Intermittent antibiotic treatment of bacterial biofilms favors the rapid evolution of resistance

Author:

Usui MasaruORCID,Yoshii Yutaka,Thiriet-Rupert StanislasORCID,Ghigo Jean-MarcORCID,Beloin ChristopheORCID

Abstract

ABSTRACTThe rise of antibiotic resistance in bacterial pathogens is a major health concern and the determinants of this emergence are actively studied. By contrast, although biofilms are an important cause of infections due to their high tolerance to a broad range of antimicrobials, much less is known on the development of antibiotic resistance within the biofilm environment, an issue potentially aggravating the current antibiotic crisis. Here, we compared the occurrence of resistance mutations in pathogenic Escherichia coli planktonic and biofilm populations exposed to clinically relevant cycles of lethal treatments with the aminoglycoside antibiotic amikacin. This experimental evolution approach revealed that mutations in sbmA and fusA are rapidly selected in biofilm but not in planktonic populations. The apparition of these bona fide resistance —and not tolerance— mutations is favored by the biofilm preexisting tolerance and high mutation rate. Moreover, we showed that while fusA mutations displayed a high fitness cost in planktonic conditions, these mutations were maintained in biofilms, a phenomenon further possibly amplified by the selection of fimH mutations favoring biofilm formation itself. Our study therefore provides new insights into the dynamic evolution of antibiotic resistance in biofilms, which could lead to clinically practical antibiotic regimen limiting biofilm-associated infections, while mitigating the emergence of worrisome antibiotic resistance mutations.

Publisher

Cold Spring Harbor Laboratory

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