Project description:Staphylococcus aureus is a notorious bacterial pathogen that causes a broad range of human diseases, and isolates that are resistant to several antibiotic classes including last resort antibiotics like vancomycin and daptomycin complicate the situation. We characterized S. aureus VC40, a strain that shows full resistance to vancomycin (MIC of 64 µg/ml) and daptomycin (MIC of 4 µg/ml) as well as a decreased susceptibility to further cell wall active agents. Genome sequencing revealed mutations in genes encoding the histidine kinases WalK and VraS that control cell envelope related processes and gene expression profiling indicated the induction of the respective regulons in strain VC40. Reconstitution of the mutations in walK or vraS into the susceptible S. aureus NCTC 8325 background resulted in a considerably increased resistance to vancomycin and daptomycin with MICs surpassing the clinical breakpoints for these antibiotics, thereby generating vancomycin-intermediate S. aureus (VISA) strains. As observed for S. aureus VC40, the walKwalk and vraS mutations also led to an increased expression of the respective regulons in the NCTC 8325 background. Phenotypic studies showed that S. aureus VC40 as well as the walKwalk and vraS mutants of strain NCTC 8325 were characterized by a significantly thickened cell wall, a decreased growth rate, a reduced autolytic activity and an increased resistance to lysostaphin-induced lysis. These results demonstrate that the WalK and VraS histidine kinases act as major switches which allow S. aureus to rapidly develop vancomycin resistance up to the VISA level via mutation of one single gene locus and concomitantly contribute to cross-resistance to other antibiotics including the last resort antibiotic daptomycin.

Project description:The common research strain S. aureus NCTC 8325-4 was subjected to serial passage in increasing concentrations of ramoplanin. The resulting strain, RSPA16, had reduced susceptibility to not only ramoplanin but vancomycin and nisin as well. Electron microscopy revealed that the cell wall of RSPA16 was double the thickness of the susceptible progenitor strain, a phenotype commonly observed in vancomycin intermediate resistant S. aureus (VISA) strains. RSPA16 was also less susceptible to lysis induced by Triton X-100 than its progenitor strain. Transcriptional profiling experiments were performed with NCTC 8325-4 and RSPA16 without antibiotic exposure and exposed to ramoplanin. Increased expression of genes associated with cell wall stress was observed when either strain was treated with ramoplanin. We also observed that treatment with ramoplanin altered of the expression levels of numerous genes encoding proteins involved with amino acid biosynthesis, central metabolic pathways, nucleotide biosynthesis, iron acquisition, ABC transporters and regulation of transcription. Comparison of the transcriptional profiles of RSPA16 and NCTC 8325-4 not exposed to ramoplanin revealed alterations in the expression of levels of several genes involved with biosynthesis of teichoic acids, biosynthesis of peptidoglycan, central metabolism, DNA replication, nucleotide biosynthesis, iron acquisition, ABC transporters, and regulation of transcription. These transcriptional profiles provide insights into the possible sources of the reduced susceptibility of RSPA16 to peptide antibiotics. Mid log phase (OD620 = 0.4) batch TSB cultures of ramoplanin susceptible (NCTC 8325-4) and resistant (RSPA16) strains of S. aureus were exposed to ramoplanin for 30 minutes at 37 C. Untreated controls were performed for each strain as well. The transcriptional response was determined using Affymetrix Gene Chip Arrays. This study also examines the transcriptional alterations which confer reduced susceptibility to ramoplanin as the transcriptional profiles of NCTC 8325-4 and RSPA16 each untreated were compared.

Project description:The common research strain S. aureus NCTC 8325-4 was subjected to serial passage in increasing concentrations of ramoplanin. The resulting strain, RSPA16, had reduced susceptibility to not only ramoplanin but vancomycin and nisin as well. Electron microscopy revealed that the cell wall of RSPA16 was double the thickness of the susceptible progenitor strain, a phenotype commonly observed in vancomycin intermediate resistant S. aureus (VISA) strains. RSPA16 was also less susceptible to lysis induced by Triton X-100 than its progenitor strain. Transcriptional profiling experiments were performed with NCTC 8325-4 and RSPA16 without antibiotic exposure and exposed to ramoplanin. Increased expression of genes associated with cell wall stress was observed when either strain was treated with ramoplanin. We also observed that treatment with ramoplanin altered of the expression levels of numerous genes encoding proteins involved with amino acid biosynthesis, central metabolic pathways, nucleotide biosynthesis, iron acquisition, ABC transporters and regulation of transcription. Comparison of the transcriptional profiles of RSPA16 and NCTC 8325-4 not exposed to ramoplanin revealed alterations in the expression of levels of several genes involved with biosynthesis of teichoic acids, biosynthesis of peptidoglycan, central metabolism, DNA replication, nucleotide biosynthesis, iron acquisition, ABC transporters, and regulation of transcription. These transcriptional profiles provide insights into the possible sources of the reduced susceptibility of RSPA16 to peptide antibiotics.

Project description:Daptomycin (DAP) is the last-resort treatment for heterogeneous Vancomycin-Intermediate-Staphylococcus aureus (hVISA) and Vancomycin-Intermediate-S.aureus (VISA), and DAP-resistance onset which is also linked to reduced vancomycin susceptibility, is an increasing public health problem. To have more insight into the mechanisms of daptomycin resistance, the comparative transcriptomes of two DAP-R (1C-3B) clinical isogenic isolates vs their DAP-S (1A-3A) counterparts were investigated by Illumina RNA-seq, the Rockhopper tool, computational filtering analyses and bioinformatic tools.

Project description:Investigation of baseline transcription activity of two different clinical isolates of Staphylococcus aureus with two different susceptibility levels to the antibiotics Vancomycin and Daptomycin. Two different strains of Staphylococcus aureus, one that is fully Vancomycin and Daptomycin Sensitive and one with decreased Vancomycin and Daptomycin Sensitivity - grown to mid-log phase in rich broth.

Project description:The phenotype “intermediate vancomycin resistance” in Staphylococcus aureus (CLSI: MIC = 4-8 mg/L) has been assigned to changes that lead to alterations in cell wall synthesis and morphology. Most vancomycin intermediately resistant S. aureus (VISA) strains are characterised by an increased cell wall thickness as a consequence of an activated cell wall biosynthesis and decreased autolysis. The purpose of this study was to analyse the genetic basis of the vancomycin resistance mechanism of the clinical VISA isolate SA137/93A and its spontaneous mutant strain SA137/93G. The methicillin-resistant S. aureus (MRSA) SA137/93A was isolated from a tracheal secretion and displays heterogeneous intermediate vancomycin resistance (hVISA strain, MIC: 8 mg/L in BHI). Subculturing in presence of 6 mg/L vancomycin generated a mutant with homogeneous intermediate vancomycin resistance, that showed an MIC value of 16 mg/L in BHI and was designated SA137/93G. PFGE profiles and phage typing of the strains showed that they were members of the Iberian clone (ST247), which was prevalent in Germany in the early nineties under the designation “Northern German epidemic strain”. Both strains possess a thickened cell wall. However, the vancomycin resistance of strain SA137/93A is most probably enhanced by an increased amount of free D-Ala-D-Ala termini in the cell wall, which is due to decreased crosslinking, whereas the mutant strain SA137/93G shows normal crosslinking. Moreover, strain SA137/93A displays an increased expression of the essential two-component system yycFGHI as a consequence of an IS256 insertion in the promoter region, while strain SA137/93G is characterised by an insertion of IS256 into the gene tcaA. Although both insertions were shown to correlate with a decrease in susceptibility to vancomycin, the difference in the vancomycin resistance level of the strain pair could be mainly attributed to the disruption of tcaA in the mutant.This study was conducted to identify resistance mechanisms that both strains might have in common. To this end we compared the transcriptomes of both strains with that of the closely related vancomycin susceptible MRSA/VSSA strain SA1450/94 (MIC: 2 mg/L). We found that the genes of the capsule biosynthesis were the only genes with higher expression in both VISA strains. Keywords: strain comparison

Project description:Coordinated protein-coding sequence transcriptional responses of Staphylococcus aureus to antimicrobial exposure are well described but little is known of the role of bacterial non-coding, small RNAs (sRNAs) in these responses. Here we used RNAseq to investigate the sRNA response of the epidemic multiresistant hospital ST239 S. Aureus strain JKD6009 and its vancomycin-intermediate clinical derivative, JKD6008, after exposure to four antibiotics representing the major classes of antimicrobials used to treat methicillin-resistant S. Aureus infections. These agents included vancomycin, linezolid, ceftobiprole, and tigecycline. We identified 410 potential sRNAs (sRNAs) and then compared global sRNA and mRNA expression profiles at 2 and 6 hours, without antibiotic exposure, and after exposure to 0.5 x MIC for each antibiotic, for both JKD6009 (VSSA), and JKD6008 (VISA). Two strains were used (JKD6009, vancomycin-susceptible S. Aureus; JKD6008, in vivo derived vancomycin-intermediate S. Aureus). The complete JKD6008 genome seqeuce was used as the reference. Two time points, 2 hours and 6 hours after culture in Mueller Hinton broth. Strains were exposed to no antibiotic, or 0.5 x MIC for 10 mins for the following antibiotics; vancomycin, linezolid, ceftobiprole, tigecycline. RNA isolation procedures enriched for mRNA or sRNA. The 40 cDNA libraries were sequenced using a whole flowcell (8 lanes) in an Illumina genome analyzer GAII for 36 cycles. Data was analyzed using the BioConductor package limma, and by applying non-negative matrix factorization to determine the impact of antibiotic exposure on the sRNA and mRNA transcriptional profiles.

Project description:Resistance to antibiotics is an emerging problem and necessitates novel antibacterial therapies. Cervimycins A‒D are natural products of Streptomyces tendae HKI 0179 with promising activity against multidrug resistant staphylococci and vancomycin resistant enterococci. We studied the mode of action of cervimycin C and D by selection of cervimycin resistant (CmR) Staphylococcus aureus strains. Genome sequencing of CmR mutants revealed amino acid exchanges in the essential histidine kinase WalK, the Clp protease proteolytic subunit ClpP or the Clp ATPase ClpC, and the heat shock protein DnaK. Interestingly, all characterized cervimycin resistant mutants harbored a combination of mutations in walK and clpP or clpC. Mutations in the Clp system abolished ClpP or ClpC activity, and the deletion of clpP rendered S. aureus but not B. subtilis cervimycin resistant. The essential gene walK was the second mutational hotspot in the cervimycin resistant S. aureus mutants, which decreased WalK activity in vitro and generated a vancomycin intermediately resistant phenotype, with a thickened cell wall, a slower growth rate, and reduced cell lysis. Transcriptomic and proteomic analysis revealed massive alterations in the CmR strains , with major alterations in the heat shock regulon, the metal ion homeostasis and the carbohydrate metabolism. Taken together, compensatory mutations in cervimycin resistant mutants induced a VISA  phenotype in S. aureus, suggesting cell wall metabolism or the ClpCP proteolytic system as primary target of the polyketide antibiotic

Project description:Investigation of baseline transcription activity of two different clinical isolates of Staphylococcus aureus with two different susceptibility levels to the antibiotics Vancomycin and Daptomycin.

Project description:Coordinated protein-coding sequence transcriptional responses of Staphylococcus aureus to antimicrobial exposure are well described but little is known of the role of bacterial non-coding, small RNAs (sRNAs) in these responses. Here we used RNAseq to investigate the sRNA response of the epidemic multiresistant hospital ST239 S. Aureus strain JKD6009 and its vancomycin-intermediate clinical derivative, JKD6008, after exposure to four antibiotics representing the major classes of antimicrobials used to treat methicillin-resistant S. Aureus infections. These agents included vancomycin, linezolid, ceftobiprole, and tigecycline. We identified 410 potential sRNAs (sRNAs) and then compared global sRNA and mRNA expression profiles at 2 and 6 hours, without antibiotic exposure, and after exposure to 0.5 x MIC for each antibiotic, for both JKD6009 (VSSA), and JKD6008 (VISA).