Litcius/Paper detail

Competition quenching strategies reduce antibiotic tolerance in polymicrobial biofilms

Bram Lories, Tom E. R. Belpaire, Bart Smeets, Hans Steenackers

2024npj Biofilms and Microbiomes16 citationsDOIOpen Access PDF

Abstract

Bacteria typically live in dense communities where they are surrounded by other species and compete for a limited amount of resources. These competitive interactions can induce defensive responses that also protect against antimicrobials, potentially complicating the antimicrobial treatment of pathogens residing in polymicrobial consortia. Therefore, we evaluate the potential of alternative antivirulence strategies that quench this response to competition. We test three competition quenching approaches: (i) interference with the attack mechanism of surrounding competitors, (ii) inhibition of the stress response systems that detect competition, and (iii) reduction of the overall level of competition in the community by lowering the population density. We show that either strategy can prevent the induction of antimicrobial tolerance of Salmonella Typhimurium in response to competitors. Competition quenching strategies can thus reduce tolerance of pathogens residing in polymicrobial communities and could contribute to the improved eradication of these pathogens via traditional methods.

Topics & Concepts

Competition (biology)AntimicrobialCompetitor analysisBiologySalmonellaBiofilmPopulationAntibioticsMicrobiologyBacteriaEcologyBusinessEnvironmental healthMedicineMarketingGeneticsEvolution and Genetic DynamicsEvolutionary Game Theory and CooperationVibrio bacteria research studies