dc.description.abstract | Background: The success of Enterococcus faecium and E. faecalis evolving as multi-resistant nosocomial pathogens is associated with their ability to acquire and share adaptive traits, including
antimicrobial resistance genes encoded by mobile genetic elements (MGE). Here, we
investigate this mobilome in successful hospital associated genetic lineages, E. faecium
sequence type (ST)17 (n=10) and ST78 (n=10), E. faecalis ST6 (n=10) and ST40 (n=10) by
DNA microarray analyses.
Results: The hybridization patterns of 272 representative targets including plasmid backbones (n=85), transposable elements (n=85), resistance determinants (n=67), prophages (n=29), and
clustered regularly interspaced short palindromic repeats (CRISPR)-cas sequences (n=6)
separated the strains according to species, and for E. faecalis also according to STs. RCR-,
Rep_3-, RepA_N- and Inc18-family plasmids were highly prevalent and with the exception
of Rep_3, evenly distributed between the species. There was a considerable difference in the
replicon profile, with rep17/pRUM, rep2/pRE25, rep14/EFNP1 and rep20/pLG1 dominating in E. faecium and rep9/pCF10, rep2/pRE25 and rep7 in E. faecalis strains. We observed an overall high
correlation between the presence and absence of genes coding for resistance towards
antibiotics, metals, biocides, and their corresponding MGEs as well as their phenotypic
antimicrobial susceptibility pattern. Although most IS families were represented in both E.
faecalis and E. faecium, specific IS elements within these families were distributed in only
one species. The prevalence of IS256-, IS3-, ISL3-, IS200/IS605-, IS110-, IS982-, and IS4-
transposases was significantly higher in E. faecium than E. faecalis, and that of IS110-,
IS982- and IS1182-transposases in E. faecalis ST6 compared to ST40. Notably, the
transposases of IS981, ISEfm1 and IS1678 that have only been reported in few enterococcal
isolates were well represented in the E. faecium strains. E. faecalis ST40 strains harboured
possible functional CRISPR-Cas systems, and still resistance and prophage sequences were
generally well represented.
Conclusions: The targeted MGE were highly prevalent among the selected STs, underlining their potential importance in the evolution of hospital-adapted lineages of enterococci. Although the
propensity of inter-species HGT must be emphasized, the considerable species-specificity of
these MGEs indicates a separate vertical evolution of MGE within each species, and for E.
faecalis within each ST. | en_US |