Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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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)
Alternate mutations in the grlA and gyrA genes were observed through the first- to fourth-step mutants which were obtained from four Staphylococcus aureus strains by sequential selection with several fluoroquinolones. The increases in the MICs of gatifloxacin accompanying those mutational steps suggest that primary targets of gatifloxacin in the wild type and the first-, second-, and third-step mutants are wild-type
topoisomerase
IV (topo IV), wild-type DNA gyrase, singly mutated topo IV, and singly mutated DNA gyrase, respectively.
Gatifloxacin
had activity equal to that of tosufloxacin and activity more potent than those of norfloxacin, ofloxacin, ciprofloxacin, and sparfloxacin against the second-step mutants (grlA gyrA; gatifloxacin MIC range, 1.56 to 3.13 microg/ml) and had the most potent activity against the third-step mutants (grlA gyrA grlA; gatifloxacin MIC range, 1.56 to 6.25 microg/ml), suggesting that gatifloxacin possesses the most potent inhibitory activity against singly mutated topo IV and singly mutated DNA gyrase among the quinolones tested. Moreover, gatifloxacin selected resistant mutants from wild-type and the second-step mutants at a low frequency.
Gatifloxacin
possessed potent activity (MIC, 0.39 microg/ml) against the NorA-overproducing strain S. aureus NY12, the norA transformant, which was slightly lower than that against the parent strain SA113. The increases in the MICs of the quinolones tested against NY12 were negatively correlated with the hydrophobicity of the quinolones (correlation coefficient, -0.93; P < 0.01). Therefore, this slight decrease in the activity of gatifloxacin is attributable to its high hydrophobicity. Those properties of gatifloxacin likely explain its good activity against quinolone-resistant clinical isolates of S. aureus harboring the grlA, gyrA, and/or norA mutations.
...
PMID:Antibacterial activity of gatifloxacin (AM-1155, CG5501, BMS-206584), a newly developed fluoroquinolone, against sequentially acquired quinolone-resistant mutants and the norA transformant of Staphylococcus aureus. 968 84
We determined the inhibitory activities of gatifloxacin against Staphylococcus aureus
topoisomerase
IV, Escherichia coli DNA gyrase, and HeLa cell
topoisomerase
II and compared them with those of several quinolones. The inhibitory activities of quinolones against these type II topoisomerases significantly correlated with their antibacterial activities or cytotoxicities (correlation coefficient [r] = 0.926 for S. aureus, r = 0.972 for E. coli, and r = 0.648 for HeLa cells).
Gatifloxacin
possessed potent inhibitory activities against bacterial type II topoisomerases (50% inhibitory concentration [IC50] = 13.8 microg/ml for S. aureus
topoisomerase
IV; IC50 = 0.109 microg/ml for E. coli DNA gyrase) but the lowest activity against HeLa cell
topoisomerase
II (IC50 = 265 microg/ml) among the quinolones tested. There was also a significant correlation between the inhibitory activities of quinolones against S. aureus
topoisomerase
IV and those against E. coli DNA gyrase (r = 0.969). However, the inhibitory activity against HeLa cell
topoisomerase
II did not correlate with that against either bacterial enzyme. The IC50 of gatifloxacin for HeLa cell
topoisomerase
II was 19 and was more than 2,400 times higher than that for S. aureus
topoisomerase
IV and that for E. coli DNA gyrase. These ratios were higher than those for other quinolones, indicating that gatifloxacin possesses a higher selectivity for bacterial type II topoisomerases.
...
PMID:Inhibitory activities of gatifloxacin (AM-1155), a newly developed fluoroquinolone, against bacterial and mammalian type II topoisomerases. 975 76
Gatifloxacin
(8-methoxy, 7-piperazinyl-3'-methyl) at the MIC selected mutant strains that possessed gyrA mutations at a low frequency (3.7 x 10(-9)) from wild-type strain Streptococcus pneumoniae IID553. AM-1147 (8-methoxy, 7-piperazinyl-3'-H) at the MIC or higher concentrations selected no mutant strains. On the other hand, the respective 8-H counterparts of these two compounds, AM-1121 (8-H, 7-piperazinyl-3'-methyl) and ciprofloxacin (8-H, 7-piperazinyl-3'-H), at one and two times the MIC selected mutant strains that possessed parC mutations at a high frequency (>2.4 x 10(-6)). The MIC of AM-1147 increased for the gyrA mutant strains but not for the parC mutant strains compared with that for the wild-type strain. These results suggest that fluoroquinolones that harbor 8-methoxy groups select mutant strains less frequently and prefer DNA gyrase, as distinct from their 8-H counterparts. The in vitro activities of gatifloxacin and AM-1147 are twofold higher against the wild-type strain, eight- and twofold higher against the first-step parC and gyrA mutant strains, respectively, and two- to eightfold higher against the second-step gyrA and parC double mutant strains than those of their 8-H counterparts. These results indicate that the 8-methoxy group contributes to enhancement of antibacterial activity against target-altered mutant strains as well as the wild-type strain. It is hypothesized that the 8-methoxy group of gatifloxacin increases the level of target inhibition, especially against DNA gyrase, so that it is nearly the same as that for
topoisomerase
IV inhibition in the bacterial cell, leading to potent antibacterial activity and a low level of resistance selectivity.
...
PMID:Contributions of the 8-methoxy group of gatifloxacin to resistance selectivity, target preference, and antibacterial activity against Streptococcus pneumoniae. 1135 7
Gatifloxacin
, an 8-methoxyfluoroquinolone, was found to be two- to fourfold more active against wild-type Staphylococcus aureus ISP794 than its desmethoxy derivative, AM-1121, and ciprofloxacin, another desmethoxy fluoroquinolone. Single grlBA mutations caused two- to fourfold increases in the MIC of gatifloxacin, and a single gyrase mutation was silent. Double mutations in gyrA and grlA or grlB caused a 32-fold increase in the MIC of gatifloxacin, in contrast to a 128-fold increase for ciprofloxacin and AM-1121. Overexpression of the NorA efflux pump had minimal effect on the MIC of gatifloxacin. The bactericidal activity of the three quinolones at four times the MIC differed only for a double mutant, with gatifloxacin exhibiting a killing pattern similar to that for ISP794, whereas ciprofloxacin and AM-1121 failed to show any killing. With gatifloxacin, selection of resistant mutants at twice the MIC was 100- to 1,000-fold less frequent than with the comparison quinolones, and mutants could rarely be selected at four times the MIC. The limit resistance in ISP74 was 512 times the MIC of gatifloxacin and 1,024 times the MICs of ciprofloxacin and AM-1121. Novel mutations in
topoisomerase
IV were selected in five of the six single-step mutants, three of which were shown to cause quinolone resistance by genetic studies. In conclusion,
topoisomerase
IV is the primary target of gatifloxacin. In contrast to comparison quinolones, mutations in both
topoisomerase
IV and gyrase are required for resistance to gatifloxacin by clinical breakpoints and do not abolish bactericidal effect, further supporting the benefit of the 8-methoxy substituent in gatifloxacin.
...
PMID:Mechanisms and frequency of resistance to gatifloxacin in comparison to AM-1121 and ciprofloxacin in Staphylococcus aureus. 1155 65
Gatifloxacin
, a novel 8-methoxyquinolone, was approved in April 2002 and launched in June 2002.
Gatifloxacin
shows a broad spectrum of antibacterial activity against Gram-negative, Gram-positive, anaerobic, and atypical pathogens. The activity is higher than those of other quinolones against RTI pathogens of S. pneumoniae including the penicillin-resistant strains, H. influenzae, Mycoplasma, and Chlamydia. This drug strongly inhibits the type II
topoisomerase
, DNA gyrase, and
topoisomerase
IV of S. pneumoniae and S. aureus to nearly the same extent, leading to the potent activity and low resistance. After an oral administration in humans, gatifloxacin is well absorbed and distributed, and the majority is excreted in the urine as the unchanged form. Its serum half-life is 7-8 h. The clinical effectiveness was observed for various infectious diseases including RTI and UTI. The bacterial eradication rate is 94.1% for Gram-positives, 90.7% for Gram-negatives, and 97.7% for anaerobes. In particular, gatifloxacin showed a high eradication rate of 98.7% for S. pneumoniae. The total cure rate and eradication rate of gatifloxacin in clinical studies are 91.1% and 93.3%, respectively, indicating that the potent activity and good PK profile account for its clinical efficacy.
...
PMID:[Antibacterial property and clinical effect of gatifloxacin, a novel quinolone antibacterial agent]. 1283 39
