Abstract
ObjectivesTo describe the molecular characteristics of beta-lactamases in bloodstream-infection Escherichia coli isolated from elderly patients, and to determine the genotypic patterns of blaCMY–2 and blaADC–162.MethodsA total of 50 bloodstream-infection E. coli isolates were obtained from patients aged > 50 years at Shanghai Sixth People’s Hospital South Campus during 2015–2018. The isolates were subjected to beta-lactamase detection using phenotypic and molecular methods. Beta-lactamase genes were verified by sequencing and the phylogenetic relationships of the isolates were analyzed by multilocus sequence typing (MLST). The transferability of plasmids carrying blaCMY–2 and blaADC–162 genes was verified by conjugation experiments and plasmid replicon typing.ResultsEight beta-lactamase subtypes were detected in 50 isolates of bloodstream-infection E. coli. blaTEM–1 (21/50) was the most common beta-lactamase gene, followed by blaCTX–M–14 (8/50), blaOXA–27 (5/50), blaCTX–M–27 (3/50), blaCTX–M–65 (1/50), blaADC–162 (1/50), and blaCMY–2 (1/50). Of these, blaADC–162 (ST95-A), and blaCMY–2 (ST95-B2) have not previously been reported in bloodstream-infection E. coli. In 21 isolates, beta-lactamase genes were located on conjugative plasmids belonging to incompatibility groups FrepB (n = 7), FIA (n = 1), FIC (n = 2), K (n = 8), N (n = 1), and I (n = 1), and blaCTX–M was associated with the common elements ISEcp1, IS903, and IS26, but with special sequences (region V, region Y, and region W) for ISEcp1 in 14 isolates.ConclusionTo the best of our knowledge, this study provides the first molecular characterization of beta-lactamase genes in E. coli isolated from the bloodstream in elderly patients. Beta-lactamase genes were detected at a relatively high frequency in elderly patients with bloodstream E. coli infections. Plasmid replicon analysis showed that horizontal dissemination of beta-lactamase genes was mainly mediated by IncK and IncF plasmids, which could encode multidrug resistance genes. The study also provides the first report of ISAba1-blaADC–162-tnpA and ISEcp1-blaCTX–M–14-IS903-blaCMY–2-blc-sugE in E. coli, and demonstrates IncF plasmid-mediated blaADC–162 and blaCMY–2 gene dissemination among bacteria.
Highlights
Escherichia coli is commonly isolated from clinical bloodstream infections
Fifty bloodstream-infection E. coli isolates were obtained from elderly patients
We characterized the extended-spectrum beta-lactamase (ESBL) and AmpC phenotypes and genotypes of beta-lactamase-producing E. coli blood isolates from patients in China from 2014 to 2018. These results provide the first extensive molecular report of plasmidmediated ESBL and AmpC beta-lactamase-producing E. coli strains isolated from the bloodstream in elderly patients
Summary
Escherichia coli is commonly isolated from clinical bloodstream infections. It is referred to as extraintestinal pathogenic E. coli (Hung et al, 2019) and is usually multidrug-resistant, potentially leading to sepsis and even death of infected patients (van der Mee-Marquet et al, 2015). BlaTEM were the first beta-lactamase genes found in Gram-negative bacteria They are transferred by plasmids, and more than 200 subtypes have been identified, mainly encoding enzymes that hydrolyze penicillin and first generation cephalosporins (Medeiros, 1984; Salverda et al, 2010; Clasen et al, 2019). We carried out phenotypic and genotypic analyses of bloodstream-infection E. coli in a tertiary hospital in China to elucidate the genetic environment in selected isolates in relation to different beta-lactamase types on plasmids in different incompatibility groups. This analysis of the genetic context of the beta-lactamase genes may help to clarify their acquisition, with regard to their origin and further dissemination
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