Project description: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 mobile genetic elements (MGE) encoding antimicrobial resistance. Here, we define the mobilome in representative successful hospital associated genetic lineages, E. faecium ST17 (n=10) and ST78 (n=10), E. faecalis ST6 (n=10) and ST40 (n=10) using DNA microarray analyses. The hybridization patterns of 272 targets representing plasmid backbones (n=85), transposable elements (n=85), resistance determinants (n=67), prophages (n=29), and CRISPR-cas sequences (n=6) separated the strains according to species, and for E. faecalis also according to STs. Although plasmids belonging to the RCR-, Rep_3-, RepA_N- and Inc18-families were well represented with no significant differences in prevalence, the presence of specific replicon classes differed highly between the species; E. faecium was dominated by rep17/pRUM, rep2/pRE25, rep14/EFNP1 and rep20/pLG1 and E. faecalis by rep9/pCF10, rep2/pRE25 and rep7. Tn916-elements conferring tetracycline resistance (tetM) were found in all E. faecalis strains, but only in two E. faecium strains. A significant higher prevalence of IS256-, IS3-, ISL3-, IS200/IS605-, IS110-, IS982-, and IS4-transposases were detected in E. faecium, and of IS110-, IS982- and IS1182-transposases in E. faecalis ST6 compared to ST40. Notably, the transposases of IS981, ISEfm1 and IS1678 which 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. Gene targets defined as the enterococcal mobilome, including plasmids, IS elements and transposons, resistance determinants, prophage sequences and CRISPR-Cas systems were highly prevalent, underlining their potential importance in the evolution of hospital associated STs. An association between axe-txe to the RepA_N-family and ω-ε-ζ to the Inc18-family, implicates the contribution of TA-systems in stable plasmid maintenance carrying virulence and resistance determinants in enterococci. The concurrent presence of defined MGE and their associated resistance markers was generally confirmed and illustrates the importance of horizontal gene transfer in the development of multidrug resistant enterococci.

Project description:Enterococcus faecalis is a common commensal organism and a prolific nosocomial pathogen that causes biofilm-associated infections. Numerous E. faecalis OG1RF genes required for biofilm formation have been identified, but few studies have compared genetic determinants of biofilm formation and biofilm morphology across multiple conditions. Here, we cultured transposon (Tn) libraries in CDC biofilm reactors in two different media and used Tn sequencing (TnSeq) to identify core and accessory biofilm determinants, including many genes that are poorly characterized or annotated as hypothetical. Multiple secondary assays (96-well plates, submerged Aclar, and MultiRep biofilm reactors) were used to validate phenotypes of new biofilm determinants.

Project description: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 mobile genetic elements (MGE) encoding antimicrobial resistance. Here, we define the mobilome in representative successful hospital associated genetic lineages, E. faecium ST17 (n=10) and ST78 (n=10), E. faecalis ST6 (n=10) and ST40 (n=10) using DNA microarray analyses. The hybridization patterns of 272 targets representing plasmid backbones (n=85), transposable elements (n=85), resistance determinants (n=67), prophages (n=29), and CRISPR-cas sequences (n=6) separated the strains according to species, and for E. faecalis also according to STs. Although plasmids belonging to the RCR-, Rep_3-, RepA_N- and Inc18-families were well represented with no significant differences in prevalence, the presence of specific replicon classes differed highly between the species; E. faecium was dominated by rep17/pRUM, rep2/pRE25, rep14/EFNP1 and rep20/pLG1 and E. faecalis by rep9/pCF10, rep2/pRE25 and rep7. Tn916-elements conferring tetracycline resistance (tetM) were found in all E. faecalis strains, but only in two E. faecium strains. A significant higher prevalence of IS256-, IS3-, ISL3-, IS200/IS605-, IS110-, IS982-, and IS4-transposases were detected in E. faecium, and of IS110-, IS982- and IS1182-transposases in E. faecalis ST6 compared to ST40. Notably, the transposases of IS981, ISEfm1 and IS1678 which 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. Gene targets defined as the enterococcal mobilome, including plasmids, IS elements and transposons, resistance determinants, prophage sequences and CRISPR-Cas systems were highly prevalent, underlining their potential importance in the evolution of hospital associated STs. An association between axe-txe to the RepA_N-family and M-OM-^I-M-NM-5-M-NM-6 to the Inc18-family, implicates the contribution of TA-systems in stable plasmid maintenance carrying virulence and resistance determinants in enterococci. The concurrent presence of defined MGE and their associated resistance markers was generally confirmed and illustrates the importance of horizontal gene transfer in the development of multidrug resistant enterococci. All together 272 DNA targets representing mobile genetic elements and antimicrobial resistance determinants associated with enterococci were spotted on a CustomArray 4x2K microarray from CustomArray Inc. Each fourplex microarray slide contain four identical sectors that were stripped and re-hybridized up to six times. Each target was represented by 1-5 probes each. The total of 1250 probes were Tm balanced by altering their lenght between 35 and 40 nucleotides. Total DNA of 41 samples were hybridized and a control strain, the fully sequenced E. faecalis V585, was included in one of the four sectors on each slide in each set of hybridization to monitor the overall array and hybridization quality.

Project description:Two cultures, one grown on cholic acid and the other on pyruvate.

Project description:Genome-wide changes in hepatic gene expression in wild-type mice on a diet supplemented with cholic acid, a naturally occurring bile acid

Project description:Two cultures, one grown on cholic acid and the other on pyruvate. 3x dual-channel slides.

Project description:Transcriptional profiling of changes in global hepatic gene expression in mice lacking Foxa2 in the liver (Foxa2loxP/loxP;Alfp.Cre) on a diet supplemented with cholic acid, a naturally occurring bile acid

Project description:Effects of cholic acid on Rhodococcus sp. RHA1

Project description:Tolerance of gut commensals to bile salt exposure is an important feature for their survival in and colonization of the intestinal environment. A transcriptomic approach was employed to study the response of Bifidobacterium breve UCC2003 to bile, allowing the identification of a number of bile-induced genes with a range of predicted functions. The potential role of a selection of these bile-inducible genes in bile protection was determined by heterologous expression in Lactococcus lactis with subsequent characterization of the recombinant strains. Genes coding for three transport systems belonging to the MFS superfamily, Bbr_0838, Bbr_0832 and Bbr_1756, and three ABC-type transporters, Bbr_0406-0407, Bbr_1804-1805 and Bbr_1826-1827, along with the dps gene Bbr_0016, were thus analyzed. L. lactis cells expressing selected transporters exhibited enhanced resistance and survival to bile. In addition, L. lactis cells expressing the Dps protein also demonstrated a higher resistance to bile. This work significantly improves our understanding as to how bifidobacteria respond to and survives bile exposure. In order to investigate differences in global gene expression upon growth or exposure of B. breve UCC2003 to cholic acid and ox-gall compared to normal growing cells, DNA microarray experiments were performed. Total RNA was isolated from B. breve UCC2003 cultures under normal conditions and cultures grown on or exposed to cholic acid and ox-gall. All experiments were performed as single experiments and targets where confirmed with QRT-PCR.

Project description:In addition to their role as a digestive detergent, bile acids have the ability to modulate the expression of genes. The intestinal content of cholic acids (CA) fluctuated in response to the daily feeding-fasting cycle; therefore, we hypothesized that the temporal accumulation of CA may affect the expression of genes in intestinal epithelial cells. To screen bile acid-regulated genes, we performed oligonucleotide microarray analyses using RNA isolated from the CA-treated intestinal cells of mice. Several types of genes were screened as candidates for bile acid-regulated genes. They included genes that encoded lipid metabolism-related proteins, receptors, transcriptional factors, and plasma-membrane transporters. Total 2 samples were derived from [1] vehicle (0.05% DMSO and 0.25% ethanol)-treated intestinal epithelial cells of mice and [2] cholic acid (CA)-treated intestinal epithelial cells of mice.