Characterizing Escherichia coli carrying plasmid-mediated AmpC β-lactamases to optimize detection in a diagnostic laboratory setting

Abstract

Detection of transmissible AmpC resistance remains a challenging problem for diagnostic laboratories, especially in Escherichia coli where the expression of its intrinsic AmpC gene can result in phenotypic resistance patterns indistinguishable from plasmid-mediated resistance. In conjunction with whole- genome sequencing (WGS), we describe the development and performance of a novel melt-curve PCR to identify the two most prevalent plasmid-mediated AmpC gene families: CIT and DHA. We then describe phenotypic testing algorithms that incorporate this PCR and can differentiate these from non-acquired resistance in E. coli . It is important to distinguish these, not only to spare patients from unnecessarily being treated with infection control precautions, but also to identify plasmid-mediated genes, especially of the DHA family, that have been associated with inducible drug resistance to third- generation cephalosporins.