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)

The role of DNA topoisomerase II in multifactorial resistance to antineoplastic agents is reviewed. We have previously observed that in Adriamycin (ADR) resistant P388 murine leukemia cells, DNA topoisomerase II enzyme content and cleavage and catalytic activities were all reduced and correlated with drug sensitivity. A subsequent study provided evidence for an allelic mutation of the gene for DNA topoisomerase II as a possible molecular mechanism underlying the enzyme alterations. To ascertain how universal were these observations, a study was undertaken of DNA topoisomerase II (topo II) in other cell lines resistant either to ADR or another topo-II-interactive drug, mitoxantrone. In ADR-resistant Chinese hamster ovary (CHO) cells, topo II cleavage and catalytic activities and the gene product were all reduced; however, only cleavage activity correlated with drug sensitivity. No differences were noted between ADR-sensitive and -resistant CHO cells by Northern or Southern blot analysis, raising the possibility that the enzyme in resistant cells may be regulated at a posttranscriptional level. Findings on a gel retardation or immunoblot band depletion assay showed that the enzyme in CHO/ADR-1 cells failed to bind to the DNA-drug-enzyme complex, suggesting a qualitative as well as quantitative enzyme alteration in those cells. Mitoxantrone-resistant HeLa cells (Mito-1) displayed not only a lower level of cleavage activity but also of enzyme content and catalytic activity, relative to the parental drug-sensitive HeLa cells. As with the CHO cells, no differences were noted between mitoxantrone-sensitive and -resistant HeLa cells on Northern and Southern blot analyses, suggesting that enzyme regulation in these resistant cells may also be at a posttranscriptional level. There was no evidence of enzyme binding to DNA-drug-enzyme complex in resistant HeLa/Mito-1 cells, once again suggesting the presence of a qualitative enzyme alteration. The findings in both ADR-resistant CHO cells and mitoxantrone-resistant HeLa cells do not exclude the possibility that subtle changes in the topoisomerase II gene, such as point mutations, may account for these enzyme changes. The apparent qualitative changes observed in enzyme may result from posttranslational modifications such as phosphorylation.
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PMID:Multifactorial resistance to antineoplastic agents in drug-resistant P388 murine leukemia, Chinese hamster ovary, and human HeLa cells, with emphasis on the role of DNA topoisomerase II. 135 68

Recombinant human tumor Necrosis Factor (rHuTNF) produced dose-dependent cytotoxicity against human ovarian cancer cells, OSC and OMC, obtained from fresh ascites. A combination of rHuTNF and the topoisomerase II inhibitor, Mitoxantrone, produced dose-dependent synergistic cytotoxicity on OSC and OMC cells. When OMC cells were incubated simultaneously for one hour with rHuTNF and Mitoxantrone, increased numbers of DNA single-strands breaks were produced. rHuTNF alone did not induce DNA single-strands breaks. These data are consistent with a role for topoisomerase-linked DNA lesions in the rHuTNF mediated potentiation of killing cells by Mitoxantrone.
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PMID:Augmentation of antineoplastic effects by the combination of recombinant human tumor necrosis factor and mitoxantrone on primary culture of human ovarian cancer cells. 144 98

Mitoxantrone-resistant variants of the human HL-60 leukemia cell line are cross-resistant to several natural product and synthetic antineoplastic agents. The resistant cells (HL-60/MX2) retain sensitivity to the Vinca alkaloids vincristine and vinblastine, drugs that are typically associated with the classical multidrug resistance phenotype. Mitoxantrone accumulation and retention are equivalent in the sensitive and resistant cell types, suggesting that mitoxantrone resistance in HL-60/MX2 cells might be associated with an alteration in the type II DNA topoisomerases. We discovered that topoisomerase II catalytic activity in 1.0 M NaCl nuclear extracts from the HL-60/MX2 variant, as measured by the decatenation of Crithidia fasciculata kinetoplast DNA, was reduced 4- to 5-fold compared to that in the parental HL-60 cells. Total cellular topoisomerase II activity in HL-60/MX2 cells was only 50% lower than that in HL-60 cells, however, because the "cytosolic fraction" of the HL-60/MX2 nuclear preparation contained high levels of decatenating activity. Antisera to calf thymus topoisomerase II defined a distinctive immunoreactive pattern of topoisomerase II proteins in crude nuclear extracts from the HL-60/MX2 cells. Both alpha (170 kDa) and beta (180 kDa) forms of topoisomerase II were detected in the HL-60 cell extracts, but only the alpha form was detected in extracts from HL-60/MX2 cells. This finding was associated with the appearance of a new 160-kDa immunoreactive species in nuclear extracts from HL-60/MX2 but not HL-60 cells. Studies were designed to minimize the proteolytic degradation of the topoisomerase II enzymes by extraction of whole cells with hot SDS.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mitoxantrone resistance in HL-60 leukemia cells: reduced nuclear topoisomerase II catalytic activity and drug-induced DNA cleavage in association with reduced expression of the topoisomerase II beta isoform. 165 25

Mitoxantrone, an anthracenedione derivative, has been used for preclinical and clinical studies from the end of the 1970s. Several working mechanisms are suggested such as intercalation and electrostatic interactions with DNA with or without involvement of topoisomerase II, immunosuppressive effects and inhibition of prostacyclin synthesis. Efficacy of mitoxantrone alone or in combination with other chemotherapeutic drugs has been especially demonstrated in patients with breast cancer, leukemia and lymphoma. Locoregional (but not intrathecal) therapy with this drug is possible because it is not a vesicant. It has an improved tolerability profile compared with doxorubicin. Dose-limiting toxicity is myelotoxicity and mucositis. Therefore this drug has recently also been used in high doses with bone marrow support and in combination with hematopoietic growth factors. Cardiotoxicity is less frequent than after doxorubicin and daunorubicin. However, cardiac function tests are warranted after cumulative doses greater than 160 mg/m2 or earlier if additional risk factors, namely previous mediastinal irradiation, anthracycline therapy or cardiovascular disease, are present.
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PMID:Mitoxantrone: bluebeard for malignancies. 215 49

The cytotoxicity anti-tumour intercalating agents such as the anthraquinone mitoxantrone is thought to relate to DNA binding and the trapping of DNA topoisomerase II complexes on cellular DNA. We have studied the uptake, nuclear location, DNA binding mode and DNA damaging capacity of mitoxantrone in a small cell lung carcinoma cell line (NCI-H69) compared with an in vitro-derived variant subline (NCI-H69/LX4) that exhibits "classical" multi-drug resistance (MDR). Variant cells maintained under doxorubicin selection showed reduced RNA levels that returned to control values within 7 days of growth under non-selective conditions. Variant cells released from selection stress showed resistance to DNA cleavage by doxorubicin, mitoxantrone, 4'-epidoxorubicin, 4'-deoxy-doxorubicin but reduced resistance to aclacinomycin A and a 9-alkyl substituted anthracycline in broad agreement with the cross-resistance patterns for cytotoxicity. Mitoxantrone treated NCI-H69 cells were found to accumulate DNA-protein crosslinks during a 4 hr post-treatment incubation period whereas variant cells maintained depressed levels of crosslinking. There was no apparent abnormality in the availability or drug sensitivity of topoisomerase II assayed in crude nuclear extracts of NCI-H69/LX4 cells. Whole cell uptake of radiolabelled mitoxantrone was depressed (50%) in NCI-H69/LX4 compared with NCI-H69, whereas assessment of nuclear-bound drug in individual cells by a fluorescence quenching technique showed at least a 10-fold greater level of target protection. The quenching results provide evidence of a high affinity, saturable mode of drug binding, favoured at low drug concentrations, that correlated with DNA cleavage capacity. We propose that the cytotoxic action of mitoxantrone is dependent upon a restricted and persistent form of binding to DNA that favours the long-term or progressive trapping of topoisomerase II complexes.
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PMID:Mitoxantrone-DNA binding and the induction of topoisomerase II associated DNA damage in multi-drug resistant small cell lung cancer cells. 217

Mitoxantrone, a cytotoxic anthracenedione derivative, has given clinical evidence of beneficial activity in breast cancer, lymphoma and leukaemia. Several different mechanisms of action have been suggested to account for this. In addition to intercalation, biological effects such as electrostatic interactions with DNA, DNA-protein cross-links, immunosuppressive activities, inhibition of topoisomerase II, prostaglandin biosynthesis and calcium release have been described. Various methods of drug monitoring in biological fluids and tissues are available: the highest sensitivity has been achieved with high performance liquid chromatography with electrochemical detection, radioimmunoassay and enzyme linked immunosorbent assay. Early pharmacokinetic studies of mitoxantrone in experimental animals using radioactive material showed an extensive tissue distribution and a long terminal plasma half-life. The best fit for the plasma concentration-time curve in humans is achieved in a 3-compartment model. All studies reported a short absorption half-life of between 4.1 and 10.7 minutes, with the distribution phase being between 0.3 and 3.1 hours. In contrast, the values of the terminal half-life are quite variable, ranging from 8.9 hours to 9 days. Differences might be attributed to assay sensitivity, number and weighting of data points beyond 24 hours and coadministration drugs. Many studies showed a very large volume of distribution with sequestration of mitoxantrone in a deep tissue compartment. In autopsy studies, relatively high tissue concentrations have been measured in liver, bone marrow, heart, lung, spleen and kidney. Bile is the major route for the elimination of mitoxantrone, with lesser amounts excreted in the urine. Several metabolites have been separated, 2 of which were identified as the monocarboxylic and dicarboxylic acid derivatives. Mitoxantrone is usually administered by rapid intravenous infusion at 3-weekly intervals; other regimens include continuous infusion, daily repeated doses or weekly administration. In peritoneal carcinosis, the pharmacological advantage of intraperitoneal administration is clear. The optimal regimen for different disease categories with respect to efficacy and side-effects remains to be determined in future clinical trials.
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PMID:Pharmacokinetics and metabolism of mitoxantrone. A review. 218 7

The interactions of the low cardiotoxic antitumor agents 1,4-dihydroxy-5,8-bis[[2-[(2-hydroxyethyl)amino]ethyl]amino]-9, 10-anthracenedione (mitoxantrone) and 9,10-anthracenedicarboxaldehyde bis[(4,5-dihydro-1H-imidazoyl-2-yl)hydrazone] (bisantrene) with pBR322 and PM2 DNA have been examined by electron microscopy. Direct evidence was obtained for intercalative binding of both drugs, with mitoxantrone causing a 13% average length increase in pBR322 corresponding to approximately 580 drug molecules per circle at saturation and bisantrene causing an 11% increase in length corresponding to approximately 480 drug molecules bound per circle. Considerations of the known GC preference for non-nearest neighbor binding of the drugs and inspection of the known sequence of pBR322 suggest that the available intercalation sites are occupied and that additional external electrostatic binding of the cationic drugs also occurs. An apparent difference in behavior of mitoxantrone as compared with that of bisantrene in causing no net increase in length of supercoiled pBR322 was shown to be attributable to an offsetting compaction due to extensive supercoiling by mitoxantrone molecules. This conclusion was confirmed by independent experiments with PM2 covalently closed-circular DNA--both native, negatively supercoiled and relaxed--with calf thymus topoisomerase, using ethidium for comparison. Ethidium caused a 21.3 +/- 3.6% length increase in nicked, open-circular PM2-DNA, or 2100 molecules bound per 10,300 base pairs. Mitoxantrone caused a 16.6% length increase in nicked PM2-DNA equivalent to approximately 1700 drug molecules per circle. Electron microscopic measurements on relaxed PM2-DNA with progressively increasing proportions of mitoxantrone (from 1.4:1 to 14:1 drug molecules per base pair) revealed the onset of formation of lacelike networks of DNA circles linked together. This phenomenon, which is not produced by bisantrene, is attributed to inter-DNA links by the charged side arms of mitoxantrone and is in accord with previous reports that mitoxantrone causes severe compaction and distortion of chromatin. Electron microscopic examination of the interaction of six additional mitoxantrone derivatives, two of which produced lacelike DNA networks, revealed strict structural requirements for this phenomenon.
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PMID:Interactions of the antitumor agents mitoxantrone and bisantrene with deoxyribonucleic acids studied by electron microscopy. 670 33

The effect of inhibition of topoisomerase II on chromosome segregation in CHO cells has been studied using cytogenetical techniques and measurements of nuclear DNA content. Cells were accumulated in metaphase, and their passages into the subsequent stages of mitosis, and into interphase, were examined. Of the compounds tested, five (Amsacrine, Etoposide, Hoechst 33342, Mitoxantrone, and nalidixic acid) greatly reduce the rate at which the chromosomes pass from metaphase through anaphase to the subsequent interphase and induce a high proportion of nuclei which contain a 4C amount of DNA. In several cases, the reformation of membranes around chromosomes can be seen although the chromosomes remain in a condition similar to metaphase, with the chromatids linked at the centromeres. Two other inhibitors of topoisomerase II, Hoechst 33258 and Merbarone, failed to delay cells in metaphase and did not induce tetraploidy. This failure may well be due to an inability of the compounds to penetrate the cells sufficiently quickly, or at a high enough concentration. Overall, the results are consistent with the hypothesis that topoisomerase II is essential for the segregation of chromosomes in mammals and other eukaryotes.
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PMID:Inhibitors of topoisomerase II delay progress through mitosis and induce a doubling of the DNA content in CHO cells. 769 44

N-[2-(Dimethylamino)ethyl]acridine-4-carboxamide (DACA), a DNA intercalator that exerts its antitumour action through the enzyme topoisomerase II, has previously been shown to be curative against the transplantable Lewis lung adenocarcinoma growing as lung tumour nodules in mice. On the basis of this finding as well as its high in vitro activity against multidrug-resistant cell lines, DACA has been chosen for clinical trial under the auspices of the Cancer Research Campaign, United Kingdom. In the present study the activity of DACA was assessed against advanced (5-mm diameter) s.c. colon 38 adenocarcinomas in BDF1 mice using tumour-growth delay as an end point. Its activity was found to be related positively to the total dose given and negatively to the total duration of the dose schedule. Adoption of a split-dose i.p. administration schedule or slow i.v. infusion allowed the administration of large doses without toxicity. The activity of DACA was comparable with that of 5-fluorouracil and superior to that of doxorubicin, cyclophosphamide and the experimental amsacrine analogue CI-921. Mitoxantrone, amsacrine, etoposide, teniposide and daunorubicin showed minimal activity. DACA also demonstrated significant activity against the NZM3 melanoma human cell line growing as a xenograft in athymic mice.
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PMID:Experimental solid tumour activity of N-[2-(dimethylamino)ethyl]-acridine-4-carboxamide. 778 Nov 46

A2780 human ovarian cancer cell line and its multidrug resistant counterpart A2780-DX3 were utilized for this in vitro study. A2780-DX3 is resistant in various degrees to several topoisomerase II inhibitors but sensitive to vinca alkaloids. Simultaneous treatment of the A2780-DX3 line with 1000 U/mL rHuTNF largely reverses resistance to most topoisomerase II inhibitors. By itself, 1000 U/mL rHuTNF is not toxic to the resistant line. Uptake and retention of [3H]-Mitoxantrone are not modified by rHuTNF, whereas rHuTNF is very active in potentiating the effects of Mitoxantrone. After treatment with topoisomerase II inhibitors, Doxorubicin, Mitoxantrone, or VP16, rHuTNF restores DNA-SSB and DNA-protein cross-links in the resistant line to the level of the wild type. The cleavage activity of topoisomerase II in the resistant line is about 40% of the level present in the parental line. Five minutes after the addition of 1000 U/mL of rHuTNF, the cleavage activity in the resistant line is about 85% of the level present in the parental line. The catalytic activity of topoisomerase II is only 15% lower in the resistant line, but it is increased by about 50% 5 min after the addition of rHuTNF to the resistant line. These effects are transient and cannot be observed after 30 min. These transient direct effects of rHuTNF on topoisomerase II could be associated with its ability to restore sensitivity to inhibitors of topoisomerase II in the A2780-DX3 line.
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PMID:Reversal of "atypical"-multidrug resistance by recombinant human tumor necrosis factor in the human ovarian cancer cell line A2780-DX3. 801 63

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