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)

The in vitro activity of the novel 8-methoxyquinolone, moxifloxacin, against Streptococcus pneumoniae was evaluated, and the intracellular targets of this agent were studied. Analysis of mutant strains selected with moxifloxacin demonstrated that first-step mutants bore amino acid substitutions at position 81 in the GyrA subunit of DNA gyrase. This suggests that, unlike older fluoroquinolone agents such as ciprofloxacin and levofloxacin, but similar to other C-8 substituted quinolones like sparfloxacin and gatifloxacin, moxifloxacin targets the GyrA subunit of DNA gyrase as an initial lethal event. Such a mechanism results in high activity against increasingly common S. pneumoniae strains bearing substitutions in DNA topoisomerase IV. Moxifloxacin was active with an MIC of </= 0.25 mg/L against S. pneumoniae clinical isolates, and against mutants, selected in the laboratory with ciprofloxacin or levofloxacin, that bore a Ser-79-->Phe/Tyr substitution in ParC. The moxifloxacin MIC for strains with mutations in the structural genes for both DNA gyrase subunit GyrA and DNA topoisomerase IV subunit ParC did not exceed 2 mg/L, a level within clinically achievable serum concentrations for this agent. We also found that moxifloxacin is a poor substrate for active efflux in S. pneumoniae. Therefore, the high activity of moxifloxacin against S. pneumoniae appears to be a result of both enhanced activity against DNA gyrase and topoisomerase IV, and reduced efflux from the bacterial cell.
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PMID:Intracellular targets of moxifloxacin: a comparison with other fluoroquinolones. 1079 78

We analyzed the frequencies of selection, the order of acquisition, and the mutations selected on moxifloxacin in two wild-type pneumococcal strains, R6 and 5714. The first selection step showed either a single GyrA mutation or no mutation in any of the quinolone resistance-determining regions. Second-step mutants selected had either a second mutation in ParC or in ParE. Moxifloxacin could belong to these fluoroquinolones, which preferentially target GyrA though probably acting equally through both gyrase and topoisomerase IV.
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PMID:Topoisomerase mutations associated with in vitro selection of resistance to moxifloxacin in Streptococcus pneumoniae. 1212 64

Some fluoroquinolone antibiotics (FQs) become toxic and mutagenic upon exposure to ultraviolet radiation (UV). Topoisomerase inhibition has been proposed as one possible mechanism involved in this photochemical genotoxicity. To study this reaction, inhibition of the human topoisomerase IIalpha enzyme by four FQs varying in photochemical genotoxic potency (Bay y3118 [y3118] > Lomefloxacin [Lmx] > Ciprofloxacin [Cpx] > Moxifloxacin [Mox]) was measured in vitro in the presence of UVA irradiation. None of the FQs inhibited topoisomerase IIalpha in the absence of irradiation. In contrast, with irradiation at 365 nm, the potent photochemically genotoxic y3118 produced strong inhibition of the enzyme by 15% and Cpx caused a weak 5% inhibition, but the more photochemically genotoxic Lmx only showed a transient inhibitory effect at one concentration and one irradiation dose. The photostable Mox had no effect with irradiation. Topoisomerase IIalpha inhibition by y3118 only occurred when the FQ, DNA, and enzyme were simultaneously present in the UVA-irradiated reaction mixture and was abolished in the absence of ATP, indicating the possible formation of a ternary structure. The y3118 photochemical topoisomerase inhibition correlated with the increased irradiation-mediated binding of radiolabeled FQ to DNA:topoisomerase complexes and was irreversible, like that of the topoisomerase poison, etoposide, without irradiation. The inhibitory effect of photoactivated y3118 on topoisomerase IIalpha was also observed in the presence of the antioxidant TEMPO, indicating that reactive oxygen species were not involved in the inhibition. These observations demonstrate that some but not all photochemically genotoxic FQs inhibit human topoisomerase IIalpha, possibly by UV-induced affinity of FQs to DNA:topoisomerase complexes.
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PMID:Inhibition of human topoisomerase IIalpha by fluoroquinolones and ultraviolet A irradiation. 1221 56

Moxifloxacin has enhanced potency against Staphylococcus aureus, lower propensity to select for resistant mutants, and higher bactericidal activity against highly resistant strains than ciprofloxacin. Despite similar activity against purified S. aureus topoisomerase IV and DNA gyrase, it selects for topoisomerase IV mutants, making topoisomerase IV the preferred target in vivo.
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PMID:Activity of and resistance to moxifloxacin in Staphylococcus aureus. 1265 80

Serial passage of a clinical isolate of Streptococcus pneumoniae, in the presence of moxifloxacin, gatifloxacin or gemifloxacin, gave rise to resistant isolates. Non-susceptibility as defined by Clinical and Laboratory Standards Institute (CLSI, formerly NCCLS) breakpoints arose on Days 10, 11, and 12 with gatifloxacin, gemifloxacin, and moxifloxacin respectively. Moxifloxacin and gatifloxacin selected for a single step quinolone-resistant-determining-region (QRDR) mutation in DNA gyrase (GyrA) on Day 4 and 7 respectively, whereas gemifloxacin selected simultaneously for multi-step mutations in gyrase and topoisomerase IV (ParC) on Day 17 and activated a non-reserpine inhibited efflux mechanism by Day 4. As found in clinical isolates, mutations included Ser-81-Phe and Glu-85-Lys in GyrA and Ser-79-Phe or Asp-83-Tyr in ParC. At high MICs, moxifloxacin showed a previously unreported 4 amino-acid deletion in GyrB as well as a more unusual substitution Ser-79-Leu/Ile in ParC. Gemifloxacin showed a 2- to 16-fold greater activity than moxifloxacin or gatifloxacin against strains with two or more QRDR mutations, however, its potency did not translate to nonsusceptibility and gemifloxacin MIC values were either at or well above the CLSI nonsusceptible breakpoint concentration.
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PMID:Relative potential for selection of quinolone-resistance-determining-region mutations in Streptococcus pneumoniae by gemifloxacin, gatifloxacin and moxifloxacin. 1702 92

Etoposide (VP-16) is a topoisomerase II (topo II) inhibitor chemotherapeutic agent. Studies indicate that VP-16 enhances proinflammatory cytokines secretion from tumour cells, including IL-8, a chemokine associated with proangiogenic effects. Fluoroquinolones inhibit topo II activity in eukaryotic cells by a mechanism different from that of VP-16. The fluoroquinolone moxifloxacin (MXF) has pronounced anti-inflammatory effects in vitro and in vivo. We studied the effects of MXF and VP-16 on purified human topo II activity and further analysed their combined activity on proliferation, apoptosis and caspase-3 activity in THP-1 and Jurkat cells. Moxifloxacin alone slightly inhibited the activity of human topo II; however, in combination with VP-16 it led to a 73% reduction in enzyme activity. VP-16 inhibited cell proliferation in a time and dose-dependent manner. The addition of moxifloxacin for 72 h to low-dose VP-16 doubled its cytotoxic effect in THP-1 and Jurkat cells (1.8- and 2.6-fold decrease in cell proliferation, respectively) (P<0.004). Moxifloxacin given alone did not induce apoptosis but enhanced VP-16-induced apoptosis in THP-1 and Jurkat cells (1.8- and two-fold increase in annexin V positive cells and caspase-3 activity, respectively) (P<0.04). VP-16 induced the release of IL-8 in a time and dose-dependent manner from THP-1 cells. Moxifloxacin completely blocked the enhanced release of IL-8 induced by 0.5 and 1 microg ml(-1) VP-16, and decreased IL-8 release from cells incubated for 72 h with 3 microg ml(-1) VP-16 (P<0.001). VP-16 enhanced the release of IL-1beta and TNF-alpha from THP-1 cells, whereas the addition of MXF prevented the enhanced cytokine secretion (P<0.001). We conclude that MXF significantly enhances VP-16 cytotoxicity in tumour-derived cells while preventing VP-16-induced proinflammatory cytokine release. This unique combination may have clinical benefits and cytotoxic drug 'sparing effect' and should be further studied in vivo.
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PMID:Moxifloxacin enhances antiproliferative and apoptotic effects of etoposide but inhibits its proinflammatory effects in THP-1 and Jurkat cells. 1704 52

Levofloxacin binds topoisomerase IV, whereas moxifloxacin preferentially binds DNA gyrase. Most 1st-step pneumococcal mutants have alterations in the parC gene of topoisomerase IV. Because of differential binding affinity, moxifloxacin may have superior activity against 1st-step mutants compared with levofloxacin. The purpose of this work was to compare rates and extent of bacterial killing of genetically characterized Streptococcus pneumoniae with moxifloxacin and levofloxacin. Four strains of S. pneumoniae were used: a wild type, 2 first-step parC mutants, and a pump mutant. Using an in vitro pharmacodynamic model run in duplicate, we exposed bacteria to unbound moxifloxacin and levofloxacin peaks of 2 and 4.5 mg/L, respectively, which emulated clinical dosing. Additional experiments were done in which the area under the curve (AUC)/MIC ratio of 1 agent was matched to the competing drug's clinical dose AUC/MIC ratio. Time kill curves were analyzed for rate and extent of bacterial kill and regrowth. Pre- and postexposure MIC and polymerase chain reaction (PCR) testing were done. Moxifloxacin and levofloxacin displayed similar rates and extent of bacterial kill for the wild type, efflux pump type, and parC mutant 27-1361B. Moxifloxacin initially achieved a faster rate of kill, regardless of the AUC/MIC ratio, against parC mutant 7362 (P < 0.05) but not an advantage in time to 3 log kill. Postexposure MIC values were elevated for strain 7362 in 2 moxifloxacin experiments and 1 levofloxacin experiment. Post-PCR analysis revealed new gyrA mutations for all 3 isolates. Both moxifloxacin and levofloxacin are effective against multiple strains of S. pneumoniae.
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PMID:In vitro pharmacodynamics of moxifloxacin versus levofloxacin against 4 strains of Streptococcus pneumoniae: 1 wild type, 2 first-step parC mutants, and 1 pump mutant. 1791 Sep 98

Camptothecins (CPTs) are topoisomerase I (topo I) inhibitor chemotherapeutic agents. Studies indicate that combination therapy is needed in most therapeutic protocols with camptothecins. Certain fluoroquionolones inhibit topoisomerase II activity in eukaryotic cells. We showed previously that the fluoroquionolone moxifloxacin inhibited purified human topoisomerase II, acted synergistically with etoposide and enhanced anti-proliferative effect in THP-1 and Jurkat cells. There is no information on flouroquionolone's activity on topoisomerase I. We examined the effect of moxifloxacin and ciprofloxacin alone or in combination with camptothecin on purified topoisomerase I activity and further analysed their combined activity on proliferation and apoptosis in HT-29 cells. Moxifloxacin and ciprofloxacin alone slightly inhibited purified topoisomerase I activity; however in combination with camptothecin it led to a 82% and 64% reduction in enzyme activity, respectively. Moreovwer, our studies indicate that incubation of HT-29 cells with a combination of moxifloxacin or ciprofloxacin with CPT increases cellular topoisomerase I inhibitory activity. In cell proliferation assays, addition of moxifloxacin to 1nM camptothecin enhanced its cytotoxic activity by three-fold and was similar to that of 50nM camptothecin alone (45+/-2.1% inhibition). Ciprofloxacin enhanced cytotoxic activity to a lesser extent. Apoptosis studies showed up to 1.6-fold increase in annexin V positive cells when the fluoroquinolones were combined with camptothecin as compared to camptothecin alone. Analysis of the proangiogenic factors IL-8 and VEGF showed significant reduction in IL-8 production by moxifloxacin and ciprofloxacin up to 48% and in VEGF secretion from the cells. Further in vivo and clinical studies of camptothecins combined with the above fluoroquinolones are warranted.
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PMID:Quinolones as enhancers of camptothecin-induced cytotoxic and anti-topoisomerase I effects. 1819 Nov 6

Moxifloxacin-resistant mutants of Brucella melitensis 16M [moxifloxacin minimum inhibitory concentration (MIC)=1mg/L] were selected in order to characterise fluoroquinolone resistance mechanisms in this species. Eight independent mutants were obtained, with moxifloxacin MICs of 16-32mg/L. The mutants displayed variable cross-resistance levels to other fluoroquinolone compounds, but no increased resistance to aminoglycosides, tetracycline, rifampicin, macrolides or co-trimoxazole. Sequencing of type II topoisomerase-encoding genes (gyrA, gyrB, parC and parE), which are natural targets for fluoroquinolones, revealed a gyrA mutation leading to the amino acid substitution Ala83Val (Escherichia coli numbering system) in five mutants with a moxifloxacin MIC of 32mg/L, whereas no mutation was found in the remaining three mutants with a MIC of 16mg/L. Phenylalanine-arginine-beta-naphthylamide dihydrochloride, an efflux pump inhibitor, reduced moxifloxacin MICs by a factor of two to eight in all resistant mutants. In B. melitensis, fluoroquinolone resistance may arise from gyrA mutation and efflux pump overexpression mechanisms.
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PMID:In vitro selection of fluoroquinolone resistance in Brucella melitensis. 1926 48

Moxifloxacin hydrochloride ophthalmic solution 0.5% (Vigamox((R))) is the ocular formulation/adaptation of moxifloxacin. Moxifloxacin is a broad spectrum 8-methoxyfluoroquinolone which terminates bacterial growth by binding to DNA gyrase (topoisomerase II) and topoisomerase IV, essential bacterial enzymes involved in the replication, translation, repair and recombination of deoxyribonucleic acid. Affinity for both enzymes improves potency and reduces the probability of selecting resistant bacterial subpopulations. Vigamox is a bactericidal, concentration dependent, anti-infective. It is preservative free, and well tolerated with minimal ocular side effects. It provides increased penetration into ocular tissues and fluids with improved activity against Streptococci and Staphylococci species and moderate to excellent activity against clinically relevant, gram-negative ocular pathogens.
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PMID:Review of moxifloxacin hydrochloride ophthalmic solution in the treatment of bacterial eye infections. 1966 91

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