
Abstract Quorum sensing (QS) is the regulation of gene expression in response to the concentration of small signal molecules, and its inactivation has been suggested to have great potential to attenuate microbial virulence. It is assumed that unlike antimicrobials, inhibition of QS should cause less Darwinian selection pressure for bacterial resistance. Using the opportunistic pathogen Pseudomonas aeruginosa, we demonstrate here that bacterial resistance arises rapidly to the best-characterized compound that inhibits QS (brominated furanone C-30) due to mutations that increase the efflux of C-30. Critically, the C-30-resistant mutant mexR was more pathogenic to Caenorhabditis elegans in the presence of C-30, and the same mutation arises in bacteria responsible for chronic cystic fibrosis infections. Therefore, bacteria may evolve resistance to many new pharmaceuticals thought impervious to resistance.
Virulence, Quorum Sensing, Gene Expression Regulation, Bacterial, Evolution, Molecular, Repressor Proteins, Bacterial Proteins, Drug Resistance, Bacterial, Mutation, Pseudomonas aeruginosa, Animals, Caenorhabditis elegans, Furans, Transcriptome
Virulence, Quorum Sensing, Gene Expression Regulation, Bacterial, Evolution, Molecular, Repressor Proteins, Bacterial Proteins, Drug Resistance, Bacterial, Mutation, Pseudomonas aeruginosa, Animals, Caenorhabditis elegans, Furans, Transcriptome
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