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)

The carboxyl-terminal one-third of human topoisomerase II polypeptide expressed in Escherichia coli was used as antigen to generate polyclonal antibodies in rabbits. With the use of antiserum, DNA topoisomerase II levels of phytohemagglutinin-stimulated human lymphocytes were measured by immunoblotting. Our results showed that the increase in intracellular topoisomerase II level paralleled the entry of cells into proliferation. We also found that the increase in the topoisomerase II level resulted from an increase in the amount of topoisomerase II mRNA. The time course study indicated that the appearance of topoisomerase II mRNA was first observed at 36 h after phytohemagglutinin stimulation. The maximal level of topoisomerase II mRNA was seen at 45 h after stimulation. The same RNA blot was rehybridized with a thymidine kinase probe. The maximal level of thymidine kinase mRNA was observed at 39 h after phytohemagglutinin stimulation. In a comparison of the time course of topoisomerase II gene expression with that of [3H]thymidine incorporation and thymidine kinase gene expression, it was found that the expression of the topoisomerase II gene was later than the onset of DNA replication. Thus, this study suggests that topoisomerase I, which is constantly expressed throughout the cell cycle, might participate in the initiation of DNA replication, while topoisomerase II is involved in solving the DNA topological problems accompanying DNA strand separation during DNA replication.
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PMID:Induction of topoisomerase II gene expression in human lymphocytes upon phytohemagglutinin stimulation. 216 62

Either an ionizing radiation exposure or a heat shock is capable of inducing both thermal tolerance and radiation resistance in yeast. Yeast mutants, deficient in topoisomerase I, in topoisomerase II, or in DNA polymerase I, were used to investigate the mechanism of these inducible resistances. The absence of either or both topoisomerase activities did not prevent induction of either heat or radiation resistance. However, if both topoisomerase I and II activities were absent, the sensitivity of yeast to become thermally tolerant (in response to a heat stress) was markedly increased. The absence of only topoisomerase I activity (top1) resulted in the constitutive expression of increased radiation resistance equivalent to that induced by a heat shock in wild-type cells, and the topoisomerase I-deficient cells were not further inducible by heat. This heat-inducible component of radiation resistance (or its equivalent constitutive expression in top1 cells) was, in turn, only a portion of the full response inducible by radiation. The absence of polymerase I activity had no detectable effect on either response. Our results indicate that the actual systems that confer resistance to heat or radiation are independent of either topoisomerase activity or DNA polymerase function, but suggest that topoisomerases may have a regulatory role during the signaling of these mechanisms. The results of our experiments imply that maintenance of correct DNA topology prevents induction of the heat-shock response, and that heat-shock induction of a component of the full radiation resistance in yeast may be the consequence of topoisomerase I inactivation.
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PMID:The involvement of topoisomerases and DNA polymerase I in the mechanism of induced thermal and radiation resistance in yeast. 216 97

The in vitro interaction of modulators of topoisomerase I and II with cisplatin in human ovarian carcinoma cells might be synergistic. The interactions were evaluated by median effect analysis of survival data derived from continuous exposure to drug combinations for 10 days in colony-forming assays. The interaction between cisplatin and the topoisomerase I inhibitor camptothecin and the topoisomerase I activator beta-lapachone was additive, as was that between cisplatin and the topoisomerase II inhibitor novobiocin. Despite the clinical efficacy of the combination of etoposide (a topoisomerase II inhibitor) and cisplatin, the combination index at 50% cell kill indicated antagonism between these two drugs. Thus, biochemical synergism at the cellular level is not a prerequisite of improved therapeutic efficacy.
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PMID:Effect of topoisomerase modulators on cisplatin cytotoxicity in human ovarian carcinoma cells. 216 94

A human bladder carcinoma cell line was irradiated at high and low dose rates and exposed to camptothecin and VP16, inhibitors of topoisomerase I and topoisomerase II respectively. Although camptothecin substantially modified the cytotoxic effects of high dose rate irradiation, abolished low dose rate sparing and inhibited the repair of sublethal and potentially lethal damage, VP16 had no effect on the survival curves even at highly cytotoxic doses. Thus, it is argued that there is a role for topoisomerase I but not topoisomerase II in the repair of DNA damage induced by ionising radiation.
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PMID:The inhibition of cellular recovery in human tumour cells by inhibitors of topoisomerase. 216 51

Topoisomerase II has been suggested to have a role in the early events of differentiation. This possibility was evaluated by measuring the effects of inhibitors of topoisomerase II on the induction of the differentiation of WEHI-3B D+ monomyelocytic leukemia cells. Differentiation of this cell line was induced along the granulocytic pathway by treatment with the topoisomerase II inhibitors novobiocin (150-300 microM), teniposide (20-50 nM), etoposide (0.1 microM), elsamicin (0.5 microM), and doxorubicin (40 nM). Maturation was assessed by the morphological appearance of mature forms of the granulocytic lineage, an increase in cell surface Fc receptors, the ability to reduce nitroblue tetrazolium, and the loss of proliferative capacity. In contrast, the non-topoisomerase II-reactive agent cisplatin and the topoisomerase I-reactive drug camptothecin did not cause the maturation of WEHI-3B D+ cells. Aclacinomycin A and retinoic acid, which are known efficacious inducers of the differentiation of this cell line, affected topoisomerase II extracted from WEHI-3B D+ cells in vitro, causing concentration-dependent inhibition of the strand-passing activity of the enzyme. Treatment of WEHI-3B D+ cells with novobiocin at 150 microM for 3 h or with teniposide at 50 nM for 24 h resulted in a 2- to 3-fold increase in etoposide-induced protein-DNA cross-links. Nuclear proteins in 0.35 M NaCl extracts from cells treated with novobiocin at 150 microM for 3 h or with teniposide at 50 nM for 24 h showed a slight increase in topoisomerase II activity compared to untreated cells. No changes in topoisomerase II levels, as measured by immunoblotting, were detected after treatment of WEHI-3B D+ cells with 150 microM novobiocin or 50 nM teniposide during the first 2 days of treatment. At day 3 of treatment, however, a decrease in topoisomerase II was observed in cells treated with either drug, possibly due to decreased cellular proliferation consequent to cell differentiation. The findings support the conclusion that topoisomerase II may have a role in the induction of granulocytic differentiation of WEHI-3B D+ leukemia cells.
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PMID:Induction of the differentiation of WEHI-3B D+ monomyelocytic leukemia cells by inhibitors of topoisomerase II. 217 8

The nucleotide sequence of the parC gene essential for chromosome partition in E. coli was determined. The deduced amino acid sequence was homologous to that of the A subunit of gyrase. We found another new gene coding for about 70 kd protein. The gene was sequenced, and the deduced amino acid sequence revealed that the gene product was homologous to the gyrase B subunit. Mutants of this gene were isolated and showed the typical Par phenotype at nonpermissive temperature; thus the gene was named parE. Enhanced relaxation activity of supercoiled plasmid molecules was detected in the combined crude cell lysates prepared from the ParC and ParE overproducers. A topA mutation defective in topoisomerase I could be compensated by increasing both the parC and the parE gene dosage. It is suggested that the parC and parE genes code for the subunits of a new topoisomerase, named topo IV.
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PMID:New topoisomerase essential for chromosome segregation in E. coli. 217 28

TNF is a pleiotropic cytokine that mediates diverse cellular responses, including cytotoxicity, cytostasis, proliferation, differentiation, and the expression of specific genes. Many of these processes require the activity of DNA topoisomerases I and II. We have investigated the interactions of TNF with inhibitors of both topoisomerases in 16-h assays using the murine L929 and human ME-180 cell lines, which undergo a cytotoxic TNF response. Camptothecin, a specific inhibitor of topoisomerase I, enhanced TNF cytotoxicity 150-fold against both cell lines. The topoisomerase II inhibitors VM-26 and VP-16, which stabilize covalent DNA-topoisomerase intermediates, greatly enhance TNF cytotoxicity against both cell lines. The most effective, VM-26, can lower the TNF LD50 to femtomolar levels. In contrast, the topoisomerase II inhibitors novobiocin and coumermycin, which bind to the enzyme ATPase site, protect L929 cells from TNF cytotoxicity but enhance TNF cytotoxicity in ME-180 cells. The large changes in TNF sensitivity induced by drug concentrations that by themselves show no effect, and the opposing synergistic effects of inhibitors with different inhibitory mechanisms (in L929 cells), suggest the active involvement of topoisomerases in TNF-mediated cytotoxicity. The correlation of cytotoxic synergy with the stabilization of DNA strand breaks indicates that DNA damage may play a significant role in TNF-mediated cytotoxicity.
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PMID:Synergistic interactions between tumor necrosis factor and inhibitors of DNA topoisomerase I and II. 217 May 26

We have examined the effects of topoisomerase inhibitors on the phosphorylation of histones in chromatin during the G2 and the M phases of the cell cycle. Throughout the G2 phase of BHK cells, addition of the topoisomerase II inhibitor VM-26 prevented histone H1 phosphorylation, accompanied by the inhibition of intracellular histone H1 kinase activity. However, VM-26 had no inhibitory effect on the activity of the kinase in vitro, suggesting an indirect influence on histone H1 kinase activity. Entry into mitosis was also prevented, as monitored by the absence of nuclear lamina depolymerization, chromosome condensation, and histone H3 phosphorylation. In contrast, the topoisomerase I inhibitor, camptothecin, inhibited histone H1 phosphorylation and entry into mitosis only when applied at early G2. In cells that were arrested in mitosis, VM-26 induced dephosphorylation of histones H1 and H3, DNA breaks, and partial chromosome decondensation. These changes in chromatin parameters probably reverse the process of chromosome condensation, unfolding condensed regions to permit the repair of strand breaks in the DNA that were induced by VM-26. The involvement of growth-associated histone H1 kinase in these processes raises the possibility that the cell detects breaks in the DNA through their effects on the state of DNA supercoiling in constrained domains or loops. It would appear that histone H1 kinase and topoisomerase II work coordinately in both chromosome condensation and decondensation, and that this process participates in the VM-26-induced G2 arrest of the cell.
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PMID:The topoisomerase II inhibitor VM-26 induces marked changes in histone H1 kinase activity, histones H1 and H3 phosphorylation, and chromosome condensation in G2 phase and mitotic BHK cells. 217 57

A camptothecin-resistant subline of P388 leukemia (P388/CPT) was developed by repeated transplantation of P388 cells in mice treated with therapeutic doses of camptothecin. In mice bearing the resistant tumor, a maximally tolerated dose of camptothecin produced no net reduction in tumor cell burden, in contrast to a 5-log cell kill in the parental P388 (P388/S). The IC50 of camptothecin, as determined by colony formation assays of cultured cells, was 8 times greater for the cloned P388/CPT cell line than for P388/S. P388/CPT cells were not cross-resistant to other antineoplastic agents, including topoisomerase II inhibitors. The type I topoisomerases purified from P388/CPT and P388/S cells were identical with respect to molecular weight, specific activity, in vitro camptothecin sensitivity, and DNA cleavage specificity. Camptothecin induced fewer protein-associated DNA single-strand breaks in the resistant cells than in the wild-type P388 cells. Topoisomerase I mRNA, immunoreactivity, and extractable enzymatic activity were 2-4 times lower for P388/CPT cells than for P388/S cells. As resistance to camptothecin developed, topoisomerase I extractable activity decreased, concomitant with an increase in topoisomerase II extractable activity. Furthermore, the appearance of camptothecin resistance was associated with specific rearrangements of the topoisomerase I gene. These results suggest that development of resistance to inhibitors of topoisomerase I can occur by down-regulation of the target enzyme, thus reducing the production of lethal enzyme-mediated DNA damage. The enhanced topoisomerase II activity in these cells suggests that resistance to camptothecin may be overcome by co-treatment with topoisomerase II inhibitors.
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PMID:Development of a stable camptothecin-resistant subline of P388 leukemia with reduced topoisomerase I content. 217 65

The present study was designed to determine and compare the clastogenicity of m-AMSA and camptothecin (CAMP) in vivo in mouse bone marrow and peripheral blood lymphocytes (PBLs), and in vitro in mouse lymphoma L5178Y cells. m-AMSA interferes with topoisomerase II to induce double-strand DNA breaks. CAMP interferes with topoisomerase I to induce single-strand DNA breaks. Thus, we expected the two drugs to induce different types of chromosomal aberrations (CAs). However, both drugs produced quantitatively and qualitatively similar numbers and types of aberrations under similar experimental conditions. In mouse bone marrow exposed over and 18-h period, both drugs (3 mg/kg) induced approximately 30 damaged cells, with an average of 0.4 chromatid breaks per cell (in 100 cells analyzed/mouse). In addition, both drugs induced only chromatid-type aberrations in mouse bone marrow in vivo when exposure occurred during G2. Cell cycle specificity was indicated by the absence of CAs when exposure to the drugs occurred in vivo in mouse PBLs during G0. In L5178Y cells, m-AMSA was considerably more potent for the induction of mutations and somewhat more potent for the induction of CAs than CAMP was. In contrast to the in vivo bone marrow results, the drugs induced high levels of both chromatid- and chromosome-type aberrations in vitro. The ultimate types of chromosomal damage induced by m-AMSA and CAMP result from a complex interaction of (i) cell cycle specific variations in topoisomerase enzyme levels, (ii) the abilities of these drugs to interfere with the orderly DNA breakage/reunion associated with topoisomerase activity, and (iii) the processing of the damage resulting from these interactions.
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PMID:Genotoxicity of inhibitors of DNA topoisomerases I (camptothecin) and II (m-AMSA) in vivo and in vitro. 217 33

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