Publication | Open Access
Prevalence of <i>gyrA</i> , <i>gyrB</i> , <i>parC</i> , and <i>parE</i> Mutations in Clinical Isolates of <i>Streptococcus pneumoniae</i> with Decreased Susceptibilities to Different Fluoroquinolones and Originating from Worldwide Surveillance Studies during the 1997-1998 Respiratory Season
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2000
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1997-1998 Respiratory SeasonAntibiotic ResistanceBacterial PathogensDrug ResistanceRespiratory InfectionFq MicsInfection ControlAntibacterial MechanismsAntimicrobial ResistanceHealth SciencesAntimicrobial Drug DiscoveryStreptococcus PneumoniaeDrug Resistance AnalysisWorldwide Surveillance StudiesBacterial ResistanceClinical MicrobiologyAntimicrobial Resistance GeneAntimicrobial SusceptibilityAntibioticsEmerging Infectious DiseasesReduced SusceptibilityInfectious Respiratory DiseaseMicrobiologyAntimicrobial PharmacodynamicsMedicineDifferent Fluoroquinolones
ABSTRACT From 8,419 worldwide clinical isolates of Streptococcus pneumoniae obtained during 1997-1998, 69 isolates with reduced susceptibility or resistance to fluoroquinolones (FQs) were molecularly characterized. For the isolates in this prevalence study, only parC (Ser-79→Tyr) and gyrA (Ser-81→Phe or Tyr) mutations, especially in combination, were found to contribute significantly to resistance. These mutations influenced the FQ MICs to varying degrees, although the rank order of activity remains independent of mutation type, with ciprofloxacin the least active, followed by levofloxacin, gatifloxacin/grepafloxacin/moxifloxacin/sparfloxacin/trovafloxacin, and clinafloxacin/sitafloxacin. Efflux likely plays a crucial role in reduced susceptibility for new hydrophilic FQs.
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