Impact of low-level fluoroquinolone resistance genes qnrA1, qnrB19 and qnrS1 on ciprofloxacin treatment of isogenic Escherichia coli strains in a murine urinary tract infection model.

To study the impact of qnrA1, qnrB19 and qnrS1 on the ciprofloxacin treatment of urinary tract infection (UTI). From a wild-type (wt) Escherichia coli UTI isolate, three isogenic strains were constructed carrying low-level ciprofloxacin resistance genes qnrA1, qnrB19 or qnrS1 (ciprofloxacin MIC range: 0.190.38 mg/L). Timekill studies were performed for all four isogenic strains at the following concentrations: 1, 2, 4, 8 and 16 MIC. Ciprofloxacin serum and urine pharmacokinetics was determined to calculate a murine dose equivalent (AUC(24)) to the standard human dose of 500 mg twice daily, which corresponded to 0.2 mg/mouse four times daily. In the murine UTI model, mice infected with each of the isogenic qnr strains or the wt strain were treated with ciprofloxacin (0.2 mg/mouse) or saline (only the E. coli wt) subcutaneously four times daily for 3 days starting 24 h after bacterial inoculation. In vitro, the strains responded to ciprofloxacin concentrations of 416 MIC by several log(10) reductions. In vivo, despite ciprofloxacin reaching urine concentrations far exceeding the MICs for the strains (500 mg/L), ciprofloxacin was significantly less efficient at reducing the urine and bladder bacterial counts of qnrA1-, qnrB19- and qnrS1-positive strains compared with the ciprofloxacin-treated wt strain (P0.05). None of the four strains infected the kidneys well, with median cfu counts of 1 log(10). Although qnr genes only confer low levels of resistance to ciprofloxacin, a reduced bactericidal activity of ciprofloxacin was observed in both urine and bladder in the murine model of UTI.