DETECTION OF OXAZOLIDINONE RESISTANCE GENES AND CHARACTERIZATION OF GENETIC ENVIRONMENTS IN ENTEROCOCCI OF SWINE ORIGIN, ITALY
Authors Fioriti S, Morroni G, Coccitto S N, Brenciani A, Antonelli A, Di Pilato V, Baccani I, Pollini S, Cucco L, Morelli A, Paniccià M, Magistrali C F, Rossolini G M, Giovanetti E
Abstract One hundred forty-five florfenicol-resistant enterococci, isolated from swine fecal samples collected from 76 pig farms, were investigated for the presence of optrA, cfr, and poxtA genes by PCR. Thirty florfenicol-resistant Enterococcus isolates had at least one linezolid resistance gene. optrA was found to be the most widespread linezolid resistance gene (23/30), while cfr and poxtA were detected in 6/30 and 7/30 enterococcal isolates, respectively. WGS analysis also showed the presence of the cfr(D) gene in Enterococcus faecalis (n = 2 isolates) and in Enterococcus avium (n = 1 isolate). The linezolid resistance genes hybridized both on chromosome and plasmids ranging from ~25 to ~240 kb. Twelve isolates were able to transfer linezolid resistance genes to enterococci recipient. WGS analysis displayed a great variability of optrA genetic contexts identical or related to transposons (Tn6628 and Tn6674), plasmids (pE035 and pWo27-9), and chromosomal regions. cfr environments showed identities with Tn6644-like transposon and a region from p12-2300 plasmid; cfr(D) genetic contexts were related to the corresponding region of the plasmid 4 of Enterococcus faecium E8014; poxtA was always found on Tn6657. Circular forms were obtained only for optrA- and poxtA-carrying genetic contexts. Clonality analysis revealed the presence of E. faecalis (ST16, ST27, ST476, and ST585) and E. faecium (ST21) clones previously isolated from humans. These results demonstrate a dissemination of linezolid resistance genes in enterococci of swine origin in Central Italy and confirm the spread of linezolid resistance in animal settings.
Publish Date 2020
Volume 8 (12)
ISSN 2076-2607
DOI doi.org/10.3390/microorganisms8122021
URL https://www.mdpi.com/2076-2607/8/12/2021
Journal Microorganisms
Pages art. n. 2021
PMID 33348682