, m-AMSA, adriamycin. These findings suggest that reduced topoisomerase II activity (cellular levels) and cleavable complex forming activity may be significant factors in the marked drug resistance.
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PMID:Reduced DNA topoisomerase II in VP-16 resistant mouse breast cancer cell line. 136 91

By contrast with other DNA minor groove binders, Hoechst 33258 inhibited topoisomerase-mediated activity in intact cells. To determine whether specific structural alterations could modify the topoisomerase reactivity of this drug, a series of analogs of Hoechst 33258 (compound 1) was examined. When the relative DNA binding affinities (Ka) of these agents were determined, compound 1 had the highest Ka while agents with substitutions in either of the benzimidazole moieties showed reduced affinity. Whether these changes in DNA binding correlated with topoisomerase inhibitory potency was next examined. In isolated nuclei, 25 microM of agents 1, 5 and 7 reduced VM-26 induced cross-links by 64, 65 and 83%, compared with 15 to 25% reductions by agents 2, 3, 4 and 6, respectively. The structural modification common to the less active compounds was the substitution of an oxygen for nitrogen at either position 1 or 2. On the basis of these results, agents 1, 2, 3 and 7, representing a range of inhibitory potency, were chosen for further analyses. Cross-link induction by m-AMSA and camptothecin in isolated nuclei, as well as by VM-26 in intact cells, was inhibited to a greater extent by agents 1 and 7 than 2 or 3. Additionally, all four drugs inhibited relaxation of pBR 322 DNA induced by both topoisomerases, although topoisomerase I was 2 to 5-fold more sensitive than topoisomerase II. A linear correlation was observed between the logarithms of the Ka value of compounds 1, 2 and 3 and their IC25 values for both topoisomerases, suggesting a strong dependence on DNA binding affinity for enzyme inhibition. Nevertheless, agent 7, despite having less affinity for calf thymus DNA than 1, was the most potent topoisomerase inhibitor tested in intact cells and in isolated enzyme systems. Thus, retention of nitrogen at positions 1 and 2 as well as the addition of nitrogen at position 16 was associated with increased topoisomerase inhibitory potency.
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PMID:Effects of analogs of the DNA minor groove binder Hoechst 33258 on topoisomerase II and I mediated activities. 137 46


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