Litcius/Paper detail

The Fitness of Beta-Lactamase Mutants Depends Nonlinearly on Resistance Level at Sublethal Antibiotic Concentrations

Andrew D. Farr, Diego Pesce, Suman G. Das, Mark P. Zwart, J. Arjan G. M. de Visser

2023mBio15 citationsDOIOpen Access PDF

Abstract

The evolution of antibiotic-resistant bacterial populations underpins the ongoing antibiotic resistance crisis. We aim to understand how antibiotic-degrading enzymes can evolve to cause increased resistance, how this process is constrained, and whether it can be predictable. To this end, competition experiments were performed with a combinatorially complete set of mutants of a β-lactamase gene subject to subinhibitory concentrations of the antibiotic cefotaxime. While some mutations confer on their hosts high resistance to cefotaxime, in competition these mutations do not always confer a selective advantage. Specifically, high-resistance mutants had equivalent fitnesses despite different resistance levels and even had selective disadvantages under conditions involving spatial structure. Together, our findings suggest that the relationship between resistance level and fitness at subinhibitory concentrations is complex; predicting the evolution of antibiotic resistance requires knowledge of the conditions that select for resistant genotypes and the selective advantage evolved types have over their predecessors.

Topics & Concepts

Antibiotic resistanceAntibioticsMicrobiologyMutantResistance (ecology)BiologyBETA (programming language)BacteriaGeneticsEcologyGeneComputer scienceProgramming languageEvolution and Genetic DynamicsAntibiotic Resistance in BacteriaPharmaceutical and Antibiotic Environmental Impacts
The Fitness of Beta-Lactamase Mutants Depends Nonlinearly on Resistance Level at Sublethal Antibiotic Concentrations | Litcius