scholarly journals Impact of Low-Level Resistance to Fluoroquinolones Due to qnrA1 and qnrS1 Genes or a gyrA Mutation on Ciprofloxacin Bactericidal Activity in a Murine Model of Escherichia coli Urinary Tract Infection

2009 ◽  
Vol 53 (10) ◽  
pp. 4292-4297 ◽  
Author(s):  
Nicolas Allou ◽  
Emmanuelle Cambau ◽  
Laurent Massias ◽  
Françoise Chau ◽  
Bruno Fantin
Keyword(s):  
Escherichia Coli ◽  
Urinary Tract Infection ◽  
Urinary Tract ◽  
Tract Infection ◽  
Bactericidal Activity ◽  
Murine Model ◽  
Bacterial Counts ◽  
Low Level ◽  
The Impact ◽  
Level Resistance

ABSTRACT We investigated the impact of low-level resistance to fluoroquinolones on the bactericidal activity of ciprofloxacin in a murine model of urinary tract infection. The susceptible Escherichia coli strain CFT073 (ciprofloxacin MIC [CIP MIC] of 0.008 μg/ml) was compared to its transconjugants harboring qnrA1 or qnrS1 and to an S83L gyrA mutant. The three derivatives showed similar low-level resistance to fluoroquinolones (CIP MICs, 0.25 to 0.5 μg/ml). Bactericidal activity measured in vitro after 1, 3, and 6 h of exposure to 0.5 μg/ml of ciprofloxacin was significantly lower for the derivative strains (P < 0.01). In the murine model of urinary tract infection (at least 45 mice inoculated per strain), mice were treated with a ciprofloxacin regimen of 2.5 mg/kg, given subcutaneously twice daily for 2 days. In mice infected with the susceptible strain, ciprofloxacin significantly decreased viable bacterial counts (log10 CFU/g of tissue) in the bladder (4.2 ± 0.5 versus 5.5 ± 1.3; P = 0.001) and in the kidney (3.6 ± 0.8 versus 5.0 ± 1.1; P = 0.003) compared with those of untreated mice. In contrast, no significant decrease in viable bacterial counts was observed with any of the three derivative strains. The area under the concentration-time curve from 0 to 24 h/MIC and the maximum concentration of drug in serum/MIC ratios measured in plasma were indeed equal to 827 and 147, respectively, for the parental strain, and only 12.4 to 24.8 and 2.2 to 4.4, respectively, for the derivative strains. In conclusion, low-level resistance to fluoroquinolones conferred by a qnr gene is associated with decreased bactericidal activity of ciprofloxacin, similar to that obtained with a gyrA mutation.

scholarly journals Ciprofloxacin Pharmacokinetics/Pharmacodynamics against Susceptible and Low-Level Resistant Escherichia coli Isolates in an Experimental Ascending Urinary Tract Infection Model in Mice

2020 ◽  
Vol 65 (1) ◽  
pp. e01804-20
Author(s):  
Lotte Jakobsen ◽  
Carina Vingsbro Lundberg ◽  
Niels Frimodt-Møller
Keyword(s):  
Escherichia Coli ◽  
Urinary Tract Infection ◽  
Urinary Tract ◽  
Tract Infection ◽  
Infection Model ◽  
Bladder Tissue ◽  
Content Type ◽  
E Coli ◽  
Low Level ◽  
Level Resistance

ABSTRACTThe mouse ascending urinary tract infection model was used to study the pharmacokinetic/pharmacodynamic (PKPD) relationships of the effect of ciprofloxacin in subcutaneous treatment for 3 days with varying doses and dosing intervals against a susceptible Escherichia coli strain (MIC, 0.032 mg/liter). Further, a humanized dose of ciprofloxacin was administered for 3 days against three E. coli strains with low-level resistance, i.e., MICs of 0.06, 0.25, and 1 mg/liter, respectively. Against the susceptible isolate, ciprofloxacin was highly effective in clearing the urine with daily doses from 10 mg/kg, but the dosing regimen had to be divided into at least two doses for optimal effect. Ciprofloxacin could not clear the urine or kidneys for the low-level-resistant strains. PKPD correlations with all strains combined showed that for the AUC24/MIC there was a slightly higher correlation with effect in urine and kidneys (R2, 0.71 and 0.69, respectively) than the %T>MIC (R2, 0.41 and 0.61, respectively). Equal correlations for the two PKPD indices were found for reduction of colony counts (CFU) in the bladder tissue, but not even the highest dose of 28 mg/kg × 6 could clear the bladder tissue. In conclusion, ciprofloxacin is highly effective in clearing the urine and kidney tissue for fully susceptible E. coli, while even low-level resistance in E. coli obscures this effect. While the effect of ciprofloxacin is mostly AUC/MIC driven against E. coli infection in the urinary tract, the effect in urine depends on the presence of ciprofloxacin in the urine during most of a 24-h period.

scholarly journals Effect of Inactivation of the Global Oxidative Stress Regulator oxyR on the Colonization Ability of Escherichia coli O1:K1:H7 in a Mouse Model of Ascending Urinary Tract Infection

2006 ◽  
Vol 74 (1) ◽  
pp. 461-468 ◽  
Author(s):  
James R. Johnson ◽  
Connie Clabots ◽  
Henry Rosen
Keyword(s):  
Escherichia Coli ◽  
Urinary Tract Infection ◽  
Urinary Tract ◽  
Tract Infection ◽  
Wild Type ◽  
In Vitro Susceptibility ◽  
E Coli ◽  
C57bl Mice ◽  
The Impact

ABSTRACT To survive within the host urinary tract, Escherichia coli strains that cause urinary tract infection (UTI) presumably must overcome powerful oxidant stresses, including the oxygen-dependent killing mechanisms of neutrophils. Accordingly, we assessed the global oxygen stress regulator OxyR of Escherichia coli as a possible virulence factor in UTI by determining the impact of oxyR inactivation on experimental urovirulence in CBA/J and C57BL (both wild-type and p47phox−/−) mice. The oxyR and oxyS genes of wild-type E. coli strain Ec1a (O1:K1:H7) were replaced with a kanamycin resistance cassette to produce an oxyRS mutant. During in vitro growth in broth or human urine, the oxyRS mutant exhibited the same log-phase growth rate (broth) and plateau density (broth and urine) as Ec1a, despite its prolonged lag phase (broth) or initial decrease in concentration (urine). The mutant, and oxyRS mutants of other wild-type ExPEC strains, exhibited significantly increased in vitro susceptibility to inhibition by H2O2, which, like the altered growth kinetics observed with oxyRS inactivation, were reversed by restoration of oxyR on a multiple-copy-number plasmid. In CBA/J mice, Ec1a significantly outcompeted its oxyRS mutant (by >1 log10) in urine, bladder, and kidney cultures harvested 48 h after perurethral inoculation of mice, whereas an oxyR-complemented mutant exhibited equal or greater colonizing ability than that of the parent. Although C57BL mice were less susceptible to experimental UTI than CBA/J mice, wild-type and p47phox−/− C57BL mice were similarly susceptible, and the oxyR mutant of Ec1a was similarly attenuated in C57BL mice, regardless of the p47phox genotype, as in CBA/J mice. Within the E. coli Reference collection, 94% of strains were positive for oxyR. These findings fulfill the second and third of Koch's molecular postulates for oxyR as a candidate virulence-facilitating factor in E. coli and indicate that oxyR is a broadly prevalent potential target for future preventive interventions against UTI due to E. coli. They also suggest that neutrophil phagocyte oxidase is not critical for defense against E. coli UTI and that the major oxidative stresses against which OxyR protects E. coli within the host milieu are not phagocyte derived.

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