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Mechanisms Involved in the Active Secretion of CTX-M-15 β-Lactamase by Pathogenic Escherichia coli ST131

Severine Rangama, Ian D. E. A. Lidbury, Jennifer M. Holden, Chiara Borsetto, Andrew R. J. Murphy, Peter M. Hawkey, Elizabeth M. H. Wellington

2021Antimicrobial Agents and Chemotherapy18 citationsDOIOpen Access PDF

Abstract

, which encodes an extended-spectrum beta-lactamase (ESBL). While studying antimicrobial resistance (AMR) in the environment, we isolated several strains of E. coli ST131 downstream of a wastewater treatment plan (WWTP) in a local river. These isolates were surviving in the river sediment, and characterization proved that a multiresistant phenotype was evident. Here, we show that E. coli strain 48 (river isolate ST131) provided a protective effect against a third-generation cephalosporin (cefotaxime) for susceptible E. coli strain 33 (river isolate ST3576) through secretion of a functional ESBL into the growth medium. Furthermore, extracellular ESBL activity was stable for at least 24 h after secretion. Proteomic and molecular genetic analyses identified CTX-M-15 as the major secreted ESBL responsible for the observed protective effect. In contrast to previous studies, outer membrane vesicles (OMVs) were not the route for CTX-M-15 secretion. Indeed, mutation of the type I secretion system led to a significant reduction in the growth of the ESBL-producing strain as well as a significantly reduced ability to confer protective effect. We speculate that CTX-M-15 secretion, mediated through active secretion using molecular machinery, provides a public goods service by facilitating the survival of otherwise susceptible bacteria in the presence of cefotaxime.

Topics & Concepts

Escherichia coliMicrobiologyCefotaximeSecretionBiologyAntibiotic resistanceBacterial outer membraneAntimicrobialBacteriaPathogenic Escherichia coliCephalosporinAntibioticsGeneGeneticsBiochemistryAntibiotic Resistance in BacteriaBacterial biofilms and quorum sensingBacterial Genetics and Biotechnology
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