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)

A type II DNA topoisomerase, topoIImt, was shown previously to be associated with the kinetoplast DNA of the trypanosomatid Crithidia fasciculata. The gene encoding this kinetoplast-associated topoisomerase has been cloned by immunological screening of a Crithidia genomic expression library with monoclonal antibodies raised against the purified enzyme. The gene CfaTOP2 is a single copy gene and is expressed as a 4.8-kb polyadenylated transcript. The nucleotide sequence of CfaTOP2 has been determined and encodes a predicted polypeptide of 1239 amino acids with a molecular mass of 138,445. The identification of the cloned gene is supported by immunoblot analysis of the beta-galactosidase-CfaTOP2 fusion protein expressed in Escherichia coli and by analysis of tryptic peptide sequences derived from purified topoIImt. CfaTOP2 shares significant homology with nuclear type II DNA topoisomerases of other eukaryotes suggesting that in Crithidia both nuclear and mitochondrial forms of topoisomerase II are encoded by the same gene.
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PMID:Molecular cloning and expression of the gene encoding the kinetoplast-associated type II DNA topoisomerase of Crithidia fasciculata. 131 98

In vitro erythroid differentiation of mouse erythroleukemia (MEL) cells was induced by combinations of topoisomerase and protein kinase inhibitors. Neither inhibitor alone exhibited inducing activity. Although inhibitors of topoisomerases I and II were equally effective in the synergistic induction of erythroid differentiation, only inhibitors of tyrosine kinases, not of serine/threonine kinases, exhibited synergistic activity. The erythroid differentiation induced by the combination of topoisomerase and protein tyrosine kinase inhibitors was distinguished from that induced by typical erythroid inducing agents such as DMSO or HMBA by (1) earlier hemoglobin accumulation in the cells and (2) insensitivity to specific inhibitors (dexamethasone and sodium orthovanadate) of MEL cell differentiation.
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PMID:Synergistic induction of erythroid differentiation of mouse erythroleukemia (MEL) cells by inhibitors of topoisomerases and protein tyrosine kinases. 131 8

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

Patterns of drug sensitivities in relation to topoisomerase II gene expression and activity were studied in eight human lung cancer cell lines not selected in vitro for drug resistance. The cytotoxicities of doxorubicin, etoposide, teniposide, cisplatin, camptothecin, and 5-fluorouracil were measured and, remarkably, these unselected cell lines were shown to have a common pattern of multidrug sensitivity, i.e., a multidrug sensitivity phenotype. In fact, drug sensitivities were significantly correlated with each other in the studied cell lines, the correlation being best for the topoisomerase II-targeted agents and cisplatin, less strong with camptothecin, and weak with 5-fluorouracil. Almost 1-log range difference of topoisomerase II gene expression was found in these cell lines, and this was not explained by the cell-doubling time or cell cycle distribution. The level of topoisomerase II gene expression was positively and highly correlated with the cell sensitivity to epipodophyllotoxins, doxorubicin, and cisplatin in seven cell lines. Although weaker, an association was also observed between topoisomerase II gene expression and camptothecin cytotoxicity, while no association was observed with 5-fluorouracil. However, a non-small cell lung cancer cell line with neuroendocrine properties had very low levels of expression of the topoisomerase II gene, despite being highly sensitive to all drugs tested. The levels of topoisomerase I gene expression were not found to be correlated with the cytotoxicity of any drug tested. A specific enzymatic activity assay and a teniposide-stimulated DNA cleavage assay showed that the extent of active topoisomerase II present in nuclear extracts paralleled the level of topoisomerase II gene expression. Furthermore, in addition to the normal transcript, an abnormally sized topoisomerase II message and a rearrangement of the topoisomerase II gene were detected in a poorly sensitive small cell lung cancer cell line. Therefore, low levels of topoisomerase II gene expression, and possibly mutations, may predict a reduced sensitivity of unselected human lung cancer cell lines to several drugs, including agents with a cellular target other than topoisomerase II. It is hypothesized that topoisomerase II might be involved in a common pathway of cell death induced by drugs in tumor cell lines which present a multidrug sensitivity phenotype.
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PMID:Multidrug sensitivity phenotype of human lung cancer cells associated with topoisomerase II expression. 131 95

Four naturally occurring flavones (baicalein, quercetin, quercetagetin and myricetin) and two novel catechins [(-)-epicatechin gallate and (-)-epigallocatechin gallate, from the tea plant Camellia sinensis], which are known inhibitors of reverse transcriptase, were shown to induce mammalian topoisomerase II-dependent DNA-cleavage in vitro. The flavones differed from the catechins in causing unwinding of duplex DNA, but both classes of compound induced enzymic DNA breakage at the same sites on DNA. Moreover, the cleavage specificity was the same as that for the known intercalator 4'-(acridin-9-ylamino)methanesulphon-m-anisidide, suggesting that these agents trap the same cleavable complex. Analysis of some 30 flavonoid compounds allowed elucidation of the structure-function relationships for topoisomerase II-mediated DNA cleavage. For flavonoid inhibitors an unsaturated double bond between positions 2 and 3 of the pyrone ring and hydroxy groups at the 5, 7, 3' and 4' positions favoured efficient cleavage. Hydroxy substitutions could be tolerated at the 3, 6 and 5' positions. Indeed, the absence of substituents at the 3', 4' and 5' positions could be compensated by a hydroxy group at position 6 (baicalein). Similar requirements have been reported for flavonoid inhibitors of protein kinase C that act competitively with ATP, suggesting interaction with a conserved protein feature. Formation of the cleavable complex is a cytotoxic lesion that may contribute to the growth-inhibitory properties of flavones observed for three human tumour cell lines. These results are discussed in regard to the selectivity of antiviral agents.
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PMID:Site-specific DNA cleavage by mammalian DNA topoisomerase II induced by novel flavone and catechin derivatives. 131 32

The antitrypanosomal and antifiliarial drug suramin is currently under investigation for treatment of advanced malignancies including prostatic cancer, adrenocortical cancer, and some lymphomas and sarcomas. Here we show that suramin is a potent inhibitor of the nuclear enzyme DNA topoisomerase II. Suramin inhibited purified yeast topoisomerase II with an IC50 of about 5 microM, as measured by decatenation or relaxation assays. Suramin did not stabilize the covalent DNA-topoisomerase II reaction intermediate ("cleavable complex"), whereas other inhibitors of this enzyme, such as amsacrine, etoposide, and the ellipticines, are known to stabilize the intermediate. In contrast, the presence of suramin strongly inhibited the cleavable-complex formation induced by amsacrine or etoposide. Accumulation of the endogenous cleavable complex was also inhibited. Suramin entered the nucleus of DC-3F Chinese hamster fibrosarcoma cells exposed to radiolabeled suramin for 24 hr as shown by both optic and electron microscopy. The suramin present in the nucleus seemed to interact with topoisomerase II, since suramin reduced the number of amsacrine-induced protein-associated DNA strand breaks in DC-3F cells and protected these cells from the cytotoxic action of amsacrine. Cells resistant to 9-hydroxyellipticine, which have been shown to have an altered topoisomerase II activity, are about 7-fold more resistant to suramin than the sensitive parental cells as shown by 72-hr growth inhibition assay. Our results suggest that DNA topoisomerase II is a target of suramin action and that this action may play a role in the cytotoxic activity of suramin.
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PMID:Suramin is an inhibitor of DNA topoisomerase II in vitro and in Chinese hamster fibrosarcoma cells. 131 77

The replication initiator proteins encoded by the pT181 and related plasmids have sequence-specific DNA binding and topoisomerase activities. These proteins create a site-specific nick in one strand of the DNA at the origin of replication that serves as a primer for the initiation of replication. To define the regions of the pT181-encoded initiator protein, RepC, that are involved in its DNA binding, topoisomerase, and replication activities, we have carried out site-directed mutagenesis of the repC gene. Analysis of mutant RepC proteins in vitro and in vivo has identified the amino acids that are critical for its various biochemical activities. The DNA binding domain of RepC was found to be located near its C-terminal region and was different from the domain involved in its sequence-specific topoisomerase activity. These studies also showed that the DNA topoisomerase activity of the initiator protein can be uncoupled from its tight noncovalent DNA binding and replication activities.
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PMID:Uncoupling of the DNA topoisomerase and replication activities of an initiator protein. 131 80

The effects of serine phosphorylation on the DNA cleavage/religation equilibrium of topoisomerase II and the sensitivity of the enzyme to antineoplastic drugs were characterized. Both casein kinase II and protein kinase C were used for these studies. Each kinase incorporated a maximum of approximately 1.4 phosphate molecules per homodimer of topoisomerase II. When the enzyme was incubated with both kinases simultaneously, phosphate incorporation increased to approximately 2.6 molecules/homodimer. In the absence of antineoplastic drugs, phosphorylation had only a slight effect on the DNA cleavage/religation equilibrium of topoisomerase II. However, in the presence of etoposide or 4'-(9-acridinylamino)methane-sulfon-m-anisidide, phosphorylation attenuated the ability of drugs to stabilize enzyme-DNA cleavage complexes. Levels of drug-induced DNA cleavage products decreased approximately 33% following phosphorylation of topoisomerase II by casein kinase II, approximately 17% following modification by protein kinase C, and approximately 50% following simultaneous phosphorylation of the enzyme by both kinases. This latter 50% reduction in DNA cleavage products correlated with an approximately 2-fold increase in the apparent first order rate constant for DNA religation mediated by simultaneously modified topoisomerase II. These results strongly suggest that the sensitivity of topoisomerase II toward antineoplastic drugs can be modulated by altering the phosphorylation state of the enzyme.
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PMID:Phosphorylation of topoisomerase II by casein kinase II and protein kinase C: effects on enzyme-mediated DNA cleavage/religation and sensitivity to the antineoplastic drugs etoposide and 4'-(9-acridinylamino)methane-sulfon-m-anisidide. 131 38

We have sequenced about 5 kb of the Escherichia coli chromosome downstream from the tolC gene, looking for a topoisomerase gene. This region does not contain a topoisomerase gene.
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PMID:Nucleotide sequence of a region duplicated in Escherichia coli toc mutants. 131 93

To study the factors contributing to tumor sensitivity to adriamycin (ADR) in vivo, the relationship between mRNA expression of the MDR1, GST-pi and topoisomerase II genes and tumor response to ADR was examined in six human xenograft tumors derived from two esophageal, two gastric and two colon cancers. A significant tumor response to ADR was observed in two esophageal xenograft tumors of six tumor lines, and one gastric tumor partially responded to ADR. mRNA expression of the MDR1 and GST-pi genes was elevated in five tumor lines including three ADR responsive tumors, whereas mRNA expression of the topoisomerase II gene was detected in all six tested tumor lines. Topoisomerase II mRNA expression levels in ADR responsive tumors were higher compared with those of ADR unresponsive tumors. No significant relationship between mRNA expression of the MDR1 and GST-pi genes and ADR sensitivity was found. In contrast, topoisomerase II mRNA expression was significantly correlated with tumor sensitivity to ADR (p less than 0.01). Moreover, topoisomerase II mRNA expression was significantly correlated with the growth fraction (S-phase fraction) in the cell cycle kinetics (p less than 0.01). These results indicate that topoisomerase II mRNA expression in association with the high growth fraction may be an important in vivo factor to contribute to ADR sensitivity in human tumors.
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PMID:Factors contributing to adriamycin sensitivity in human xenograft tumors: the relationship between expression of the MDR1, GST-pi and topoisomerase II genes and tumor sensitivity to adriamycin. 131 32

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