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)

DNA topoisomerase (topo) IIalpha gene expression or activity is altered in tumor cells selected for resistance to inhibitors of topoII. To better understand the mechanisms by which topoIIalpha expression levels are modulated, we examined topoIIalpha transcriptional regulation in ICRF-187-sensitive and ICRF-187-resistant human leukemic cell lines that express an increased amount of topoIIalpha protein and mRNA. Transient transfections of luciferase reporter plasmids containing either the full-length human topoIIalpha promoter or fragments of it revealed that topoIIalpha transcriptional activity was significantly increased in the drug-resistant CEM/ICRF-8 cells, compared with CEM cells. Specifically, the transcriptional activity of the full-length topoIIalpha promoter (nucleotides -557 to +90) was doubled in CEM/ICRF-8 compared with CEM cells. Serial deletion of the topoIIalpha promoter permitted localization of the region responsible for its up-regulation in the drug-resistant cells between nucleotides -557 and -162, which includes the last three inverted CCAAT elements (ICE) 3 to 5. Note that construction of a point mutation in ICE3 resulted in a significant increase in transcriptional activity of the topoIIalpha promoter in the drug-sensitive CEM cells. In addition, by electrophoretic mobility shift assay, ICE3 was recognized by a protein complex containing NF-YB that was present at reduced levels in the topoIIalpha-overexpressing CEM/ICRF-8 extracts, suggesting that ICE3 plays a negative regulatory role in human topoIIalpha gene expression. This is the first study to show that topoIIalpha transcriptional up-regulation in ICRF-187-resistant cells is mediated in part by altered regulation of the third inverted CCAAT box in the topoIIalpha promoter.
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PMID:Role of an inverted CCAAT element in human topoisomerase IIalpha gene expression in ICRF-187-sensitive and -resistant CEM leukemic cells. 1116 Aug 54

Two distinct types of Balb / 3T3 cells were isolated which exhibit either 4 N DNA or both 4 N and 8 N DNA after exposure to colcemid for 48 h. They were found to differ with respect to the postmitotic checkpoint, but not the mitotic checkpoint. Firstly, the checkpoint-proficient and -deficient cells exhibited the same accumulation and subsequent decrease in the number of mitotic cells following exposure to microtubule inhibitors. Secondly, after exit from abnormal mitosis in the presence of ICRF (Imperial Cancer Research Fund)-193, the checkpoint-proficient cells were arrested in the next cycle G1, while the checkpoint-deficient cells progressed into S and G2 phase. When either mitotic or asynchronous cells were exposed to ICRF-193, the checkpoint-proficient cells proved more sensitive to the cytotoxic effect of this agent than the checkpoint-deficient cells. The different susceptibilities of the two types of cells to ICRF-193 were not caused by variation in topoisomerase (topo) II function since both the biochemical activity of this enzyme and chromosome segregation were inhibited by similar concentrations of ICRF-193 in both checkpoint-proficient and -deficient cells. We propose that the inhibition of chromosome segregation by ICRF-193 is monitored by the next G1 checkpoint, resulting in an irreversible G1 block in the case of postmitotic checkpoint-proficient cells. As the checkpoint-deficient cells can escape this G1 block, these cells have an increased survival capacity. In summary, ICRF-193 may prove to be a very useful drug for examination of the postmitotic checkpoint.
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PMID:Different susceptibilities of postmitotic checkpoint-proficient and -deficient Balb / 3T3 cells to ICRF-193, a catalytic inhibitor of DNA topoisomerase II. 1122 49

To elucidate the relationship between topoisomerase (topo) II expression and sensitivity to anti-topo II drugs in mammalian cells, we generated mouse embryonic stem cell mutants heterozygous for the topo IIalpha gene by gene targeting. The level of topo IIalpha in the heterozygous cells reduced to one-half of that found in wild-type cells, while topo IIbeta levels were similar in both cell types. Importantly, the heterozygous cells exhibited an increased resistance to ICRF-193 as well as VP-16, suggesting that ICRF-193, like VP-16, exerts its cytotoxicity through converting topo II to a poison.
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PMID:Decreased topoisomerase IIalpha expression confers increased resistance to ICRF-193 as well as VP-16 in mouse embryonic stem cells. 1129 89

Mutations of the retinoblastoma tumor suppressor, pRb, or its cyclin-cyclin-dependent kinase (CDK) regulatory kinases or CDK inhibitors, allows unrestrained E2F activity, leading to unregulated cell cycle progression. However, overexpression of E2F-1 also sensitizes cells to apoptosis, suggesting that targeting this pathway may be of therapeutic benefit. Enforced expression of E2F-1 in interleukin-3-dependent myeloid cells led to preferential sensitivity to the topoisomerase II inhibitor, etoposide, which was independent of p53 accumulation. Pretreatment of the E2F-1-expressing cells with ICRF-193, a second topoisomerase II inhibitor that does not cause DNA damage, protected these cells against etoposide-induced apoptosis. However, ICRF-193 cooperated with other DNA-damaging agents to induce apoptosis. Enforced expression of E2F-1 led to accumulation of p53 protein. An E2F-1 mutant that is defective in inducing cell cycle progression also induced p53, suggesting that p53 was responding directly to E2F, and not to secondary events caused by inappropriate cell cycle progression (i.e., DNA damage). Thus, topoisomerase II inhibition and DNA damage cooperate to selectively induce apoptosis in cells that have mutations in the pRb pathway.
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PMID:Topoisomerase IIalpha mediates E2F-1-induced chemosensitivity and is a target for p53-mediated transcriptional repression. 1132 40

Effects of ICRF-193, a topoisomerase II inhibitor, on metaphase chromosome preparations were examined. A short-time exposure of this drug to human HL60 cells in a suspension culture before harvest resulted in obtaining more extended metaphase chromosomes. The length of chromosome 6 identified by fluorescence in situ hybridization was twice as long with this drug treatment. Together with effectiveness for adherent HepG2 cells, these results suggest that treatments with ICRF-193 provide a simple and reliable method for extended metaphase chromosome preparations from cultured cells.
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PMID:Preparation of extended metaphase chromosomes from human cultured cells using a topoisomerase II inhibitor, ICRF-193. 1144 Jan 51

There are controversial theoretical models about a possible involvement of DNA topoisomerase II (topo II) in the molecular mechanism of sister chromatid exchanges (SCEs). In order to clarify the role of this enzyme, if any, in such recombinational event, CHO parental AA8 and mutant EM9 cells, which shows and extremely high baseline frequency of SCE, have been treated with different doses of the non-poisoning topoisomerase inhibitors, ICRF-193 and bufalin. The frequencies of SCEs after the treatments have been determined and the inhibitory effect of these compounds has been assessed using a topo II activity assay. The results indicate that ICRF-193 and bufalin effectively inhibit topo II activity in AA8 and EM9 cell lines. ICRF-193 induced a moderate increase in the frequency of SCEs in both types of cells, while bufalin did not modify the level of SCEs in any of them. The results are discussed taking into account the apparently unlike mechanisms of inhibition of topo II by ICRF-193 and bufalin.
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PMID:Testing the SCE mechanism with non-poisoning topoisomerase II inhibitors. 1152 9

In the nucleus of the cell, core RNA polymerase II (pol II) is associated with a large complex called the pol II holoenzyme (holo-pol). Transcription by core pol II in vitro on nucleosomal templates is repressed compared with that on templates of histone-free naked DNA. We found that the transcriptional activity of holo-pol, in contrast to that of core pol II, is not markedly repressed on chromatin templates. We refer to this property of holo-pol as chromatin-dependent coactivation (CDC). Here we show that DNA topoisomerase IIalpha is associated with the holo-pol and is a required component of CDC. Etoposide and ICRF-193, specific inhibitors of topoisomerase II, blocked transcription on chromatin templates, but did not affect transcription on naked templates. Addition of purified topoisomerase IIalpha reconstituted CDC activity in reactions with core pol II. These findings suggest that transcription on chromatin templates results in the accumulation of superhelical tension, making the relaxation activity of topoisomerase II essential for productive RNA synthesis on nucleosomal DNA.
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PMID:DNA topoisomerase IIalpha is required for RNA polymerase II transcription on chromatin templates. 1157 92

Antineoplastic bis(dioxopiperazine)s, such as meso-2,3-bis(2,6-dioxopiperazin-4-yl)butane (ICRF-193), are widely believed to be only catalytic inhibitors of topoisomerase II. However, topoisomerase inhibitors have little or no antineoplastic activity unless they are topoisomerase poisons, a special subclass of topoisomerase-targeting drugs that stabilize topoisomerase-DNA strand passing intermediates and thus cause the topoisomerase to become a cytotoxic DNA-damaging agent. Here we report that ICRF-193 is a very significant topoisomerase II poison. Detection of topoisomerase II poisoning by ICRF-193 required the use of a chaotropic protein denaturant in the topoisomerase poisoning assays. ICRF-193 caused dose-dependent cross-linking of human topoisomerase IIbeta to DNA and stimulated topoisomerase IIbeta-mediated DNA cleavage at specific sites on (32)P-end-labeled DNA. Human topoisomerase IIalpha-mediated DNA cleavage was stimulated to a lesser extent by ICRF-193. In vivo experiments with MCF-7 cells also showed the requirement of a chaotropic protein denaturant in the assays and selectivity for the beta-isozyme of human topoisomerase II. Studies with two topoisomerase IIbeta-negative cell model systems confirmed significant topoisomerase II poisoning by ICRF-193 in the wild type cells and were consistent with beta-isozyme selectivity. Common use of only the detergent, SDS, in assays may have led to failure to detect topoisomerase II poisoning by ICRF-193 in earlier studies.
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PMID:Topoisomerase II poisoning by ICRF-193. 1157 77

Chromatid catenation is actively monitored in human cells, with progression from G(2) to mitosis being inhibited when chromatids are insufficiently decatenated. Mitotic delay was quantified in normal and checkpoint-deficient human cells during treatment with ICRF-193, a topoisomerase II catalytic inhibitor that prevents chromatid decatenation without producing topoisomerase-associated DNA strand breaks. Ataxia telangiectasia (A-T) cells, defective in DNA damage checkpoints, showed normal mitotic delay when treated with ICRF-193. The mitotic delay in response to ICRF-193 was ablated in human fibroblasts expressing an ataxia telangiectasia mutated- and rad3-related (ATR) kinase-inactive ATR allele (ATR(ki)). BRCA1-mutant HCC1937 cells also displayed a defect in ICRF-193-induced mitotic delay, which was corrected by expression of wild-type BRCA1. Phosphorylations of hCds1 or Chk1 and inhibition of Cdk1 kinase activity, which are elements of checkpoints associated with DNA damage or replication, did not occur during ICRF-193-induced mitotic delay. Over-expression of cyclin B1 containing a dominant nuclear localization signal, and inhibition of Crm1-mediated nuclear export, reversed ICRF-193-induced mitotic delay. In combination, these results imply that ATR and BRCA1 enforce the decatenation G(2) checkpoint, which may act to exclude cyclin B1/Cdk1 complexes from the nucleus. Moreover, induction of ATR(ki) produced a 10-fold increase in chromosomal aberrations, further emphasizing the vital role for ATR in genetic stability.
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PMID:The human decatenation checkpoint. 1159 14

It is known that topoisomerase IIalpha is phosphorylated by several kinases. To elucidate the role of phosphorylation of topoisomerase IIalpha in the cell cycle, we have examined the cell cycle behavior of phosphorylated topoisomerase IIalpha in HeLa cells using antibodies against several phospho-oligopeptides of this enzyme. Here we demonstrate that serine1212 in topoisomerase IIalpha is phosphorylated only in the mitotic phase. Using an antibody against an oligopeptide containing phosphoserine-1212 in topoisomerase IIalpha (PS1212), subcellular localization of topoisomerase IIalpha phosphorylated at serine1212 was examined by indirect immunofluorescence staining, and compared with that of overall topoisomerase IIalpha. Serine1212-phosphorylated topoisomerase IIalpha was localized specifically on mitotic chromosomes, but not on interphase chromosomes; this result contrasts with overall topoisomerase IIalpha which was observed on chomosomes in both interphase and mitosis. Serine1212-phosphorylated topoisomerase lIalpha first appeared on chromosome arms in prophase, became concentrated on the centromeres in metaphase, and disappeared in early telophase. In addition, ICRF-193, a catalytic inhibitor of topoisomerase II, prevented accumulation of serine1212-phosphorylated topoisomerase IIalpha at the centromeres. These results indicate that serine1212 of topoisomerase IIalpha is phosphorylated specifically during mitosis, and suggest that the serine1212-phosphorylated topoisomerase IIalpha acts on resolving topological constraint progressively from the chromosome arm to the centromere during metaphase chromosome condensation.
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PMID:Mitotic specific phosphorylation of serine-1212 in human DNA topoisomerase IIalpha. 1169 38


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