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)

Topoisomerases catalyse the interconversion of topological isomers of DNA and have key roles in nucleic acid metabolism. Human cells express two distinct type II topoisomerase isozymes, designated topoisomerase II alpha (170 kDa form) and topoisomerase II beta (180 kDa form). We have isolated cDNA clones encoding the beta isozyme from a human B-cell library. The proposed coding region for the topoisomerase II beta protein is 4,863 nucleotides long and would encode a polypeptide with a calculated M(r) of 182,705. The predicted topoisomerase II beta protein sequence shows striking similarity (72% identical residues) to that of the human alpha isozyme, and homology to topoisomerase II proteins from Drosophila, yeast and bacteria. Regions of greatest amino acid sequence divergence lie at the extreme N-terminus and over a C-terminal domain comprising approximately 25% of the total protein. We have quantified the level of topoisomerase II beta mRNA in a panel of human tumour cell lines of different origin using an RNase protection assay, and compared the level to that of topoisomerase II alpha mRNA. Topoisomerase II beta mRNA was expressed in haemopoietic, epithelial and fibroblast cell lines, although to different extents, with U937 cells (promonocytic leukaemia) showing a particularly high level. There was no obvious relationship in terms of level of expression between the topoisomerase II alpha and beta genes. We have localised the gene encoding topoisomerase II beta protein to chromosome 3p24 in the human genome.
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PMID:Isolation of cDNA clones encoding the beta isozyme of human DNA topoisomerase II and localisation of the gene to chromosome 3p24. 133 83

Proliferation-linked expression of the nuclear Ki-S1 antigen is a significant prognostic indicator in mammary carcinomas. Here, we show staining of a protein of 170 kd by Ki-S1 antibody in immunoblots of Saccharomyces cerevisiae expressing human topoisomerase II alpha but not in the parental strain. In HL-60 cells containing both isoforms of human topoisomerase II, Ki-S1 antibody binds selectively to the 170-kd isoenzyme in a similar fashion as peptide-antibodies directed against amino acid residues 1 to 15 or 1512 to 1530 of human topoisomerase II alpha. Conversely, antibodies directed against carboxyl-terminal sequences of human topoisomerase II beta selectively stain a 180-kd protein. The immunoreactive pattern of V8 endoproteinase restriction digests of human topoisomerase II alpha was identical for Ki-S1-antibody and peptide-antibodies directed against residues 1512 to 1530 but different for peptide-antibodies directed against residues 1 to 15. The Rf values of the smallest fragment commonly recognized by Ki-S1 antibody and the carboxy terminus-specific peptide-antibody place the Ki-S1 epitope within the last 495 carboxyl-terminal amino acid residues of topoisomerase II alpha.
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PMID:Proliferation-associated nuclear antigen Ki-S1 is identical with topoisomerase II alpha. Delineation of a carboxy-terminal epitope with peptide antibodies. 753 79

DNA topoisomerase II is a major protein of the nuclear matrix. The enzyme appears to have a central role in both DNA organization and replication. The importance of nuclear matrix topoisomerase II alpha as a target for certain anticancer agents was evaluated in CEM human leukemia cells. Studies were done to determine the extent to which the alpha (170 kDa) and beta (180 kDa) isozymes of topoisomerase II form covalent enzyme-DNA complexes in whole cells and in the nuclear matrix and nonmatrix fractions of CEM cells that are either sensitive or resistant to topoisomerase II-active anticancer agents. Topoisomerase II alpha was detected in both the high salt-soluble (nonmatrix) and matrix fractions of nuclei from parental CEM cells. Most of the matrix topoisomerase II alpha was tightly bound to DNA in cells incubated with VM-26. In contrast, topoisomerase II beta was detected only in the high salt-soluble (nonmatrix) fraction of the nucleus. The subnuclear distribution of the alpha and beta topoisomerase II isozymes in CEM/VM-1 cells resistant to topoisomerase-active drugs was similar to that in drug-sensitive CEM cells. However, the amount and activity of topoisomerase II alpha in nuclear matrices of CEM/VM-1 cells were decreased 3- to 6-fold relative to that of CEM cells. The differences observed in the subnuclear distribution and DNA binding pattern of the topoisomerase II isozymes support the hypotheses that each isozyme has a distinct cellular function. Furthermore, these results provide evidence that topoisomerase II alpha is the nuclear matrix target for VM-26, and that depletion of the nuclear matrix isozyme contributes to cellular resistance to this anticancer agent.
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PMID:DNA topoisomerase II isozymes involved in anticancer drug action and resistance. 757 48

Genistein, an isoflavonoid derivative initially described as an in vitro protein tyrosine kinase inhibitor, also inhibits mammalian DNA topoisomerase II both in vitro and in vivo. From a human leukaemic T cell line (CCRF-CEM), two genistein-resistant cell lines, which grow in the presence of 50 and 150 microM genistein, respectively, were selected and designated CEM/GN50 and CEM/GN150. Flow cytometry and karyotype analyses revealed that more than 95% of the parental cells were tetraploid whereas both resistant sublines were essentially diploid and were likely derived from the diploid fraction in the initial population. The CEM/GN cells were 3- to 4-fold resistant to genistein, and highly cross-resistant to certain metabolic inhibitors such as cytosine-arabinoside (50-fold) and 5-fluoro-2'-deoxyuridine (5000-fold). This resistance was associated with a markedly decreased uptake of thymidine and a 10-fold reduction in thymidine kinase activity. The CEM/GM cells were also 15- to 30-fold cross-resistant to topoisomerase inhibitors (etoposide, m-AMSA, 2-Me-9-OH-ellipticinium). Comparison of topoisomerase II activities in the sensitive and resistant cells showed: (i) an approximately 2-fold reduced decatenation activity in nuclear extracts from the resistant cells; (ii) an approximate 30% reduction in DNA-protein cross-links in etoposide-treated resistant cells; and (iii) a markedly reduced expression of the topoisomerase II beta isoform. These data, consistent with our previous results, indicate that the cytotoxicity of genistein is at least in part related to its capacity to inhibit DNA topoisomerase II.
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PMID:Genistein resistance in human leukaemic CCRF-CEM cells: selection of a diploid cell line with reduced DNA topoisomerase II beta isoform. 763 61

Human cells express two genetically distinct isoforms of DNA topoisomerase II, alpha and beta, which catalyze ATP-dependent DNA strand passage and are an important antitumor drug target. Here we report for the first time the successful overexpression of human topoisomerase II beta in yeast by cloning a topoisomerase II beta cDNA in a yeast shuttle vector under the control of a galactose-inducible promoter. Recombinant human topoisomerase II beta (residues 46-1621 fused to the first 5 residues of yeast topoisomerase II) was purified to homogeneity, yielding an enzymatically active polypeptide in sufficient quantity to allow analysis of its domain structure and comparison with that of recombinant human topoisomerase II alpha. Partial digestion of beta with either trypsin or protease SV8 generated fragments of approximately 130, 90, 62, and 45-50 kDa, arising from cleavage at three limited and discrete regions of the protein (A, B, and C) indicating the presence of at least four structural domains. Recombinant human topoisomerase II alpha and beta induced DNA breakage which was promoted by a variety of agents. Isoform differences in drug-induced DNA breakage were observed. These studies of human topoisomerase II beta in concert with alpha should aid the determination of their individual roles in cancer chemotherapy and should facilitate the design, targeting, and testing of cytotoxic antitumor agents.
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PMID:Expression, domain structure, and enzymatic properties of an active recombinant human DNA topoisomerase II beta. 779 75

Studies were done to determine (a) the subcellular distribution of the alpha (170 kDa) and beta (180 kDa) isozymes of topoisomerase II, and (b) the extent to which each isozyme forms complexes with DNA in tumor cells incubated with and without VM-26. Western blotting revealed that topoisomerase II beta was highly unstable during cell fractionation. However, preincubation of human CEM leukemia cells with 5-100 microM VM-26 for 30 min protected the beta isozyme from degradation by progressively increasing the amount of this isoform bound to DNA. The amount of topoisomerase II beta detected in nuclei of CEM cells incubated for 30 min with 25 microM VM-26 was 7-fold greater than in nuclei from untreated control cells. VM-26 also had a protective effect on topoisomerase II beta in HL-60 leukemia and WiDR colon carcinoma cells. In contrast, the intercalating agents mitoxantrone and m-AMSA did not protect topoisomerase II beta from degradation during cell fractionation. The stabilization of topoisomerase II beta by VM-26 allowed subsequent studies of the subcellular distribution of the topoisomerase II isozymes. Both isozymes were detected in the nonmatrix (high salt-soluble) fraction of nuclei from CEM cells, but only topoisomerase II alpha was present in the nuclear matrix. VM-26 stabilized binding of the alpha and beta topoisomerase II isoenzymes to nonmatrix DNA and topoisomerase II alpha to matrix DNA. The differences observed in the subnuclear distribution and DNA binding pattern of the topoisomerase II isozymes support the hypotheses that each isozyme has a distinct cellular function, and that both the alpha and beta isozymes are potential targets for VM-26 in intact cells. In addition, the results demonstrated that pretreatment of various cell lines with VM-26 is a useful way to stabilize topoisomerase II beta during cell fractionation.
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PMID:Subcellular distribution of the alpha and beta topoisomerase II-DNA complexes stabilized by VM-26. 798 Jun 48

Qualitative differences between interphase and mitotic topoisomerase II were studied in Chinese hamster ovary cells. Differences in sites of phosphorylation of in vivo 32P-labeled topoisomerase II alpha were observed between mitosis and interphase by one-dimensional phosphopeptide mapping of partial tryptic digests. Two-dimensional phosphopeptide mapping of complete trypsin digests revealed two phosphopeptides unique to interphase and three phosphopeptides unique to mitosis. A reduced electrophoretic mobility on denaturing gels (approximately 190 kDa) was observed for the beta-isoform of topoisomerase II in mitosis relative to interphase. Treatment of lysates with alkaline phosphatase demonstrated that this was due to phosphorylation of mitotic topoisomerase II beta. The existence of interphase- and mitosis-specific sites of phosphorylation of topoisomerase II alpha, along with the electrophoretic mobility shift caused by phosphorylation of topoisomerase II beta in mitosis, demonstrates qualitative differences between interphase and mitosis in the phosphorylation state of both isoforms of topoisomerase II.
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PMID:Phosphorylation of the alpha- and beta-isoforms of DNA topoisomerase II is qualitatively different in interphase and mitosis in Chinese hamster ovary cells. 799 92

The H209/V6 cell line was derived from the H209 small cell lung cancer cell line by selection in etoposide (VP-16). Cytogenetic analysis indicates that the sensitive and resistant cell lines share 20 marker chromosomes and thus are clearly related. However, the H209/V6 cell line has four additional structurally altered chromosomes and a 2 N-modal chromosome number, while the H209 cell line is hypotetraploid (4 N-). H209/V6 cells are cross-resistant to some drugs that interact with topoisomerase II but not mitoxantrone. H209/V6 cells are also not cross-resistant to vincristine, trimetrexate, or cisplatin. The rates of VP-16 efflux are the same in the resistant and sensitive cell lines, which is consistent with the observation that P-glycoprotein mRNA is not detectable in either cell line. Fewer VP-16-induced DNA-protein complexes are observed in H209/V6 cells, and immunoblot analysis shows that levels of topoisomerase II alpha are reduced in H209/V6 cells compared to the sensitive H209 cells. Furthermore, the topoisomerase II alpha-related protein in H209/V6 cells has an increased electrophoretic mobility, with an apparent M(r) of 160,000. The levels of the topoisomerase II alpha 6.1-kilobase mRNA in H209/V6 cells are reduced > 10-fold. In addition, a second topoisomerase II alpha-related mRNA of approximately 4.8 kilobases is observed in H209/V6 cells but not in H209 cells. The quantity and electrophoretic mobility of the M(r) 180,000 topoisomerase II beta protein and its 6.1-kilobase mRNA are the same in the sensitive and resistant cell lines. The topoisomerase II strand-passing activity in H209/V6 nuclear extracts is reduced about 2-fold, but this activity is not more resistant to inhibition by VP-16 than the activity in H209 cells. However, band depletion immunoblot experiments show that the topoisomerase II alpha-related M(r) 160,000 protein in H209/V6 cells is not bound to DNA in the presence of concentrations of VP-16 that deplete the M(r) 170,000 topoisomerase II alpha in H209 cells and the M(r) 180,000 topoisomerase II beta in both the resistant and sensitive cells. We conclude that quantitative and qualitative alterations in topoisomerase II alpha have occurred in H209/V6 cells and are likely to contribute to its resistance phenotype.
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PMID:Altered topoisomerase II alpha in a drug-resistant small cell lung cancer cell line selected in VP-16. 810 87

K562 leukaemia cells were selected for resistance using 0.5 microM etoposide (VP-16). Cloned K/VP.5 cells were 30-fold resistant to growth inhibition by VP-16 and 5- to 13-fold resistant to m-AMSA, adriamycin and mitoxantrone. K/VP.5 cells did not overexpress P-glycoprotein; VP-16 accumulation was similar to that in K562 cells. VP-16-induced DNA damage was reduced in cells and nuclei from K/VP.5 cells compared with K562 cells. Topoisomerase II protein was reduced 3- to 7-fold and topoisomerase II alpha and topoisomerase II beta mRNAs were each reduced 3-fold in resistant cells. After drug removal, VP-16-induced DNA damage disappeared 1.7 times more rapidly and VP-16-induced DNA-topoisomerase II adducts dissociated 1.5 times more rapidly in K/VP.5 cells than in K562 cells. ATP (1 mM) was more effective in enhancing VP-16-induced DNA damage in nuclei isolated from sensitive cells than in nuclei from resistant cells. In addition, ATP (0.3-5 mM) stimulated VP-16-induced DNA-topoisomerase II adducts to a greater extent in K562 nuclei than in K/VP.5 nuclei. Taken together, these results indicate that resistance to VP-16 in a K562 subline is associated with a quantitative reduction in topoisomerase II protein and, in addition, a distinct qualitative alteration in topoisomerase II affecting the stability of drug-induced DNA-topoisomerase II complexes.
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PMID:Altered stability of etoposide-induced topoisomerase II-DNA complexes in resistant human leukaemia K562 cells. 814 56

The cytotoxicity of a class of compounds related to the topoisomerase-II poison amsacrine was investigated against plateau-phase murine Lewis lung carcinoma cells (LLTC), HCT-8 human colon carcinoma cells and other cell lines. Methyl N-[4-(9-acridinylamino)-2-methoxy-phenyl]carbamate hydrochloride and the corresponding demethoxy compound, which contain a methylcarbamate instead of the methylsulphonylamino group, manifested relatively high cytotoxic activity against plateau-phase cells as measured by clonogenic survival. The concentration of drug required for a given cytotoxic effect on plateau-phase cells was about 2 times higher than that required for an equitoxic effect on actively proliferating cells. In contrast, at least 5 times more amsacrine, doxorubicin or etoposide was needed for an equitoxic effect on plateau-phase cells. Cells taken directly from subcutaneous LLTC tumours and exposed to drugs displayed the same differential drug sensitivity to the carbamate compounds, suggesting that the plateau-phase cells provide an appropriate model for cells growing in vivo. The greater cytotoxicity of the carbamate drugs was shown to depend critically on the provision of an energy source such as glucose, suggesting that nutrient starvation both in plateau-phase cells and in tumours induced a glucose-sensitive resistance mechanism. It is suggested that the carbamate analogues of amsacrine recognize a form of topoisomerase II, possibly topoisomerase II beta, the activity of which increases relative to that of topoisomerase II alpha in non-cycling cells, and might be used to devise new strategies for the treatment of solid tumours.
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PMID:Novel carbamate analogues of amsacrine with activity against non-cycling murine and human tumour cells. 819 67


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