OBJECTIVES: To determine the contribution to fluoroquinolone resistance of point mutations in the gyrA and parC genes of Salmonella Typhi. METHODS: Point mutations that result in Ser-83-->Phe, Ser-83-->Tyr and Asp-87-->Asn amino acid substitutions in GyrA and Glu-84-->Lys in ParC were introduced into a quinolone-susceptible, attenuated strain of Salmonella Typhi using suicide vector technology. This is the first time that this approach has been used in Salmonella and abrogates the need for selection with quinolone antibacterials in the investigation of resistance mutations. RESULTS: A panel of mutants was created using this methodology and tested for quinolone resistance. The ParC substitution alone made no difference to quinolone susceptibility. Any single GyrA substitution resulted in resistance to nalidixic acid (MIC >or= 512 mg/L) and increased by up to 23-fold the MIC of the fluoroquinolones ofloxacin (MIC <or= 2 mg/L) ciprofloxacin (MIC <or= 1 mg/L) and gatifloxacin (MIC <or= 0.38 mg/L). Among the double substitution mutants, those with a substitution in ParC were less prone to killing with ciprofloxacin. The triple substitution mutants (Ser-83-->Phe or Tyr and Asp-87-->Asn in GyrA with Glu-84-->Lys in ParC) showed high levels of resistance to all the fluoroquinolones tested (MICs: gatifloxacin, 3-4 mg/L; ofloxacin, 32 mg/L; ciprofloxacin, 32-64 mg/L). CONCLUSIONS: In Salmonella Typhi the fluoroquinolones tested act on GyrA and, at higher concentrations, on ParC. The point mutations conferred reduced susceptibility to ofloxacin and ciprofloxacin, and also reduced susceptibility to gatifloxacin. Three mutations conferred resistance to ofloxacin (32 mg/L), ciprofloxacin (32 mg/L) and to the more active fluoroquinolone gatifloxacin (MIC >or= 3 mg/L). These results predict that the use of ofloxacin or ciprofloxacin will select for resistance to gatifloxacin in nature.
OBJECTIVES: To determine the contribution to fluoroquinolone resistance of point mutations in the gyrA and parC genes of Salmonella Typhi. METHODS: Point mutations that result in Ser-83-->Phe, Ser-83-->Tyr and Asp-87-->Asn amino acid substitutions in GyrA and Glu-84-->Lys in ParC were introduced into a quinolone-susceptible, attenuated strain of Salmonella Typhi using suicide vector technology. This is the first time that this approach has been used in Salmonella and abrogates the need for selection with quinolone antibacterials in the investigation of resistance mutations. RESULTS: A panel of mutants was created using this methodology and tested for quinolone resistance. The ParC substitution alone made no difference to quinolone susceptibility. Any single GyrA substitution resulted in resistance to nalidixic acid (MIC >or= 512 mg/L) and increased by up to 23-fold the MIC of the fluoroquinolonesofloxacin (MIC <or= 2 mg/L) ciprofloxacin (MIC <or= 1 mg/L) and gatifloxacin (MIC <or= 0.38 mg/L). Among the double substitution mutants, those with a substitution in ParC were less prone to killing with ciprofloxacin. The triple substitution mutants (Ser-83-->Phe or Tyr and Asp-87-->Asn in GyrA with Glu-84-->Lys in ParC) showed high levels of resistance to all the fluoroquinolones tested (MICs: gatifloxacin, 3-4 mg/L; ofloxacin, 32 mg/L; ciprofloxacin, 32-64 mg/L). CONCLUSIONS: In Salmonella Typhi the fluoroquinolones tested act on GyrA and, at higher concentrations, on ParC. The point mutations conferred reduced susceptibility to ofloxacin and ciprofloxacin, and also reduced susceptibility to gatifloxacin. Three mutations conferred resistance to ofloxacin (32 mg/L), ciprofloxacin (32 mg/L) and to the more active fluoroquinolonegatifloxacin (MIC >or= 3 mg/L). These results predict that the use of ofloxacin or ciprofloxacin will select for resistance to gatifloxacin in nature.
Authors: Kathryn E Holt; Julian Parkhill; Camila J Mazzoni; Philippe Roumagnac; François-Xavier Weill; Ian Goodhead; Richard Rance; Stephen Baker; Duncan J Maskell; John Wain; Christiane Dolecek; Mark Achtman; Gordon Dougan Journal: Nat Genet Date: 2008-07-27 Impact factor: 38.330
Authors: Gemma C Langridge; Minh-Duy Phan; Daniel J Turner; Timothy T Perkins; Leopold Parts; Jana Haase; Ian Charles; Duncan J Maskell; Sarah E Peters; Gordon Dougan; John Wain; Julian Parkhill; A Keith Turner Journal: Genome Res Date: 2009-10-13 Impact factor: 9.043
Authors: Stephen Baker; Kathryn Holt; Esther van de Vosse; Philippe Roumagnac; Sally Whitehead; Emma King; Philip Ewels; Andrew Keniry; François-Xavier Weill; Diane Lightfoot; Jaap T van Dissel; Kenneth E Sanderson; Jeremy Farrar; Mark Achtman; Panagiotis Deloukas; Gordon Dougan Journal: J Clin Microbiol Date: 2008-03-05 Impact factor: 5.948
Authors: Felicita Medalla; Maria Sjölund-Karlsson; Sanghyuk Shin; Emily Harvey; Kevin Joyce; Lisa Theobald; Benjamin N Nygren; Gary Pecic; Kathryn Gay; Jana Austin; Andrew Stuart; Elizabeth Blanton; Eric D Mintz; Jean M Whichard; Esra J Barzilay Journal: Emerg Infect Dis Date: 2011-06 Impact factor: 6.883
Authors: Michelle C Swick; Michael A Evangelista; Truston J Bodine; Jeremy R Easton-Marks; Patrick Barth; Minita J Shah; Christina A Bormann Chung; Sarah Stanley; Stephen F McLaughlin; Clarence C Lee; Vrunda Sheth; Quynh Doan; Richard J Hamill; David Steffen; Lauren B Becnel; Richard Sucgang; Lynn Zechiedrich Journal: PLoS One Date: 2013-06-18 Impact factor: 3.240
Authors: Timothy T Perkins; Mark R Davies; Elizabeth J Klemm; Gary Rowley; Thomas Wileman; Keith James; Thomas Keane; Duncan Maskell; Jay C D Hinton; Gordon Dougan; Robert A Kingsley Journal: Mol Microbiol Date: 2012-12-19 Impact factor: 3.501