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)

We have isolated stable teniposide (VM26)-resistant cell lines from human cancer KB cells by stepwise exposure to increasing doses of the drug. At each step, we have purified VM26-resistant cell lines. KB/VM-a, KB/VM-b, KB/VM-1, KB/VM-2, KB/VM-3, and KB/VM-4 showed 3-, 6-, 12-, 16-, 74-, and 95-fold higher resistance to VM26 than did KB. We have further characterized KB/VM-2 and KB/VM-4 which showed about 15- and 100-fold higher resistance to VM26 or etoposide (VP16) than did KB. Both VM26-resistant cell lines showed 4- to 11-fold higher relative resistance to daunomycin and Adriamycin than did KB. Steady-state levels of the cellular accumulation of radioactive VP16 in KB/VM-2 and KB/VM-4 cells were about 40% of that of KB cells, whereas similar levels of radioactive daunomycin accumulation were observed in KB/VM-2 and KB/VM-4 cells as KB cells. Topoisomerase II activity of nuclear extracts of both KB/VM-2 and KB/VM-4 assayed by decatenation of kinetoplast DNA was consistently two-thirds or less the activity of KB cells. A similar reduction was seen in both immunoblot assays with specific anti-topoisomerase II antibody and Northern blot analysis with specific human DNA topoisomerase II complementary DNA. DNA topoisomerase I activity, however, was similar between the mutants and their parent. Furthermore, cell growth of KB/VM-2 and KB/VM-4 was more thermolabile than that of KB, while KB/VM-b already showed temperature-sensitive growth. KB/VM-1 did show reduced accumulation of VP16 as in KB/VM-2 or KB/VM-4, but it had a normal level of topoisomerase II content as in KB cells. These data suggest that the reduced expression of DNA topoisomerase II, possibly combined with decreased permeability to the drugs, can account for the acquired VM26 resistance of KB/VM-2 and KB/VM-4 cells and also that the temperature-sensitive phenotype might not be obligatorily coupled with the reduced expression of topoisomerase II or the decreased permeability.
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PMID:Reduction of drug accumulation and DNA topoisomerase II activity in acquired teniposide-resistant human cancer KB cell lines. 216 82

Doxorubicin, a DNA-intercalator, is one of several anti-cancer drugs that have been found to stabilizes topoisomerase II cleavage complexes at drug-specific DNA sites. The distribution and DNA sequence environments of doxorubicin-stabilized sites were determined in the SV40 genome. The sites were found to be most concentrated in the major nuclear matrix-associated region and nearly absent in the vicinity of the replication origin including the enhancer sequences in the 21-bp and 72-bp tandem repeats. Among 97 doxorubicin-stabilized sites that were localized at the DNA sequence level, none coincided with any of the 90 topoisomerase II cleavage sites detected in the same regions in the absence of drug. Cleavage at the 90 enzyme-only sites was inhibited by doxorubicin and never stimulated even at low drug concentrations. All of the doxorubicin-stabilized sites had an A at the 3' terminus of at least one member of each pair of strand breaks that would constitute a topoisomerase II double-strand scission. Conversely, none of the enzyme-only sites had an A simultaneously at the corresponding positions on opposite strands. The 3'-A requirement for doxorubicin-stabilized cleavage is therefore incompatible with enzyme-only cleavage and explains the mutual exclusivity of the two classes of sites.
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PMID:Local sequence requirements for DNA cleavage by mammalian topoisomerase II in the presence of doxorubicin. 217 43

Ethyl 5-amino-1,2-dihydro-2-methyl-3-phenylpyrido[3,4-b]pyrazin- 7-ylcarbamate, 2-hydroxyethanesulfonate, hydrate (NSC 370147) was evaluated for antitumor activity against a spectrum of tumor systems in culture and in mice. NSC 370147 was cytotoxic to a variety of mouse and human cell lines at nanomolar concentrations. The compound exhibited good in vivo antitumor activity against several murine tumors (P388 and L1210 leukemia, colon 11/A and 36, mammary 16/C, and M5076 sarcoma). Activity was largely independent of route of administration but favored a prolonged treatment schedule. NSC 370147 was as active against murine leukemia sublines resistant to Adriamycin, amsacrine, vincristine, melphalan, cisplatin, methotrexate, and CI-920 (a topoisomerase II inhibitor) as against the corresponding parental lines. Only the 1-beta-D-arabinofuranosylcytosine-resistant P388 subline exhibited any cross-resistance to NSC 370147. NSC 370147 has a spectrum of activity similar to that of vincristine and, unlike vincristine, is active against multidrug-resistant cell lines. Therefore, NSC 370147 is a candidate for clinical trial because of its favorable activity compared to vincristine, its effectiveness against multidrug-resistant cells, and its retention of activity for p.o. administration.
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PMID:Antitumor activity of ethyl 5-amino-1,2-dihydro-2-methyl-3-phenyl-pyrido [3,4-b]pyrazin-7-ylcarbamate, 2-hydroxyethanesulfonate, hydrate (NSC 370147) against selected tumor systems in culture and in mice. 233 19

We have isolated a Chinese hamster ovary cell line, designated ADR-1, which exhibits hypersensitivity to a range of drugs which are thought to inhibit the action of the enzyme topoisomerase II. These include anthracyclines, other classes of intercalating agents, and the epipodophyllotoxin, etoposide. No significant sensitivity to radiation, or to mono- and bifunctional alkylating agents was seen, although mild cross-sensitivity to the radiomimetic agent bleomycin was observed. We have monitored the level of DNA strand breaks induced by topoisomerase II inhibitors in ADR-1 cells using alkaline elution. At equimolar Adriamycin (doxorubicin) doses, more protein-associated DNA strand breaks are induced in ADR-1 cells than in wild-type cells. This enhanced level of drug-induced strand breaks does not appear to be a function of increased drug uptake as both lines accumulate similar levels of radiolabeled daunomycin. Both the rate of repair of strand breaks and the final percentage of strand breaks rejoined was equivalent in the 2 cell lines. These results are consistent with an enhancement in the level of topoisomerase II-dependent DNA breakage in ADR-1 cells following exposure to topoisomerase II inhibitors. We have previously reported the isolation of 2 bleomycin-sensitive Chinese hamster ovary cell lines, BLM-1 and BLM-2 (C. N. Robson et al., Cancer Res. 45:5304-5309, 1985). While BLM-1 exhibited cross-sensitivity only to Adriamycin, BLM-2 was shown to be hypersensitive not only to Adriamycin out also to certain alkylating agents and to ionizing radiation. In this paper, we show that both BLM-1 and BLM-2 also exhibit mild cross-sensitivity to a range of topoisomerase II inhibitors. These results indicate that intercalating agents and epipodophyllotoxins exert their cytotoxicity via common mechanisms and suggest that the maintenance of normal levels of cellular resistance to these agents requires the products of several different genes.
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PMID:Cross-sensitivity to topoisomerase II inhibitors in cytotoxic drug-hypersensitive Chinese hamster ovary cell lines. 243 20

Recombinant human tumor necrosis factor (rHTNF) alone had no effect on L929 tumor cells at 100 units/ml for 20 h of continuous exposure. However, under the same conditions, rHTNF markedly enhanced the cytotoxicity of Adriamycin, actinomycin D, 4'-(9-acridinylamino)-methanesulfon-m-anisidide, teniposide (VM 26), and etoposide (VP 16), all targeted at DNA topoisomerase II. The rHTNF had a minimally enhancing effect on the cytotoxicity of bleomycin, hydroxyurea, and 1-beta-D-arabinofuranosylcytosine and no effect on the cytotoxicity of cis-platinum, mitomycin C, vincristine, and vinblastine, all chemotherapeutic drugs with dose-related cytotoxic effects on L929 cells but mechanisms of action which do not appear to involve topoisomerase II. Treatment with rHTNF first and then topoisomerase-targeted drugs yielded no enhanced cytotoxicity, whereas pretreatment with drug followed by rHTNF yielded marked enhancement of cytotoxicity. Topoisomerases have previously been implicated in cell kill phenomena following treatment with certain chemotherapeutic agents [K.M. Tewey, et al., Science (Wash. DC), 226:466-468, 1984]. The data suggest that the lethality to the cell from topoisomerase-targeted drug treatment is increased by rHTNF in vitro. We suggest that rHTNF may be a useful adjuvant to this class of drugs which has well-known antitumor activity.
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PMID:Synergistic enhancement by tumor necrosis factor of in vitro cytotoxicity from chemotherapeutic drugs targeted at DNA topoisomerase II. 243 63

The induction of glucose-regulated proteins by a variety of specific inducers leads to an increase in resistance to Adriamycin (Shen et al., Proc. Natl., Acad. Sci. USA, 84: 3278, 1987). In this study we examine several additional agents for cross-resistance induced during a glucose-regulated response in an attempt to better define the mechanism through which this phenomenon occurs. When anoxia, calcium ionophore A23187, or 2-deoxyglucose are used, a substantial resistance is obtained against the topoisomerase II-targeted agent, etoposide. Partial resistance is induced against vincristine and actinomycin D. Glucose-regulated protein inducers do not substantially alter cellular response to either bleomycin or radiation. In the case of mitomycin C there is a cellular sensitization with anoxia and 2-deoxyglucose while calcium ionophore A23187 had no effect on survival. This study suggests that the resistance obtained during a glucose-regulated response against etoposide and Adriamycin may involve topoisomerase II.
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PMID:Resistance to etoposide induced by three glucose-regulated stresses in Chinese hamster ovary cells. 250 Oct 25

The relationship between DNA topoisomerase II activity and drug resistance was studied in cloned cell lines of Adriamycin (ADR)-sensitive and -resistant P388 leukemia; drug resistant P388/ADR/3 (clone 3) and P388/ADR/7 (clone 7) cells are 5- and 10-fold more resistant to ADR than the sensitive cell line P388/4 (Cancer Res., 46: 2978, 1986). Topoisomerase II catalytic activity in crude nuclear extracts was reduced in drug-resistant cells as determined qualitatively by decatenation of kDNA. Using the centrifugal method fo quantitative analysis, topoisomerase II catalytic activity (mean +/- SE) was 81 +/- 10 units/mg total nuclear protein in sensitive cells, 29 +/- 2 units/mg total nuclear protein in resistant clone 3 cells, and 16 +/- 2 units/mg total nuclear protein in resistant clone 7 cells; these differences were highly significant (P less than 0.005). Similarly, quantitative analysis of DNA cleavage activity using 3' 32P-end-labeled pBR322 restriction fragments showed that drug-stimulated topoisomerase II cleavage activity in nuclear extracts from sensitive cells was approximately 1.7- and 2.9-fold greater than that from resistant clone 3 and 7 cells, respectively. Western blot analysis of nuclear extracts from the three cell lines using antibody against the C-terminal half of recombinant-prepared human topoisomerase II polypeptide revealed reduced immunoreactivity of topoisomerase II protein in the drug-resistant cells. These data suggest that reduced topoisomerase II activity in resistant cells, which may represent quantitative reduction of the enzyme, may be another property contributing to multifactorial drug resistance in these cells.
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PMID:Direct correlation between DNA topoisomerase II activity and cytotoxicity in adriamycin-sensitive and -resistant P388 leukemia cell lines. 253 93

Resistance to etoposide (VP-16), amsacrine (mAMSA), and doxorubicin (Adriamycin) was studied in two Chinese hamster cell lines primarily selected for resistance to the epipodophyllotoxin. Both lines demonstrated profound resistance to VP-16, and mAMSA stimulated DNA breakage. However, the resistance to mAMSA cytotoxicity in both lines was less than expected from the level of resistance to the effects of topoisomerase II inhibition. Similarly, resistance to the cytotoxicity of high VP-16 concentrations in one of the lines was less than expected from the resistance to inhibition of topoisomerase II. An analysis of the relation of DNA breaks to drug cytotoxicity suggests that cross-resistance to mAMSA was mainly conferred through loss of mAMSA-stimulated, topoisomerase II-mediated DNA breaks. This mechanism also contributed towards reduced VP-16 cytotoxicity. However, our studies suggest that additional mechanisms, independent of resistance to VP-16-mediated topoisomerase II effects, greatly increased the resistance to this agent. Resistance to VP-16 cytotoxicity, not dependent on resistance to drug-mediated DNA cleavage, could be overcome at high drug concentrations in one of the resistant lines and might be responsible for the greater relative resistance to VP-16 than to mAMSA. These findings suggest the presence of two distinct mechanisms of resistance to VP-16 cytotoxicity, one presumably mediated by topoisomerase II and dependent on resistance to drug-mediated DNA scission, and a second mechanism independent of the effects of the drug on topoisomerase II.
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PMID:Topoisomerase II-dependent and -independent mechanisms of etoposide resistance in Chinese hamster cell lines. 253 64

The mechanism of augmentation of tumor cell killing by immune effector cells and chemotherapeutic drugs was studied. The effect of treating tumor cells with various antineoplastic drugs on their sensitivity to murine natural cell-mediated cytotoxicity in vitro was investigated. Pretreatment with actinomycin D at nontoxic concentrations rendered L929 and WEHI-164 tumor cells more susceptible to killing by mouse spleen lymphocytes in a dose-dependent manner. Similarly, enhancement of L929 tumor cell killing by natural cell-mediated cytotoxicity was observed following treatment of the target cells with the topoisomerase II inhibitors, Adriamycin, amsacrine, bisantrene, etoposide, and teniposide, as well as with topoisomerase I inhibitor, camptothecin. In contrast, drugs which induce their cytotoxic effects by mechanisms that do not involve topoisomerase inhibition such as bleomycin, vinblastine, vincristine, and mitomycin C failed to exhibit synergism with natural cell-mediated cytotoxicity. However, moderate synergy was consistently observed with cis-platinum. The effector cells responsible for the cytotoxicity in the present system are natural cytotoxic cells since they kill WEHI-164 but not YAC cells, are resistant to treatment with anti-asialo-GM1 antibody, and their activity is abolished by anti-tumor necrosis factor antibodies. Indeed, tumor necrosis factor-mediated cytotoxicity of WEHI-164 or L929 was enhanced by treatment of the target cells with topoisomerase II inhibitors. Moreover, WEHI-164 cells selected for tumor necrosis factor resistance were resistant to natural cell-mediated cytotoxicity, and no synergy could be observed with topoisomerase inhibitors.
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PMID:Synergistic antitumor effects of topoisomerase inhibitors and natural cell-mediated cytotoxicity. 253 25

We have isolated two Chinese hamster ovary cell lines, designated ADR-4 and ADR-5, which exhibit hypersensitivity to intercalating agents and epipodophyllotoxins. These drugs are thought to exert their cytotoxicity via an interaction with the enzyme topoisomerase II. However, there is no apparent change in the level or catalytic activity of topoisomerase II in the mutant cells. Drug sensitivity does not appear to be due to increased drug transport because accumulation of radiolabeled actinomycin D is similar in mutant and wild-type cells. Both mutant cell lines show enhanced resistance to hydrogen peroxide and to organic peroxides. ADR-4 cells show a degree of temperature sensitivity. ADR-5 cells show mild sensitivity to UV irradiation. Neither cell line shows significant sensitivity to mono- or bifunctional alkylating agents, ionizing radiation, or bleomycin. Cell fusion studies indicate that the phenotype of each mutant cell line is recessive and that the mutants represent two different genetic complementation groups. These studies also indicate that ADR-4 and ADR-5 Adriamycin-sensitive mutant, ADR-1. These results indicate that sensitivity to topoisomerase II inhibitors can result from abnormalities in several genes. These drug-sensitive mutants may be useful for studying the mechanisms of cell killing by topoisomerase II inhibitors, free radicals, and heat.
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PMID:Isolation of two Chinese hamster ovary cell mutants hypersensitive to topoisomerase II inhibitors and cross-resistant to peroxides. 254 43

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