EC:5.99.1.2 - FACTA Search

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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)

Human cells contain two topoisomerase II isozymes named topo II alpha and topo II beta. The complementary DNAs for both enzymes have been cloned. The topo II alpha and topo II beta complementary DNAs hybridized to unique sequences of human, rodent, and chicken DNAs in Southern blots. The human topo II alpha gene has previously been mapped to chromosome 17. We confirmed the chromosomal location of topo II alpha and mapped the topo II beta gene to chromosome 3. In addition, topo II beta exhibits genetic polymorphism as has been reported for topoisomerases I and II alpha.
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PMID:Topoisomerase II alpha and topoisomerase II beta genes: characterization and mapping to human chromosomes 17 and 3, respectively. 130 26

Topoisomerase (topo) inhibitors induce enzyme-linked DNA breaks. Resulting DNA damage can lead to cell cycle arrest and/or cell death by apoptosis. The sensitivity of five human leukemic cell lines to topo I (camptothecin or CPT) and topo II (etoposide or VP-16) inhibitors varied widely (100-fold for CPT and 30-fold for VP-16). Three cell lines were more sensitive (BV173, HL60, U937) and two cell lines were resistant (K562, KCL22) to both drugs. None of these cell lines were selected for drug resistance and overexpressed mdr1 gene. Their sensitivity was not related to their doubling time nor to cell cycle repartition. The initial DNA damage (cleavable complexes) induced by topo I and II inhibitors was measured as DNA-protein crosslinks (DPC) using alkaline elution. Neither DPC level induced by 30-min treatment with CPT or VP-16 nor the levels of topo 1, topo II alpha and topo II beta mRNA were related to sensitivity. Electron microscopy and DNA fragmentation measured by filter elution and agarose gel electrophoresis demonstrated that apoptosis was induced by both drugs in the five cell lines. The kinetics of DNA fragmentation was related to cell sensitivity. At drug concentrations higher than IC50, DNA fragmentation increased very rapidly in the three sensitive, compared with the two resistant, cell lines. Continuous exposure to both drugs induced cell cycle arrest in either G2 or S phase that was related both to cell sensitivity and drug concentration. Comparison between cell lines indicated that the ability of cells to arrest cell cycle in G2 or S phase was related to their drug sensitivity and increased with cell resistance. In a given cell line, cell cycle progression was observed to be progressively inhibited by increasing drug concentrations. Treatment of synchronized cells demonstrated that highly cytotoxic drug concentration induced a complete inhibition of cell cycle progression. Altogether, these data suggest that the ability of leukemic cell lines to regulate cell cycle progression and to trigger apoptosis is more indicative of their sensitivity to topoisomerase poisons than cleavable complexes induced by these drugs.
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PMID:The role of cell cycle regulation and apoptosis triggering in determining the sensitivity of leukemic cells to topoisomerase I and II inhibitors. 759 66

The interaction of topoisomerase II (topo II) with human ribosomal DNA (rDNA) was investigated in vivo using the antitumoral drug VM26, a specific inhibitor of topo II, that stabilizes the transient cleavable complex. rDNA-protein complexes isolated from nucleoli of TG cells were analyzed for double strand breaks with probes that covered almost all intergenic transcribed spacer (IGS) and all transcribed sequences of tandem repeat ribosomal DNA genes. Preferential cleavage sites were present in only a part of nucleolar rDNA, i.e., the transcribed region. Proteins, purified from the same complexes, were analyzed by Western-blot and stained by an antiserum against both topo II forms, showing the presence of topo II beta.
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PMID:Topoisomerase-II-mediated DNA cleavage within the human ribosomal genes. 763 46

We have determined that the major mitotic phosphoprotein in chromosomes recognized by the antiphosphoprotein antibody MPM-2 is the 170-kDa isoform of topoisomerase II (topo II), the isoform predominant in proliferating cells. As a prerequisite to making this discovery, it was necessary to develop protocols to protect chromosomal proteins from dephosphorylation during cell extraction and chromosome isolation procedures. Immunofluorescence analysis of the large chromosomes prepared from Indian Muntjac cells revealed colocalization of MPM-2 and anti-topo II antibodies to the chromosomal centromeres and to the axial regions of the chromosomal arms. For biochemical fractionation studies, large quantities of chromosomes from the P388D1 mouse lymphocyte cell line were isolated and treated to remove DNA and histone proteins. Immunoblot and immunoprecipitation experiments with this chromosome scaffold fraction identified the major MPM-2-reactive phosphoprotein to be DNA topo II. Using a panel of anti-peptide antibodies specific to the isoforms of topo II, we determined that the major phosphoprotein recognized by MPM-2 is the 170-kDa isoform of topo II, topo II alpha. The 180-kDa isoform, topo II beta, present in the isolated chromosomes in much smaller quantities, is also recognized by MPM-2. The mitotic phosphorylation of the topo II proteins may be critical for proper chromosome condensation and segregation.
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PMID:DNA topoisomerase II alpha is the major chromosome protein recognized by the mitotic phosphoprotein antibody MPM-2. 769 Sep 61

The binding activities of the 170 kDa and the 180 kDa human topoisomerases II (topo II alpha and topo II beta) to linear DNA fragments with different degrees of curvature were characterized. In gel retardation experiments it was shown that both forms of the enzyme bind preferentially to a curved 287 bp fragment, forming a detectable stable complex. The affinity for straight DNA fragments of similar length is significantly lower. Both a commercially available topo II alpha, isolated from placenta, and topo II alpha and topo II beta purified from nuclear extracts of the Namalwa lymphoma tissue culture line gave similar results. The effects of double-stranded poly[d(A-T)], poly[d(G-C)], supercoiled plasmid DNA and linear Z-DNA on the topo II-complex with curved DNA were analyzed in competition experiments. The hierarchy of affinities of the 180 kDa topo II beta for these DNAs has the order: linear left-handed DNA > supercoiled DNA > or = curved DNA >> poly[d(A-T)] > poly[d(G-C)]. The 170 kDa topo II alpha binds with similar affinity to curved DNA and linear Z-DNA > or = supercoiled DNA >> linear B-DNA. The data imply that human topoisomerase II binding is more sensitive to DNA secondary structure than to DNA sequence per se. The ability of the enzyme to preferentially recognize a wide variety of sequences in unusual secondary structures suggests a mode of targeting the enzyme in vivo to regions of high negative supercoiling.
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PMID:Human 170 kDa and 180 kDa topoisomerases II bind preferentially to curved and left-handed linear DNA. 772 61

Previous studies have shown that the in vitro-selected adriamycin-resistant human small-cell lung-carcinoma cell line GLC4-ADR150 displays multidrug resistance as the result of 3-fold decreased DNA-topoisomerase II (topo II) activity and a 6-fold reduction in adriamycin accumulation. Not the MDR1 gene, but the MRP gene, was over-expressed in this cell line. The aim of our study was to establish which of these drug-resistance-associated factors are already involved in drug resistance occurring at early steps of selection with adriamycin. To address this question, changes in expression of topo II alpha/topo II beta, MRP and drug accumulation were measured along with adriamycin resistance (from 2- to 10- to 150-fold) and in a partial revertant cell line (10-fold resistant). Topo II alpha and II beta mRNA and protein levels were decreased in the resistant sub-lines, except in the 10-fold-resistant cell line. Cellular daunorubicin accumulation was decreased 1.2- to 5-fold with increasing resistance. MRP mRNA was over-expressed in all resistant sub-lines, with a marked increase in the 10-fold-resistant cells (level of expression as high as in the GLC4-ADR150 cells). Expression of an ATP-binding 190-kDa membrane protein and Western-blot analysis with anti-MRP anti-serum ASPKE, was in accordance with the expression of MRP mRNA in all cell lines. Expression of MRP mRNA and protein, however, was not proportional with the decrease in drug accumulation in all resistant sub-lines. This study also shows that drug accumulation, topo II and MRP expression were all changed at the earliest stage of resistance development of GLC4 cells upon adriamycin selection.
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PMID:Resistance-associated factors in human small-cell lung-carcinoma GLC4 sub-lines with increasing adriamycin resistance. 772 50

Multidrug-resistant (MDR) cell lines often have a compound phenotype, combining reduced drug accumulation with a decrease in topoisomerase II. We have analysed alterations in topoisomerase II in MDR derivatives of the human lung cancer cell line SW-1573. Selection with doxorubicin frequently resulted in reduced topo II alpha mRNA and protein levels, whereas clones selected with vincristine showed normal levels of topo II alpha. No alterations of topo II beta levels were detected. To determine the contribution of topo II alterations to drug resistance, topo II activity was analysed by the determination of DNA breaks induced by the topo II-inhibiting drug 4'-(9-acridinylamino)methane-sulphon-m-anisidide (m-AMSA) in living cells, as m-AMSA is not affected by the drug efflux mechanism in the SW-1573 cells. The number of m-AMSA-induced DNA breaks correlated well (r = 0.96) with in vitro m-AMSA sensitivity. Drug sensitivity, however, did not always correlate with reduced topo II mRNA or protein levels. In one of the five doxorubicin-selected clones m-AMSA resistance and a reduction in m-AMSA-induced DNA breaks were found in the absence of reduced topo II protein levels. Therefore, we assume that post-translational modifications of topo II also contribute to drug resistance in SW-1573 cells. These results suggest that methods that detect quantitative as well as qualitative alterations of topo II should be used to predict the responsiveness of tumours to cytotoxic agents. The assay we used, which measures DNA breaks as an end point of topo II activity, could be a good candidate.
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PMID:Reduced topoisomerase II activity in multidrug-resistant human non-small cell lung cancer cell lines. 781 46

The topoisomerase (topo) II-directed agents etoposide, daunorubicin (DNR), and amsacrine (m-AMSA) are widely used in the treatment of acute myelogenous leukemia (AML). In the present study, multiple aspects of topo II-mediated drug action were examined in marrows from adult AML patients. Colony-forming assays revealed that the dose of etoposide, DNR, or m-AMSA required to diminish leukemic colony formation by 90% (LD90) varied over a greater than 20-fold range between different pretreatment marrows. Measurement of nuclear DNR accumulation in the absence and presence of quinidine revealed evidence of P-glycoprotein (Pgp) function in 8 of 82 samples at diagnosis and 5 of 36 samples at first relapse, but the largest quinidine-induced increment in DNR accumulation (< 2-fold) was too small to explain the variations in drug sensitivity. Restriction enzyme-based assays and sequencing of partial topo II alpha and topo II beta cDNAs from the most highly resistant specimens failed to demonstrate topo II gene mutations that could account for resistance. Western blotting of marrow samples containing greater than 80% blasts revealed that the content of the two topo II isoenzymes varied over a greater than 20-fold range, but did not correlate with drug sensitivity in vitro or in vivo. In addition, levels of topo II alpha and topo II beta in 46 of 47 clinical samples were lower than in human AML cell lines. Immunoperoxidase staining showed that these low topo II levels were accompanied by marked cell-to-cell heterogeneity, with topo II alpha being abundant in some blasts and diminished or absent from others. There was a trend toward increasing percentages of topo II alpha-positive cells in pretreatment marrows that contained more S-phase cells. Consistent with this observation, treatment of patients with granulocyte-macrophage colony-stimulating factor for 3 days before chemotherapy resulted in increases in topo II alpha-positive cells concomitant with increases in the number of cells traversing the cell cycle. These observations have implications for the regulation of topo II in AML, for the use of topo II-directed chemotherapy, and for future attempts to relate drug sensitivity to topo II levels in clinical material.
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PMID:Topoisomerase II levels and drug sensitivity in adult acute myelogenous leukemia. 790 87

Human cell lines express two genetically distinct isoforms of DNA topoisomerase (topo II) II: topo II alpha (p170) and topo II beta (p180). We detected a higher molecular weight form with an apparent molecular mass of about 190 kDa in M phase-arrested HeLa cells (Kimura, K., Saijo, M., Ui, M., and Enomoto, T. (1994) J. Biol. Chem. 269, 1173-1176). In this study we confirmed, using anti-topo II alpha and topo II beta monoclonal antibodies, that this higher molecular weight form is topo II beta and consists of doublet bands around 190 kDa. We confirmed that the doublet bands constituted an M phase-specific phenomenon and were not an artifact of the procedure used to accumulate mitotic cells. Digesting the immunoprecipitated materials from mitotic cell extracts with alkaline phosphatase resulted in the disappearance of the doublet bands and the appearance of the 180-kDa band with the concomitant disappearance of 32P label in the region of the doublet bands. Neither heat-inactivated alkaline phosphatase nor phosphodiesterase affected the doublet bands and the 32P label. Topo II beta in interphase cells was also phosphorylated, but the shift in apparent molecular weight was very slight after alkaline phosphatase digestion. Analysis of the labeled phosphoamino acids present in topo II beta from M phase and logarithmically growing cells indicated that phosphorylation occurred mainly on serine and fairly on threonine residues in both topo II beta isoforms. These results indicated that topo II beta is phosphorylated at specific sites in M phase, resulting in the formation of the doublet bands.
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PMID:Identification of the nature of modification that causes the shift of DNA topoisomerase II beta to apparent higher molecular weight forms in the M phase. 792 18

A drug-resistant human small cell lung cancer cell line, H209/V6, selected in the presence of increasing concentrations of 9-(4,6-O-ethylidene-beta-D-glucopyranosyl)-4'-demethylepipodophylloto xin (VP-16) from parental H209 cells, is 22-, 9-, and 4-fold resistant to VP-16, 4'-(9-acridinyl-amino)methanesulfon-m-anisidide, and doxorubicin, respectively, but not cross-resistant to 1,4-dihydroxy-5,8-bis((2-[(2-hydroxyethyl)amino] ethyl]-amino)-9,10-anthracenedione. These cells do not overexpress P-glycoprotein or the multidrug resistance-associated protein. Immunoblotting demonstrates that H209 cells contain the M(r) 170,000 isoform of topoisomerase II (topo II), while H209/V6 cells have a M(r) 160,000 enzyme but none of the M(r) 170,000 isoform. The cell lines have equal amounts of topo II beta. The H209/V6 cells have a 5-fold decrease in total immunoreactive topo II alpha. The catalytic and VP-16-induced DNA cleavage activities of the topo II present in 0.35 M NaCl nuclear extracts are decreased 2- to 3-fold in the drug-resistant cell line. This decrease in enzymatic activity is not consistent with either the 22-fold VP-16 resistance of the H209/V6 cell line or the approximately 5-fold decrease in immunoreactive topo II alpha in the cells. The M(r) 160,000 isoform from the H209/V6 cell line and the M(r) 170,000 enzyme from the parental cell line were purified so that the enzymatic activity of the 2 isoforms could be evaluated. The catalytic activities of the purified isoforms were found to be very similar. The drug-induced DNA cleavage activity of the M(r) 160,000 enzyme was reduced compared to the M(r) 170,000 enzyme. However, as with the nuclear extracts, the differences in enzymatic activity of the purified enzymes are considerably less than the level of drug resistance. Investigations of the subcellular localization of topo II by immunocytochemical techniques and cytoplasm/nuclear fractionation studies demonstrated that the M(r) 160,000 topo II alpha-related enzyme is primarily localized in the cytoplasm, while the M(r) 170,000 topo II alpha enzyme and topo II beta are located in the nucleus. These data imply that the deleted sequence in the M(r) 160,000 enzyme is not necessary for catalytic activity but is required to facilitate nuclear localization.
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PMID:Altered subcellular distribution of topoisomerase II alpha in a drug-resistant human small cell lung cancer cell line. 830 38

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