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)

The Chinese hamster V79 lung cell in vitro micronucleus assay was adapted to detect and quantify phototoxicity and photogenotoxicity of fluoroquinolones. Using this assay, the quinolones were ranked in terms of decreasing phototoxicity: clinafloxacin >> lomefloxacin, sparfloxacin >> trovafloxacin, nalidixic acid, ofloxacin, ciprofloxacin > enoxacin, norfloxacin. This rank order agrees well with published studies utilizing various other phototoxicity models and establishes this approach as a fast and sensitive way to characterize the phototoxic potential of quinolones. Nearly complete inhibition of phototoxicity was observed if the cells were pretreated for as little as 1 min with 10-20 mM sodium azide prior to the addition of quinolone. An identical azide effect was seen in unirradiated quinolone- and etoposide-treated cells. These findings are consistent with a model in which sodium azide renders DNA topoisomerase II catalytically inactive. In this state, topoisomerase II cannot initiate DNA strand cleavage and the DNA/topoisomerase complex becomes insensitive to quinolones and other topoisomerase II inhibitors. The fact that azide reduces both UV-dependent and UV-independent toxicity and clastogenicity strongly suggests a common mechanism of toxicity dependent on the formation of topoisomerase-induced DNA double-strand breaks.
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PMID:Photogenotoxicity of fluoroquinolones in Chinese hamster V79 cells: dependency on active topoisomerase II. 1008 19

Increased levels of DNA-protein cross-links (DNAPC) have been observed in vitro and in vivo following treatment with a number of chemotherapeutic alkylating agents and topoisomerase II inhibitors, that is, agents that have also been associated with the development of bone marrow depression and acute myelogenous leukemia. The current studies were undertaken to examine the effect of benzene, a bone marrow toxin and human leukemogen, on DNAPC levels in mouse bone marrow cells. Using a K+/sodium dodecyl sulfate (SDS) precipitation assay for DNAPC determination, the results indicate increased DNA-protein cross-link levels in mouse bone marrow cells at 2 and 4 but not 8 h after a single ip injection of 440 mg/kg benzene. Following the administration of multiple hematotoxic benzene doses (440 or 880 mg/kg, 2x/d for 2 d), increases in DNA-protein cross-link levels were either slight or not present. These results suggest that DNAPC induced by benzene are neither cumulative nor persistent lesions. The toxicity of benzene is mediated by a number of number of ring-hydroxylated and ring-opened compounds; therefore the present studies also examined DNAPC levels in mice administered trans,trans-muconaldehyde (MUC), a ring-opened hematotoxic and genotoxic metabolite of benzene. No marked increases in DNAPC levels were observed in CD- mouse bone marrow cells 1-12 h following a single ip injection of 3 mg/kg muconaldehyde. It is possible that multiple doses of MUC are required to induce elevated DNAPC levels in bone marrow cells of mice, since multiple doses are required for MUC-induced hematotoxicity. Other reactive metabolites and/or an interaction of reactive intermediates may also be involved in DNAPC induced by benzene.
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PMID:DNA-protein cross-link levels in bone marrow cells of mice treated with benzene or trans,trans-muconaldehyde. 1009 61

The purpose of these studies was to determine whether interferon-alpha (IFN-alpha) could enhance the sensitivity of human osteosarcoma cells to the cytotoxic actions of etoposide (VP-16). Cytostasis was determined using a [3H]thymidine incorporation assay, whereas cytotoxicity was quantified by a colony-formation assay. Low concentrations (0.1-5 U/ml) of IFN-alpha enhanced the cytostatic activity of VP-16 against MG-63, SAOS-2, and TE-85 osteosarcoma cells. The cytostatic activity of 1 microM VP-16 rose from 11% to 64%, 9% to 31%, and 10% to 71%, respectively, in the three cell lines when IFN-alpha was present. Survival fraction was also decreased when the osteosarcoma cells were treated with VP-16 + IFN-alpha as compared to either agent alone. The interaction between these two agents was determined to be synergistic rather than additive by interaction index analysis. Similar effects on cytostasis and cytotoxicity were observed when IFN-alpha was combined with Adriamycin but not cisplatin, actinomycin D, vinblastine, or amsacrine. VP-16 uptake was enhanced 12-fold in the presence of IFN-alpha, but this did not appear to translate into an increase in topoisomerase-II (topo-II)-DNA complex formation as quantified by the sodium dodecyl sulfate-KCl precipitation assay. We also could not detect alterations in topo-II expression, topo-II protein production, or cell cycle kinetics that have been shown to correlate with increased VP-16 cell sensitivity. Therefore, at this time the mechanism of enhanced cell sensitivity to the combination treatment remains unclear.
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PMID:Interferon-alpha enhances the sensitivity of human osteosarcoma cells to etoposide. 1043 62

By using tissue miniunits, protein kinase modulators, and topoisomerase inhibitors in short-term incubation (0-90 min) we studied (1) the role of protein phosphorylation in the immediate control of DNA replication in the developing rat cerebral cortex and (2) the mechanism of action for genistein-mediated DNA synthesis inhibition. Genistein decreased the DNA synthesis within less than 30 min. None of the other protein kinase inhibitors examined (herbimycin A, staurosporine, calphostin-C) or the protein phosphatase inhibitor sodium orthovanadate inhibited DNA synthesis and they did not affect the genistein-mediated inhibition. The selective topoisomerase inhibitors camptothecin and etoposide decreased the DNA synthesis to an extent similar to that of genistein and within less than 30 min. In addition, the effects of these substances on topoisomerase I and II were studied. Etoposide and genistein but not herbimycin A, staurosporine, or calphostin-C strongly inhibited the activity of topoisomerase II. Our results (1) strongly suggest that the net rate of DNA replication during the S phase of the cell cycle is independent of protein phosphorylation and (2) indicate that the early inhibitory effect of genistein on DNA synthesis is mediated by topoisomerase II inhibition rather than protein tyrosine kinase inhibition.
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PMID:Early effects of protein kinase modulators on DNA synthesis in rat cerebral cortex. 1048 85

Determination of the clastogenic potential of new chemical entities, particularly pharmaceuticals, is an important part of the overall safety assessment of such drugs. It is appreciated that clastogenicity can arise from perturbation of many different cellular processes distinct from direct DNA/drug interactions. One such alternative clastogenic process is inhibition of DNA topoisomerase II, during which process the topoisomerase/DNA/drug ternary complex forms stable DNA double-strand breaks (cleavable complex), which become templates for recombinational, mutagenic, and chromosomal fragmentation events. Without extensive experimentation, it is generally not possible to distinguish clastogenicity arising from direct drug/DNA interaction from that arising from inhibition of topoisomerase II. In the present investigation, we demonstrate that specific catalytic inhibitors of DNA topoisomerase II reduce the clastogenicity of topoisomerase poisons but not that arising via non-topoisomerase-dependent mechanisms. In particular, it is shown that catalytic topoisomerase II inhibitors such as chloroquine, sodium azide, and A-74932, as well as certain intercalating agents such as 9-aminoacridine and ethidium bromide, strongly antagonize the formation of micronuclei induced by the DNA gyrase inhibitor clinafloxacin and the antitumor topoisomerase II poison etoposide. These catalytic inhibitors are also shown to antagonize the clastogenicity of experimental compounds and novel pharmaceuticals presumed to be DNA intercalating agents by virtue of their response in a cell-based bleomycin amplification assay. We extend our previous hypothesis, suggesting that the clastogenicity of some nonstructurally alerting drugs may be due to an as yet unappreciated propensity for DNA intercalation. It is further proposed that intercalation-dependent inhibition of DNA topoisomerase II may be responsible for this clastogenicity and that this may be detected in intact mammalian cells with the use of catalytic topoisomerase inhibitors.
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PMID:Use of catalytic topoisomerase II inhibitors to probe mechanisms of chemical-induced clastogenicity in Chinese hamster V79 cells. 1069 23

Mutations in loci other than genes for the target topoisomerases of fluoroquinolones, gyrA and parC, may play a role in the development of fluoroquinolone resistance in Escherichia coli. A series of mutants with increasing resistance to ofloxacin was obtained from an E. coli K-12 strain and five clinical isolates. First-step mutants acquired a gyrA mutation. Second-step mutants reproducibly acquired a phenotype of multiple antibiotic resistance (Mar) and organic solvent tolerance and showed enhanced fluoroquinolone efflux. None of the second-step mutants showed additional topoisomerase mutations. All second-step mutants showed constitutive expression of marA and/or overexpressed soxS. In some third-step mutants, fluoroquinolone efflux was further enhanced compared to that for second-step mutants, even when the mutant had acquired additional topoisomerase mutations. Attempts to circumvent the second-step Mar mutation by induction of the mar locus with sodium salicylate and thus to select for pure topoisomerase mutants at the second step were not successful. At least in vitro, non-target gene mutations accumulate in second- and third-step mutants upon exposure to a fluoroquinolone and typically include, but do not appear to be limited to, mutations in the mar or sox regulons with consequent increased drug efflux.
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PMID:Non-target gene mutations in the development of fluoroquinolone resistance in Escherichia coli. 1072 75

An Ehrlich ascites tumour cell line (EHR2) was selected for resistance to etoposide (VP16) by in vivo exposure to this agent. The resulting cell line (EHR2/VP16) was 114.3-, 5.7-, and 4.0-fold resistant to VP16, daunorubicin, and vincristine, respectively. The amount of salt-extractable immunoreactive topoisomerase IIalpha and beta in EHR2/VP16 was reduced by 30-40% relative to that in EHR2. The multidrug resistance-associated protein (MRP) mRNA was increased 20-fold in EHR2/VP16 as compared with EHR2, whereas the expression of P-glycoprotein was unchanged. In EHR2/VP16, the steady-state accumulation of [(3)H]VP16 and daunorubicin was reduced by 64% and 17%, respectively, as compared with EHR2. Deprivation of energy by addition of sodium azide increased the accumulation of both drugs to the level of sensitive cells. When glycolysis was restored by the addition of glucose to EHR2/VP16 cells loaded with drug in the presence of sodium azide, extrusion of [(3)H]VP16 and daunorubicin was induced. Addition of verapamil (25 microM) decreased the efflux of daunorubicin to the level of sensitive cells, but had only a moderate effect on the efflux of [(3)H]VP16. The resistant cells showed moderate sensitisation to VP16 on treatment with verapamil, whereas cyclosporin A had no effect. Compared with that of sensitive cells, the ATPase activity of plasma membrane vesicles prepared from EHR2/VP16 cells was very low. Vanadate inhibited the ATPase activity of EHR2/VP16 microsomes with a K(i) value of 30 microM. ATPase activity was slightly stimulated by daunorubicin, whereas vinblastine, verapamil, and cyclosporin A had no effect. In conclusion, development of resistance to VP16 in EHR2 is accompanied by a significant reduction in topoisomerase II (alpha and beta) and by increased expression of MRP mRNA (20-fold). MRP displays several points of resemblance to P-glycoprotein in its mode of action: 1) like P-glycoprotein, MRP causes resistance to a range of hydrophobic drugs; 2) MRP decreases drug accumulation in the cells and this decrease is abolished by omission of energy; and 3) MRP increases efflux of drug from cells. However, compared with that of P-glycoprotein-positive cells, the ATPase activity of MRP-positive cells is found to be low and not able to be stimulated by verapamil.
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PMID:Characterisation of multidrug-resistant Ehrlich ascites tumour cells selected in vivo for resistance to etoposide. 1085 30

Topoisomerase IIalpha is a target for many chemotherapeutic agents in clinical use. To define mechanisms of resistance and regions crucial for the function of topoisomerase IIalpha, drug-resistant cell lines have been isolated following exposure to topoisomerase II poisons. Two resistant sublines, T47D-VP and MCF-7-VP, were isolated from human carcinoma cell lines following exposure to 300 or 500 ng / ml etoposide (VP-16). Cytotoxicity studies confirmed resistance to etoposide and other topoisomerase II poisons. KCl-sodium dodecyl sulfate (K-SDS) precipitation assays using intact cells showed reduced DNA-topoisomerase II complex formation following VP-16 or amsacrine (m-AMSA). RNAse protection analysis identified a deletion of 200 base pairs in the topoisomerase IIalpha cDNA of T47D-VP and rising dbl quote, left (low)AA insertion" in the topoisomerase IIalpha cDNA of MCF-7-VP. Reduced topoisomerase IIalpha mRNA and protein levels were observed in both cell lines. It was somewhat surprising to find that nuclear extracts from T47D-VP and MCF-7-VP cells had comparable topoisomerase II activity to that of parental cells. Analysis of the extent of phosphorylation demonstrated that topoisomerase IIalpha from the resistant cells was relatively hypophosphorylated compared to that of parental cells. In these cell lines, hypophosphorylation secondary to loss of a portion of the C-terminal domain of topoisomerase IIalpha mediated the restored activity, despite a fall in topoisomerase IIalpha mRNA and protein, and this resulted in cross resistance to topoisomerase II poisons.
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PMID:Hypophosphorylation of topoisomerase IIalpha in etoposide (VP-16)-resistant human carcinoma cell lines associated with carboxy-terminal truncation. 1147 32

Mammalian interphase and mitotic cells were analyzed for their cation composition using a three-dimensional high resolution scanning ion microprobe. This instrument maps the distribution of bound and unbound cations by secondary ion mass spectrometry (SIMS). SIMS analysis of cryofractured interphase and mitotic cells revealed a cell cycle dynamics of Ca2+, Mg2+, Na+, and K+. Direct analytical images showed that all four, but no other cations, were detected on mitotic chromosomes. SIMS measurements of the total cation content for diploid chromosomes imply that one Ca2+ binds to every 12.5-20 nucleotides and one Mg2+ to every 20-30 nucleotides. Only Ca2+ was enriched at the chromosomal DNA axis and colocalized with topoisomerase IIalpha (Topo II) and scaffold protein II (ScII). Cells depleted of Ca2+ and Mg2+ showed partially decondensed chromosomes and a loss of Topo II and ScII, but not hCAP-C and histones. The Ca2+-induced inhibition of Topo II catalytic activity and direct binding of Ca2+ to Topo II by a fluorescent filter-binding assay supports a regulatory role of Ca2+ during mitosis in promoting solely the structural function of Topo II. Our study directly implicates Ca2+, Mg2+, Na+, and K+ in higher order chromosome structure through electrostatic neutralization and a functional interaction with nonhistone proteins.
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PMID:Cation-chromatin binding as shown by ion microscopy is essential for the structural integrity of chromosomes. 1173 3

The therapeutic efficacy of irinotecan (CPT-11), a DNA topoisomerase inhibitor, is often limited by the induction of severe late-onset diarrhea. This prodrug and its active metabolite, 7-ethyl-10-hydroxy-camptothecin (SN-38), have a labile alpha-hydroxy-lactone ring that undergoes pH-dependent reversible hydrolysis. At physiological pH and higher, equilibrium favors the less toxic carboxylate form, whereas at acidic pH, the more potent lactone form is favored. We have reported previously that the initial uptake rate of CPT-11 and SN-38 by intestinal cells was significantly different between the respective lactone and carboxylate form. Results from the present study in HT-29 cells further demonstrate the correlation between the CPT-11/SN-38 initial uptake rate and the induced toxicity, cell cycle alteration, apoptosis, and colony-forming efficiency. The exposure of HT-29 cells to SN-38 for a limited period of time (<2 h) was sufficient to induce these events. Because the decreased initial uptake of SN-38 carboxylate resulted in a reduced cellular toxicity, we postulated that the CPT-11-induced diarrhea was preventable by influencing the equilibrium toward the carboxylate form and, thus, reducing its intestinal uptake. In the golden Syrian hamster model, p.o. sodium bicarbonate supplementation (5 mg/ml in drinking water) led to alkalization of the intestinal contents. In addition, this alkalization resulted in the reduction of the histopathological damage to the mucosa of the small and large intestine, as well as a 20% reduction of the intestinal SN-38 lactone concentration of animals receiving CPT-11 (20-50 mg/kg x 7 days). Taken together, these results from in vitro and in vivo studies support intestinal alkalization by sodium bicarbonate supplementation as a preventive mechanism against CPT-11-induced diarrhea. In addition, this provides a strong rationale for the usage of this measure as an adjunct to CPT-11 treatment.
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PMID:Intestinal alkalization as a possible preventive mechanism in irinotecan (CPT-11)-induced diarrhea. 1178 76


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