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Antimicrobial Peptide Combination Can Hinder Resistance Evolution

Bar Maron, Jens Rolff, Jonathan Friedman, Zvi Hayouka

2022Microbiology Spectrum57 citationsDOIOpen Access PDF

Abstract

The main insights gleaned from this study are the following. (i) AMP combination treatment can delay the evolution of resistance in S. aureus. Treatment with some AMP pairs resulted in significantly lower resistance then treatment with either of the individual AMPs. Treatment with a random AMP library resulted in no detectable resistance. (ii) The rate at which resistance to combination arises correlates with the cost of resistance to individual AMPs and their cross-resistance. In particular, combinations to which the least resistance arose involved AMPs with high fitness cost of resistance and low cross-resistance. (iii) No broad-range AMP resistance evolved. Strains that evolved resistance to some AMPs typically remained sensitive to other AMPs, alleviating concerns regarding the evolution of resistance to immune system AMPs in response to AMP treatment.

Topics & Concepts

AntimicrobialAntibiotic resistanceEvolutionary biologyBiologyPeptideResistance (ecology)Computational biologyGeneticsMicrobiologyEcologyBacteriaBiochemistryAntimicrobial Peptides and ActivitiesBiochemical and Structural CharacterizationInvertebrate Immune Response Mechanisms
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