Project description:Ceftriaxone resistant H58 Salmonella Typhi

Project description:Horizontal gene transfer (HGT) is the major mechanism responsible for spread of antibiotic resistance. Antibiotic treatment has been suggested to promote HGT, either by directly affecting the conjugation process itself or by selecting for conjugations subsequent to DNA transfer. However, recent research suggests that the effect of antibiotic treatment on plasmid conjugation frequencies, and hence the spread of resistance plasmids, may have been overestimated. We addressed the question by quantifying transfer proteins and conjugation frequencies of a blaCTX-M-1 encoding IncI1 resistance plasmid in Escherichia coli MG1655 in the presence and absence of therapeutically relevant concentrations of cefotaxime (CTX). Analysis of the proteome by iTRAQ labeling and liquid chromatography tandem mass spectrometry revealed that Tra proteins were significantly up regulated in the presence of CTX. The up-regulation of the transfer machinery was confirmed at the transcriptional level for five selected genes. The CTX treatment did not cause induction of the SOS39 response as revealed by absence of significantly regulated SOS associated proteins in the proteome and no significant up-regulation of recA and sfiA genes. The frequency of plasmid conjugation, measured in an antibiotic free environment, increased significantly when the donor was pre-grown in broth containing CTX compared to growth without this drug, regardless of whether blaCTX-M-1 was located on the plasmid or in trans on the chromosome. The results shows that antibiotic treatment can affect expression of a plasmid conjugation machinery and subsequent DNA transfer.

Project description:SdiA is a LuxR-type protein found in some Enterobacteriaceae. SdiA encoding bacteria do not encode a luxI homolog and rely on foreign bacteria for the production of N-acyl homoserine lactones (AHLs), SdiA's ligand. The regulon of Salmonella SdiA is largely unknown. In this study, we measured the sdiA dependent transcriptional changes of two serovars of Salmonella, Typhimurium and Typhi, exposed to synthetic AHLs. This was evaluated in two experiments. First, the wild-type and sdiA mutant were grown in the presence of AHLs. In the second, sdiA mutants harboring an arabinose inducible copy of SdiA on a plasmid and vector control were grown with AHLs and arabinose. From this a putative regulon was established and confirmed with subsequent characterization experiments.

Project description:To study the gene expression response of RB170 to ceftriaxone treatment. We performed gene expression profiling analysis using data obtained from RNA-seq of 3 different ceftriaxone concentration cells at two days of treatment.

Project description:Salmonella enterica serovar Typhi producing CTX-M-15 extended spectrum β-lactamase in the Democratic Republic of the Congo

Project description:In response to osmolarity, Salmonella enterica serotype Typhi (S. Typhi) regulates genes required for Vi capsular antigen expression oppositely to those required for motility and invasion. Previous studies suggest that osmoregulation of motility, invasion and capsule expression is mediated through the RcsC/RcsD/RcsB phosphorelay system. Here we performed gene expression profiling and functional studies to determine the role of TviA, an auxiliary protein of the RcsB response regulator, in controlling virulence gene expression in S. Typhi. TviA repressed expression of genes encoding flagella and the invasion associated type III secretion system (T3SS-1) through repression of the flagellar regulators flhDC and fliZ, resulting in reduced invasion and reduced expression of FliC. Both RcsB and TviA reduced expression of flhDC, but only TviA altered flhDC expression in response to osmolarity. These data suggest that the auxiliary TviA protein integrates a new regulatory input into the RcsB regulon of S. Typhi, thereby altering expression of genes encoding flagella, the Vi antigen and T3SS-1 in response to osmolarity.

Project description:Global expression profiles of Salmonella typhi grown in the supernatant of infection and within human macrophages at 0h, 2h, 8h and 24h were obtained. Stringent analytical methods were used to compare Salmonella typhi cDNAs and revealed that known virulence factors, such as the SPI-1 and SPI-2 encoded type III secretion systems, were found to be expressed as predicted during infection by Salmonella. Intracellular Typhi expressed many genes encoding antimicrobial peptides, used the glyoxylate bypass for fatty acid utilization, and, did not induce the SOS response or the oxidative stress response. Genes coding for the flagellar apparatus, chemotaxis and the iron transport system were down-regulated in vivo. The combined use of SCOTS and microarray is an effective way to determine global bacterial gene expression profiling in the context of host infection, without the need of increasing the multiplicity of infection beyond what is seen in nature. Keywords: Time course

Project description:Human genetic diversity can reveal critical factors in host-pathogen interactions. This is especially useful for human-restricted pathogens like Salmonella enterica serovar Typhi (S. Typhi), the cause of Typhoid fever. One key dynamic during infection is competition for nutrients: host cells attempt to restrict intracellular replication by depriving bacteria of key nutrients or delivering toxic metabolites in a process called nutritional immunity. Here, a cellular genome-wide association study of intracellular replication by S. Typhi in nearly a thousand cell lines from around the world—and extensive follow-up using intracellular S. Typhi transcriptomics and manipulation of magnesium concentrations—demonstrates that the divalent cation channel mucolipin-2 (MCOLN2) restricts S. Typhi intracellular replication through magnesium deprivation. Our results reveal natural diversity in Mg2+ limitation as a key component of nutritional immunity against S. Typhi.

Project description:Transcriptional profiling of three sequenced S. enterica strains: S. Typhimurium LT2, S. Typhi CT18, and S. Typhi Ty2 in PhoP-inducing and non-inducing conditions in vitro, and compared these results to profiles of phoP-/Q- mutants derived from S. Typhimurium LT2 and S. Typhi Ty2.

Project description:To investigate the effects of ceftriaxone and cranberry pomace extract on transcriptome of extraintestinal E. coli (ExPEC)