4.5 Article

Chlorhexidine leads to the evolution of antibiotic-resistant Pseudomonas aeruginosa

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SPRINGER
DOI: 10.1007/s10096-021-04292-5

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Antibiotics; Chlorhexidine; Cross-resistance; Efflux pump; Multidrug resistance; MexXY; Pseudomonas aeruginosa

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The study evaluated the role of chlorhexidine in selecting resistant Pseudomonas aeruginosa mutants and their cross-resistance to antibiotics, showing that chlorhexidine can select P. aeruginosa strains with antibiotic cross-resistance. This highlights the need for special protocols for chlorhexidine use and re-evaluation of its benefits versus risks in personal-care products.
Antimicrobial resistance is a major public-health concern. We evaluate chlorhexidine role in selection of resistant Pseudomonas aeruginosa mutants and their antibiotic cross-resistance. Mutation frequency and mutation rate after short-term exposure to sub-inhibitory concentrations of chlorhexidine were compared to those after spontaneous chlorhexidine-exposure, in P. aeruginosa PAO1 strain. Chlorhexidine-resistant mutants were generated, either by serial passage in increasing chlorhexidine concentrations or by single exposure to lethal chlorhexidine concentration. The generated mutants were tested for cross-resistance to different antibiotics, by determination of minimum inhibitory concentrations (MIC). The accompanied phenotypic changes in membrane permeability, outer membrane proteins (OMP), and efflux function were evaluated. The effect of exposure to chlorhexidine on MexAB-OprM, MexEF-oprN, and MexXY efflux pumps expression was investigated. No significant change was recorded between the mutation frequencies and mutation rates after short-term exposure to sub-inhibitory concentrations of chlorhexidine and after spontaneous chlorhexidine-exposure, in P. aeruginosa PAO1 strain. Twelve stable mutants, with >= eight-fold increase in chlorhexidine MIC, were generated. Several mutants showed increase in the MIC of colistin, cefepime, ceftazidime, meropenem, ciprofloxacin, and amikacin; seven mutants expressed meropenem cross-resistance. This was accompanied by decreased outer membrane permeability and changes in OMP. Using efflux pump inhibitor, chlorhexidine resistance was reverted in most isolates. Exposure to sub-inhibitory concentration of chlorhexidine induced the expression of MexXY efflux pump. Some resistant mutants had overexpressed MexXY efflux pump. Chlorhexidine can select P. aeruginosa strains with antibiotic cross-resistance. This necessitates implementing special protocols for chlorhexidine use and re-evaluation of its benefit versus risk in personal-care products.

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