The emergence of the phenicol-oxazolidinone-tetracycline resistance gene poxtA becomes a significant challenge for public health, since it confers a decreased susceptibility not only to the last resort drug linezolid, but also to florfenicol and doxycycline widely used in veterinary medicine. To determine the dissemination mechanism of poxtA in enterococci isolates from different healthy pigs in the swine farm, a total of 178 florfenicol-resistant enterococci isolates were collected from 400 fresh faecal swabs in a swine farm in China. The poxtA gene was detected in 11 (6.18 %) enterococci isolates, including 8 E. faecium, 2 E. hirae and 1 E. casseliflavus isolates. Whole genome sequencing indicated that the eight poxtA-harbouring E. faecium strains belonged to four different sequence types, including ST156 and three new STs, ST1818, ST1819 and ST1820. Five out of the 11 poxtA-positive enterococci isolates also harboured optrA gene. Moreover, E. casseliflavus strain DY31 co-harboured poxtA, optrA and cfr. Seven different poxtA-harbouring plasmids were obtained through Nanopore combined with Illumina sequencing. The poxtA-harbouring plasmids exhibited high genetic variation, six out of which belonged to rep2 plasmid of Inc18 family. The poxtA gene was flanked by IS1216E in the left and/or right ends.The optrA and cfr genes were located on different plasmids, respectively, but those genes could be co-transferred with poxtA gene into the recipient E. faecalis strain by electrotransformation. Our study highlights that both clonal spread and horizontal transfer mediated by Inc18 plasmid and IS1216E promote the dissemination of poxtA in enterococci isolates from different healthy pigs in the swine farm.
Keywords: Enterococci; Horizontal transfer; IS1216E; Oxazolidinone; poxtA.
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