Fitness of Escherichia coli mutants with reduced susceptibility to tigecycline
نویسندگان
چکیده
OBJECTIVES The objective of this study was to determine the fitness of Escherichia coli mutants with reduced susceptibility to tigecycline after exposure to adverse conditions in vitro and in vivo. METHODS Survival in response to low pH, bile salts, oxidative stress and human serum was examined for E. coli mutants with reduced susceptibility to tigecycline due to single mutations that caused increased efflux (marR, lon) or impaired LPS (rfaC, rfaE, lpcA). An in vitro competition assay was used to determine growth fitness defects. Competitive fitness was assessed using mouse infection models. MICs, exponential growth rates and expression levels of efflux-related genes were measured for genetically reconstructed double and triple mutants. RESULTS The LPS mutants were 48-85-fold more susceptible to bile salts compared with the ERN mutants and the WT. As shown by in vitro competitions, the fitness reduction was 0.3%-13% for ERN mutants and ∼24% for LPS mutants. During in vivo survival experiments, LPS mutants were outcompeted by the WT strain in the thigh infection model. Constructed double ERN and LPS mutants showed additive and synergistic increases in tigecycline MICs. CONCLUSIONS Generally, reduced susceptibility to tigecycline caused a decrease in fitness under stressful in vitro and in vivo conditions with ERN mutants being fitter than LPS mutants. When combined, ERN mutations caused a synergistic increase in the MIC of tigecycline. These findings could explain why clinical resistance to tigecycline in E. coli is mainly associated with up-regulation of the AcrAB efflux system.
منابع مشابه
Mechanisms and fitness costs of tigecycline resistance in Escherichia coli.
OBJECTIVES To stepwise select tigecycline-resistant Escherichia coli mutants in vitro, determine the mutation rates, identify the resistance mechanisms, determine the resistance level and cross-resistance to other antibiotic classes, evaluate the fitness costs of tigecycline resistance mechanisms and investigate if the same in vitro-identified target genes were mutated in clinical isolates. M...
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