EC:5.99.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.3 (topoisomerase)
9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

A structure-guided drug design approach was used to optimize a novel series of aminobenzimidazoles that inhibit the essential ATPase activities of bacterial DNA gyrase and topoisomerase IV and that show potent activities against a variety of bacterial pathogens. Two such compounds, VRT-125853 and VRT-752586, were characterized for their target specificities and preferences in bacteria. In metabolite incorporation assays, VRT-125853 inhibited both DNA and RNA synthesis but had little effect on protein synthesis. Both compounds inhibited the maintenance of negative supercoils in plasmid DNA in Escherichia coli at the MIC. Sequencing of DNA corresponding to the GyrB and ParE ATP-binding regions in VRT-125853- and VRT-752586-resistant mutants revealed that their primary target in Staphylococcus aureus and Haemophilus influenzae was GyrB, whereas in Streptococcus pneumoniae it was ParE. In Enterococcus faecalis, the primary target of VRT-125853 was ParE, whereas for VRT-752586 it was GyrB. DNA transformation experiments with H. influenzae and S. aureus proved that the mutations observed in gyrB resulted in decreased susceptibilities to both compounds. Novobiocin resistance-conferring mutations in S. aureus, H. influenzae, and S. pneumoniae were found in gyrB, and these mutants showed little or no cross-resistance to VRT-125853 or VRT-752586 and vice versa. Furthermore, gyrB and parE double mutations increased the MICs of VRT-125853 and VRT-752586 significantly, providing evidence of dual targeting. Spontaneous frequencies of resistance to VRT-752586 were below detectable levels (<5.2x10(-10)) for wild-type E. faecalis but were significantly elevated for strains containing single and double target-based mutations, demonstrating that dual targeting confers low levels of resistance emergence and the maintenance of susceptibility in vitro.
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PMID:Dual targeting of GyrB and ParE by a novel aminobenzimidazole class of antibacterial compounds. 1711 75

The potential for resistance development in Streptococcus pneumoniae secondary to exposure to gatifloxacin, gemifloxacin, levofloxacin, and moxifloxacin at various levels was examined at high inoculum (10(8.5) to 10(9) log10 CFU/ml) over 96 h in an in vitro pharmacodynamic (PD) model using two fluoroquinolone-susceptible isolates. The pharmacokinetics of each drug was simulated to provide a range of free areas under the concentration-time curves (fAUC) that correlated with various fluoroquinolone doses. Potential first (parC and parE)- and second-step (gyrA and gyrB) mutations in isolates with raised MICs were identified by sequence analysis. PD models simulating fAUC/MICs of 51 and<or=60, 34 and 37, <or=82 and<or=86, and<or=24 for gatifloxacin, gemifloxacin, levofloxacin, and moxifloxacin, respectively, against each isolate were associated with first-step parC (S52G, S79Y, and N91D) and second-step gyrA (S81Y and S114G) mutations. For each fluoroquinolone a delay of first- and second-step mutations was observed with increasingly higher fAUC/MIC ratios and recovery of topoisomerase mutations in S. pneumoniae was related to the fAUC/MIC exposure. Clinical doses of gatifloxacin, gemifloxacin, and moxifloxacin exceeded the fAUC/MIC resistance breakpoint against wild-type S. pneumoniae, whereas those of levofloxacin (500 and 750 mg) were associated with first- and second-step mutations. The exposure breakpoints for levofloxacin were significantly different (P<0.001) from those of the newer fluoroquinolones gatifloxacin, gemifloxacin, and moxifloxacin. Additionally, moxifloxacin breakpoints were significantly lower (P<0.002) than those of gatifloxacin. The order of resistance development determined from fAUC/MIC breakpoints was levofloxacin>gatifloxacin>moxifloxacin=gemifloxacin, which may be related to structural differences within the class.
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PMID:Fluoroquinolone resistance in Streptococcus pneumoniae: area under the concentration-time curve/MIC ratio and resistance development with gatifloxacin, gemifloxacin, levofloxacin, and moxifloxacin. 1729 40

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

Fluoroquinolones (FQs) are broad spectrum, concentration dependent, bactericidal antimicrobials that have been commonly utilized to treat severe nosocomial infections. FQ activity is derived from their ability to inhibit DNA gyrase and topoisomerase IV; resistance has been shown to develop in target site mutations, alterations in efflux pump systems, and incorporation of plasmids. The probability of preventing emergence of resistance and achieving maximal rates of kill are best related to the ratio of free-drug in the area under the concentration-time curve (AUC) to minimum inhibitory concentration (AUC:MIC). Major dosage adjustments for FQs are not necessary in hepatic insufficiency, accumulation of extracellular fluids, and burn patients. Appropriate dosage adjustments in renal function should be taken into consideration. FQ optimization in the critically ill is a multifactorial process that should be individualized to each patient and should take into account the MIC of the pathogen, pharmacokinetic/pharmacodynamic profile of the FQ, and the patient's pathophysiological state.
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PMID:Optimizing use of quinolones in the critically ill. 1809 22

New fluoroquinolones with higher antipneumococcal activity are considered promising in the treatment of respiratory tract infections. Still, their wide use in clinical practice is connected with possible selection and rapid distribution of the resistance, requiring constant monitoring. Development of resistance to fluoroquinolones results from step-wise accumulation of mutations in the genes of DNA-gyrase and topoisomerase IV, the mutations of the first step being not always accompanied by a significant increase of the MIC of the new fluoroquinolones. Therefore, to detect the first signs of the resistance development, it is necessary not only to detect the susceptibility of the circulating Streptococcus pneumoniae strains phenotypically, but also to detect the genetic changes. In the present study the minisequent reaction followed by detection of the reaction products by MALD-ToF mass-spectrometry was used to reveal the mutations in the genes of the fluoroquinolone targets of 38 S. pneumoniae strains with different levels of the resistance to ciprofloxacin, ofloxacin, levofloxacin and moxifloxacin. In the strains with high resistance to all the three fluoroquinolones (MIC 4-16 mcg/ml) there were detected mutations in GyrA (Ser81Tyr or Glu85Zys) and as well in ParC (Ser79Phe or Ser79Tyr). In the strains resistant to ofloxacin and ciprofloxacin (MIC 4-8 mcg/ml) with preserved susceptibility to levofloxacin and moxifloxacin, the mutations were detected only in GyrA (Ser114Gly). In the moderately resistant strains (MICs 4 and 2-4 mcg/ml respectively for ofloxacin and ciprofloxacin) there were detected the known mutations in ParC (Ser79Tyr or Ser79Phe or Asp83Tyr) and in GyrB (Glu475Lys) as well as the earlier not described mutations in ParE (ins Asn381a) and in Gyr B (Thr329Ala or Va1355Ile). The described method can be used in mass screening of S. pneumoniae strains for the presence of mutations in the genes of the fluoroquinolone targets.
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PMID:[MALDI-ToF mass-spectrometry in analysis of genetically determined resistance of Streptococcus pneumoniae to fluoroquinolones]. 1846 3

The mechanism of action and the mechanism of resistance of the 4-quinolones are complex and poorly understood. The first barrier these molecules must cross is the bacterial outer membrane. In gram-negative species, 4-quinolones pass through either the porins or lipopolysaccharides (or both) depending on their chemical nature. The cellular target is the DNA of the bacterial chromosome. 4-Quinolones mainly modify the activity of topoisomerase II or DNA gyrase, but also that of topoisomerase I and IV. Any damage to the bacterial genome will induce a stress response which consists in the SOS response, chaperonin synthesis or the generation of oxygen free radicals. Peptidoglycan synthesis is also modified, as shown by the inhibition of PBP(3) activity. Mechanism of resistance involves mutations on gyrA and gyrB genes. gyrA Mutations on the chromosome are responsible for a high level of resistance due to a modification of the A subunit of DNA gyrase, mutations on gyrB gene are responsible for a low level of resistance; the combination of both mutations leads to a high level of resistance. Other mutations are responsible for increasing the MIC, such as a norA mutation in S. aureus. The antibacterial activity of the various molecules is different and, as a result, there is not a single mechanism of action or resistance, but rather a common trunk on which additional mechanisms are grafted.
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PMID:Fluoroquinolones: mechanisms of action and resistance. 1861 33

Fluoroquinolones acts by interacting with type II topoisomerases (DNA gyrase and topoisomerases IV). Related to this mechanism of action, bacteria have developed resistance mechanisms consisting in some target mutations (GyrA/GyrB for DNA gyrase and ParC/ParE for topoisomerase IV) or in a reduced access to the target itself, by either decreased permeability or augmented expression of efflux pumps, such as AcrAB and MexAB. Along with these classical mechanisms of chromosomal resistance, the presence of fluoroquinolones resistant proteins (Qnr) has been recently evidenced, codified by transmissible genes by means of plasmids, especially in Enterobacter spp., Escherichia coli and Klebsiella pneumoniae, whereas Proteus mirabilis and non fermenter Gram-negative, like Acinetobacter spp. and Pseudomonas aeruginosa, are not involved in such a kind of resistance. Qnr proteins determine a slight increase in MIC values, which often remains below the susceptibility breakpoint. More relevant is their impact on MPC values. Additionally, new specific resistance mechanisms have been described. AAC(6')-Ib-cr represents the first enzyme able to inactivate, by acetylation, antimicrobials of two different classes, aminoglycosides and fluoroquinolones. However, ciprofloxacin and norfloxacin, but not levofloxacin, are susceptible to this enzyme action. Finally, the presence of another resistance mechanism has been reported, an efflux-pump plasmid-mediated, codified by the QepA gene, which acts by a selective mechanism. Only hydrophilic fluoroquinolones, i.e. norfloxacin and ciprofloxacin, but not all the other ones, i.e. levofloxacin, moxifloxacin, etc, are affected by this mechanism. In the light of these new information, it is clear that, in terms of bacterial resistance, it is not any more possible to assimilate one fluoroquinolones to another, since different molecules can be diversely active, due to the specific resistance mechanism.
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PMID:[Fluoroquinolones and Gram-negative bacteria: antimicrobial activity and mechanisms of resistance]. 1884 19

Among 4,215 Streptococcus pneumoniae isolates obtained in Spain during 2006, 98 (2.3%) were ciprofloxacin resistant (3.6% from adults and 0.14% from children). In comparison with findings from a 2002 study, global resistance remained stable. Low-level resistance (30 isolates with MIC 4-8 microg/mL) was caused by a reserpine-sensitive efflux phenotype (n = 4) or single topoisomerase IV (parC [n = 24] or parE [n = 1]) changes. One isolate did not show reserpine-sensitive efflux or mutations. High-level resistance (68 isolates with MIC >or=16 microg/mL) was caused by changes in gyrase (gyrA) and parC or parE. New changes in parC (S80P) and gyrA (S81V, E85G) were shown to be involved in resistance by genetic transformation. Although 49 genotypes were observed, clones Spain9V-ST156 and Sweden15A-ST63 accounted for 34.7% of drug-resistant isolates. In comparison with findings from the 2002 study, clones Spain14-ST17, Spain23F-ST81, and ST8819F decreased and 4 new genotypes (ST9710A, ST57016, ST43322, and ST71733) appeared in 2006.
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PMID:Changes in fluoroquinolone-resistant Streptococcus pneumoniae after 7-valent conjugate vaccination, Spain. 1952 89

In gram negative bacteria, fluoroquinolone resistance is acquired by target mutations in topoisomerase genes or by reducing the permeation of drugs due to the increase in expression of endogenous multidrug efflux pumps that expel structurally unrelated antimicrobial agents. An ongoing challenge is searching for new inhibitory substances in order to block efflux pumps and restore the antibiotic drugs susceptibility. In this research, we sought to investigate the interplay between ciprofloxacin and an efflux pump inhibitor (EPI), phenyl alanine arginyl beta-naphtylamide (PAbetaN), to determine the prevalence of efflux pump overexpression in clinical isolates of Pseudomonas aeruginosa. Ciprofloxacin was tested at different concentrations (256-0.25 microg/ml) with a fixed concentration of PAbetaN (50 microg/ml). The isolates susceptibility profiles were analyzed by disc diffusion and agar dilution methods using 10 antibiotic discs and 4 powders. It was found that in the presence of PAbetaN, resistance to ciprofloxacin was inhibited obviously and MIC values were decreased. The comparison between subgroups of P. aeruginosa isolates with different resistance profiles indicates that efflux pump overexpression (EPO) is present in 35% of ciprofloxacin resistant isolates with no cross resistance and in variable frequencies among isolates showing cross resistance to other tested antibiotics: gentamicin (31%), ceftazidime (29%), and imipenem (18%). Altogether, these results imply that PAbetaN maybe effective to restore the fluoroquinolone drugs susceptibility in clinical treatment procedures. Results also show that increased use of a fluoroquinolone drug such as ciprofloxacin can affect the susceptibility of P. aeruginosa to other different antipseudomonal agents.
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PMID:Determination of the efflux pump-mediated resistance prevalence in Pseudomonas aeruginosa, using an efflux pump inhibitor. 1955 68

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