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)

We have studied the effect of some specific enzyme inhibitors on DNA repair and replication after UV damage in Chinese hamster ovary cells. The DNA repair was studied at the level of the average, overall genome and also in the active dihydrofolate reductase gene. Replication was measured in the overall genome. We tested inhibitors of DNA polymerase alpha and delta (aphidicolin), of poly(ADPr) polymerase (3-aminobenzamide), of ribonucleotide reductase (hydroxyurea), of topoisomerase I (camptothecin), and of topoisomerase II (merbarone, VP-16). In addition, we tested the effect of the potential topoisomerase I activator, beta-lapachone. All of these compounds inhibited genome replication and all topoisomerase inhibitors affected the overall genome repair; beta-lapachone stimulated it. None of these compounds had any effect on the gene-specific repair.
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PMID:Effect of specific enzyme inhibitors on replication, total genome DNA repair and on gene-specific DNA repair after UV irradiation in CHO cells. 165 49

Enhanced DNA repair has been identified as a major mechanism of resistance to the anticancer drug cisplatin in murine leukemia L1210 cells. Studies of other cells have implicated the elevation of a variety of RNA transcripts in cisplatin resistance. This study investigated potential changes in transcription of these genes as well as genes involved in DNA repair. No elevation in any of the following transcripts was observed: thymidylate synthase, dihydrofolate reductase, DNA polymerase alpha, DNA polymerase beta, topoisomerase II, Ha-ras, beta-tubulin, metallothionein and the DNA repair genes ERCC1 and ERCC2. Thymidine kinase was increased no more than 2-fold. None of these RNA were induced by incubation with cisplatin. High levels of cisplatin produced selective decreases in certain RNA. These results demonstrate that the previous observations of elevated RNA can not be universally applied to all cisplatin-resistant cells.
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PMID:Analysis of various mRNA potentially involved in cisplatin resistance of murine leukemia L1210 cells. 197 66

Novobiocin, an inhibitor of type II topoisomerase, has been reported to inhibit u.v.-induced DNA repair in a number of established mammalian cell lines; we have confirmed this general observation in primary cultures of human epidermal keratinocytes. Using a recently developed technique for measuring pyrimidine dimer frequencies in genomic restriction fragments, we have determined the extent of DNA repair in the active, essential dihydrofolate reductase (DHFR) gene. Novobiocin did not affect repair of the DHFR gene in keratinocytes or in a Chinese hamster ovary (CHO) cell line over a 24-h period following irradiation with 20 J/m2 u.v. These findings suggest that qualitative differences exist in the repair pathways in different genomic regions; topoisomerase II may not have an essential role in repair of active genes but may be required for repair of other regions in the genome.
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PMID:Novobiocin does not inhibit DNA repair in an active gene. 302 54

Based on the weight of evidence accrued in the past eight years, there is little question that the nuclear enzyme, topoisomerase II, serves as a common intracellular target for the cytotoxic effect of drugs of widely varying structure. The enzyme appears to be unique as a chemotherapy target in that it is recruited into a lethal process under the influence of drug. Its role contrasts sharply with other more classical chemotherapy targets, such as dihydrofolate reductase, whose activity must be successfully inhibited for the expression of cytotoxicity. Resistance to inhibitors of this enzyme frequently results from marked elevations in intracellular enzyme content. In contrast, the presence of topoisomerase is required for drug effect, and, in general, the greater the cellular content of the enzyme, the more sensitive the cell will be to these agents. However, important issues remain unresolved. The biochemical events that are initiated by cleavable complex formation and result in cell death must be more fully defined. It is likely a better understanding of the drug-enzyme interaction will be required for rational drug development. Finally, those aspects of the drug-topoisomerase interaction that confer therapeutic selectivity and/or clinical resistance are of paramount importance if the phenomenon is ever to be fully exploited.
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PMID:DNA topoisomerase II: a primer on the enzyme and its unique role as a multidrug target in cancer chemotherapy. 303 73

We have identified a region near the center of the dihydrofolate reductase gene dhfr in Chinese hamster ovary cells that is attached to nuclear scaffolds isolated by extraction with lithium diiodosalicylate. Detailed analysis presented here reveals the presence of only two closely linked sites in 35,000 base-pairs scanned that mediate attachment of the dhfr gene to the nuclear scaffold. Sequence analysis of one of the sites reveals a high A + T content, the presence of cleavage consensus sequences for topoisomerase II, and direct and inverted repeated sequence motifs that are localized to a small region of the attachment site. Attachment of these two regions to the nuclear scaffold is observed in wild-type, hemizygous, and amplified cell lines. Attachment is also retained in dhfr mutants isolated in our laboratory, in which chromosomal lesions have occurred directly adjacent to the scaffold-associated regions. These two regions are not bound to scaffolds prepared from isolated metaphase chromosomes, suggesting that attachment of the dhfr gene is lost during mitosis.
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PMID:Anchorage of the Chinese hamster dihydrofolate reductase gene to the nuclear scaffold occurs in an intragenic region. 343 Jun 25

A readily sedimentable nuclear fraction from Chinese hamster embryo fibroblast (CHEF/18) cells catalyzes incorporation of 14C-rCDP into DNA. Data indicated that this incorporation is made possible by the conversion of rCDP into a small and functionally compartmentalized, rather than a large and freely diffusible, pool of dCTP. This catalytically active sedimentable fraction from S phase CHEF/18 cells or actively replicating calf thymus cells contains nascent and template DNA, and numerous enzymes required for DNA biosynthesis including ribonucleoside diphosphate reductase, thymidylate synthetase, dihydrofolate reductase, DNA methylase, topoisomerase and DNA polymerase. We have named this catalytically active macromolecule the replitase. The replitase fraction contained spherical particles with a diameter of approximately 24 to 30 nm and had an estimated molecular weight on the order of 5 X 10(6).
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PMID:Rapid incorporation of label from ribonucleoside disphosphates into DNA by a cell-free high molecular weight fraction from animal cell nuclei. 629 95

The Goldie-Coldman hypothesis of how tumours develop resistance to chemotherapy predicts that random mutations occur within a tumour cell population that bestows cytotoxic resistance. These resistance mechanisms may be specific to a certain class of cytotoxic drug, such as changes the enzymes topoisomerase II and dihydrofolate reductase, or may affect many drugs simultaneously, such as increased expression of P-glycoprotein. Knowledge of the genetic basis of these resistance mechanisms will have fundamental clinical importance in individual cases by allowing cytotoxic regimes that are unaffected to be chosen. Moreover, it will allow the development of more effective modulators of resistance.
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PMID:The genetic basis of resistance to cancer chemotherapy. 763 8

In trypanosomatids, DNA replication in the nucleus and in the single mitochondrion (or kinetoplast) initiates nearly simultaneously, suggesting that the DNA synthesis (S) phases of the nucleus and the mitochondrion are coordinately regulated. To investigate the basis for the temporal link between nuclear and mitochondrial DNA synthesis phases the expression of the genes encoding DNA ligase I, the 51 and 28 kDa subunits of replication protein A, dihydrofolate reductase and the mitochondrial type II topoisomerase were analyzed during the cell cycle progression of synchronous cultures of Crithidia fasciculata. These DNA replication genes were all expressed periodically, with peak mRNA levels occurring just prior to or at the peak of DNA synthesis in the synchronized cultures. A plasmid clone (pdN-1) in which TOP2, the gene encoding the mitochondrial topoisomerase, was disrupted by the insertion of a NEO drug-resistance cassette was found to express both a truncated TOP2 mRNA and a truncated topoisomerase polypeptide. The truncated mRNA was also expressed periodically coordinate with the expression of the endogenous TOP2 mRNA indicating that cis elements necessary for periodic expression are contained within cloned sequences. The expression of both TOP2 and nuclear DNA replication genes at the G1/S boundary suggests that regulated expression of these genes may play a role in coordinating nuclear and mitochondrial S phases in trypanosomatids.
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PMID:Periodic expression of nuclear and mitochondrial DNA replication genes during the trypanosomatid cell cycle. 770 2

We reported that DNA replication initiates from the region containing an autonomously replicating sequence from Saccharomyces cerevisiae when negatively supercoiled plasmid DNA is incubated with the proteins required for simian virus 40 DNA replication (Y. Ishimi and K. Matsumoto, Proc. Natl. Acad. Sci. USA 90:5399-5403, 1993). In this study, the DNAs containing initiation zones from mammalian cells were replicated in this model system. When negatively supercoiled DNA containing an initiation zone (2 kb) upstream of the human c-myc gene was incubated with simian virus 40 T antigen as a DNA helicase, HSSB (also called replication protein A), and DNA polymerase alpha-primase complex isolated from HeLa cells, DNA replication was specifically initiated from the center of the initiation zone, which was elongated bidirectionally in the presence of a DNA swivelase. Without HSSB, the level of DNA synthesis was significantly reduced and the localized initiation could not be detected, indicating that HSSB plays an essential role in the initiation of DNA replication. The digestion of negatively supercoiled template DNA with a single-strand-specific nuclease revealed that HSSB stimulated DNA unwinding in the center of the initiation zone where the DNA duplex is relatively unstable. In contrast, DNA replication started from a broad region of an initiation zone downstream of the dihydrofolate reductase gene from chinese hamster ovary cells, but the center of the region was mapped near the origin of bidirectional DNA replication. These results suggested that this system mimics a fundamental process of initiation of eukaryotic DNA replication. The mechanism of initiation is discussed.
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PMID:DNA replication from initiation zones of mammalian cells in a model system. 793 72

We investigated four mechanisms of intrinsic chemoresistance in a series of 67 human brain tumours including 31 gliomas (one grade I ganglioglioma, nine grade II and 10 grade III astrocytomas, 11 glioblastomas), 13 cerebral metastases, one medulloblastoma, one malignant teratoma, three ependymomas and 18 meningiomas. We studied four genes by northern blotting: multidrug-resistance (MDR 1), glutathione-s transferase (GST pi), dihydrofolate reductase (DHFR), and topoisomerase II (Topo II). The Topo II gene was absent in the normal adult brain (100%) and in 64% of the tumour samples tested. A second gene, GST pi, was found to be overexpressed in 38% of brain tumours. The two other chemoresistance-related genes were occasionally overexpressed in brain tumours (2% for MDR1, 9% for DHFR). Our results provide evidence that chemoresistance is intrinsic to the brain tissue and seems likely to be a multifactorial process.
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PMID:A study of the expression of four chemoresistance-related genes in human primary and metastatic brain tumours. 838 72

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