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Transiently silent acquired antimicrobial resistance: an emerging challenge in susceptibility testing

Journal

JOURNAL OF ANTIMICROBIAL CHEMOTHERAPY
Volume 78, Issue 3, Pages 586-598

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/jac/dkad024

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The acquisition and expression of antimicrobial resistance (AMR) mechanisms in bacteria are often associated with a fitness cost. Transiently silent acquired AMR (tsaAMR) refers to acquired antimicrobial resistance genes with a corresponding phenotype within the wild-type distribution or below the clinical breakpoint for susceptibility, for which genetic alterations can mediate expression to a clinically relevant level of resistance. The phenomenon of tsaAMR is likely to increase due to the overall expansion of acquired AMR in bacterial pathogens and the use of genotypic methods in combination with conventional phenotypic antimicrobial susceptibility testing (AST).
Acquisition and expression of antimicrobial resistance (AMR) mechanisms in bacteria are often associated with a fitness cost. Thus, evolutionary adaptation and fitness cost compensation may support the advance of subpopulations with a silent resistance phenotype when the antibiotic selection pressure is absent. However, reports are emerging on the transient nature of silent acquired AMR, describing genetic alterations that can change the expression of these determinants to a clinically relevant level of resistance, and the association with breakthrough infections causing treatment failures. This phenomenon of transiently silent acquired AMR (tsaAMR) is likely to increase, considering the overall expansion of acquired AMR in bacterial pathogens. Moreover, the augmented use of genotypic methods in combination with conventional phenotypic antimicrobial susceptibility testing (AST) will increasingly enable the detection of genotype and phenotype discrepancy. This review defines tsaAMR as acquired antimicrobial resistance genes with a corresponding phenotype within the wild-type distribution or below the clinical breakpoint for susceptibility for which genetic alterations can mediate expression to a clinically relevant level of resistance. References to in vivo resistance development and therapeutic failures caused by selected resistant subpopulations of tsaAMR in Gram-positive and Gram-negative pathogens are given. We also describe the underlying molecular mechanisms, including alterations in the expression, reading frame or copy number of AMR determinants, and discuss the clinical relevance concerning challenges for conventional AST.

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