Abstract
Pseudomonas aeruginosa is an environmental pathogen that can cause severe infections in immunocompromised patients. P. aeruginosa infections are typically treated with multiple antibiotics including tobramycin, ciprofloxacin, and meropenem. However, antibiotics do not always entirely clear the bacteria from the infection site, where they may remain virulent. This is because the effective antibiotic concentration and diffusion in vitro may differ from the in vivo environment in patients. Therefore, it is important to understand the effect of non-lethal sub-inhibitory antibiotic concentrations on bacterial phenotype. Here, we investigate if sub-inhibitory antimicrobial concentrations cause alterations in bacterial virulence factor production using pyocyanin as a model toxin. We tested this using the aforementioned antibiotics on 10 environmental P. aeruginosa strains. Using on-the-spot electrochemical screening, we were able to directly quantify changes in production of pyocyanin in a measurement time of 17 seconds. Upon selecting 3 representative strains to further test the effects of sub-minimum inhibitory concentration (MICs), we found that pyocyanin production changed significantly when the bacteria were exposed to 10-fold MIC of the 3 antibiotics tested, and this was strain specific. A series of biologically relevant measured pyocyanin concentrations were also used to assess the effects of increased virulence on a culture of epithelial cells. We found a decreased viability of the epithelial cells when incubated with biologically relevant pyocyanin concentrations. This suggests that the antibiotic-induced virulence also is a value worth being enclosed in regular testing of pathogens.
Highlights
The rapid emergence of antibiotic resistance is endangering the efficacy of antibiotics [1]
For the micro broth dilution method, we diluted overnight cultures of P. aeruginosa isolates (1:50) in fresh lysogeny broth (LB) media, which we allowed to grow to exponential phase (OD600 = 0.4) and diluted to 2–8 105 colony forming units (CFU) per mL in 96-well polypropylene plates with or without series of concentrations of the three antibiotics tested
Increasing pyocyanin concentrations result in higher peak heights as denoted by the inset where the concentration is plotted as function of the current
Summary
The rapid emergence of antibiotic resistance is endangering the efficacy of antibiotics [1]. The susceptibility profile of bacterial pathogens provides valuable information to prescribe the most efficient antibiotic treatment. Antibiotic exposure and bacterial toxin production adherence to PLOS ONE policies on sharing data and materials. Not an ‘all or none’ effect, treatment without antimicrobial susceptibility information may contribute to recurring and chronic infections [2,3,4]. The effect of sub-inhibitory antimicrobial concentrations on bacterial virulence is a field that is not intensively studied. This calls for increased efforts to understand the implication of sub-inhibitory concentrations of antimicrobials on bacterial virulence profiles
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