Project description:The Yersinia adhesin YadA is the prototype of a novel class of bacterial adhesins which form oligomeric lollipop-like structures and are anchored in the outer membrane by the C terminus. For YadA, six different regions (R) or domains (D) are predicted from the amino acid sequence: the N-terminal leader sequence, head-D, neck-D, stalk-D, linking-R, and a C-terminal transmembrane region consisting of four beta-strands. To identify structural and functional features of these domains, we performed in-frame deletion mutagenesis and constructed N-terminally tagged YadA variants. Diverse YadA variants were analyzed for outer membrane localization, surface exposure, oligomerization adhesion properties, and ability to protect against complement-mediated lysis. We demonstrated that (i) the C-terminal region (amino acids [aa] 353 to 422) is sufficient for outer membrane insertion and formation of trimers in the outer membrane; (ii) the head, neck, and stalk domains (aa 26 to 330) are surface exposed, forming a passenger domain; and (iii) the linking region (aa 331 to 369) is responsible for outer membrane translocation of the passenger domain. Thus, YadA meets all the criteria of an autotransporter. The same may be true for all other members of the YadA family, forming a subfamily of surface-attached oligomeric autotransporters. Moreover, in-frame truncation mutagenesis suggested that the head and neck domains together form the YadA-binding module which is located on the top of the stalk. However, the YadA-binding module did not confer serum resistance. Mutants lacking the head and neck domain were resistant to complement-mediated lysis. In-frame truncation of the stalk domain did not result in significant attenuation of the mutant in an orogastric mouse infection model.

Project description:Several bacterial pathogens including Neisseria gonorrhoeae bind the human serum glycoprotein vitronectin. We aimed at defining the gonococcal receptor for vitronectin. Ligand blots demonstrated that vitronectin bound specifically to the heparin-binding outer-membrane protein OpaA, but that coating OpaA with the sulphated polysaccharide heparin was required for the interaction to occur. Bound vitronectin could be dissociated from OpaA-heparin-vitronectin complexes by the addition of excess heparin, indicating that sulphated polysaccharides provided the main linkage between the two proteins. Binding assays with intact micro-organisms substantiated the requirement of sulphated polysaccharides such as heparin and dextran sulphate for the efficient binding of vitronectin to OpaA+ gonococci. This was underscored by the increased binding of vitronectin to gonococci that had been preincubated with saturating concentrations of dextran sulphate, as opposed to the inhibition of vitronectin binding observed when bacteria were incubated simultaneously with vitronectin and saturating concentrations of dextran sulphate. Binding assays with dextran sulphates of various sizes indicated that vitronectin binding correlated with the size of the polysaccharide rather than with the amount of OpaA produced by the bacteria. The inability of zero-length cross-linking agents to couple vitronectin to OpaA provided further evidence that sulphated polysaccharides formed the linkage between vitronectin and OpaA. Infection experiments demonstrated that proteoglycan-deficient Chinese hamster ovary cells efficiently internalized dextran sulphate/vitronectin-coated gonococci, suggesting that soluble sulphated polysaccharides could substitute for cell surface glycosaminoglycans in the internalization process. On the basis of our results, we propose a novel mechanism of vitronectin binding in which sulphated polysaccharides act as molecular bridges, linking the glycosaminoglycan-binding sites of vitronectin and gonococcal OpaA.

Project description:A multiplex PCR method for rapid and sensitive diagnosis, differentiating three pathogenic Yersinia groups such as the highly pathogenic Y. enterocolitica, including serotype O8, low pathogenic Y. enterocolitica, and Y. pseudotuberculosis, was developed. Four primer pairs were chosen to detect the genes fyuA, ail, inv, and virF, responsible for the virulence in pathogenic Yersinia species. Under the multiplex PCR conditions, the unique band patterns for the highly pathogenic Y. enterocolitica, low pathogenic Y. enterocolitica, and Y. pseudotuberculosis were generated from Yersinia strains. The detection limit of this method was 101-103 CFU per reaction tube. This multiplex PCR method could detect highly pathogenic Y. enterocolitica O8 from the wild rodent fecal samples that were culture-positive. Therefore, the new multiplex PCR method developed in this study is a useful tool for rapid and sensitive diagnosis, distinguishing three pathogenic Yersinia groups.

Project description:The Yersinia adhesin A (YadA) is a collagen-binding trimeric autotransporter of Yersinia enterocolitica, an enteropathogen that causes a range of gastroenteric and systemic diseases, and YadA is essential for Y. enterocolitica virulence. Although previous studies suggest a specific binding site in collagen for YadA, we found that recombinant YadA binds to both major cyanogen bromide fragments of collagen type II and the collagen-like model peptide (Pro-Hyp-Gly)(10) [(POG)(10)]. To further characterise the YadA-collagen interaction, we investigated the binding of YadA to (POG)(10) and three other model peptides, (Pro-Pro-Gly)(10) which lacks the hydroxyl groups of (POG)(10), T3-785 which contains a stretch of the collagen type III sequence and Gly(-) which is similar to (POG)(10) but lacks the central glycine. All the peptides except Gly(-) adopt a collagen-like triple-helical conformation at room temperature. All three triple-helical peptides bound to YadA, with (POG)(10) being the tightest, whereas binding of Gly(-) was hardly detectable. The affinity of (POG)(10) for YadA was 0.28 microM by isothermal titration calorimetry and 0.17 microM by surface plasmon resonance (SPR), similar to that of collagen type I. Our results show that a collagen-like triple-helical conformation, strengthened by the presence of hydroxyproline residues, is both necessary and sufficient for YadA binding.

Project description:Most Yersinia enterocolitica strains are resistant to beta-lactam antibiotics due to the production of one or two chromosomally encoded beta-lactamases. Strain Y56 is a Y. enterocolitica O:3 serotype natural isolate that is resistant to moderate amounts of penicillins and that produces a single class A beta-lactamase. To select mutants with increased levels of resistance to beta-lactam antibiotics, strain Y56 was grown on plates containing increasing amounts of ampicillin, and variants resistant to up to 500 micro g of ampicillin per ml were obtained. Chromosomal DNA from hyperresistant isolates was analyzed by Southern hybridization with a blaA-specific probe to detect gene rearrangements. The use of pulsed-field gel electrophoresis revealed that the increase in the resistance level correlated with the amplification in tandem of a DNA fragment of about 28 kb containing the blaA gene. The phenotype of these isolates was not stable, and they recovered the basal low resistance level when the ampicillin used for selection was withdrawn from the growth medium. This loss of resistance was followed by the recovery of the original chromosomal structure. To understand this amplification process, the 28-kb amplification unit was cloned, and the ends were sequenced. The analysis of these sequences did not reveal the presence of either repeats or transposable elements to explain this process. However, we found short sequences similar to some DNA gyrase target sequences that have been described. In addition, we observed that the frequency of appearance of ampicillin-hyperresistant isolates by amplification of the blaA locus was lowered in the presence of the gyrase inhibitor novobiocin. These findings suggest that the DNA gyrase could be involved in this amplification event.

Project description:To study phage-mediated gene transfer in Yersinia, the ability of Yersinia phages to transduce naturally occurring plasmids was investigated. The transduction experiments were performed with a temperate phage isolated from a pathogenic Yersinia enterocolitica strain and phage mixtures isolated from sewage. Small plasmids (4.3 and 5.8 kb) were transduced at a frequency of 10(-5) to 10(-7)/PFU. However, we could not detect the transduction of any indigenous virulence plasmid (ca. 72 kb) in pathogenic Yersinia strains. Transductants obtained by infection with the temperate phage were lysogenic and harbored the phage genome in their chromosomes.

Project description:The nucleotide sequence of a 3.1-kb region from the chromosome of the Yersinia enterocolitica O:5b strain IP97 containing the gene for an inducible chromosomal cephalosporinase has been determined. The cephalosporinase gene was homologous to other enterobacterial chromosomal cephalosporinase genes, and it was accompanied by a gene homologous to the regulatory ampR gene. The arrangement of genes in the Y. enterocolitica ampCR unit was identical to that in the Enterobacter cloacae and Citrobacter freundii ampCR units.

Project description:We developed a multilocus sequence typing (MLST) scheme and used it to study the population structure and evolutionary relationships of three pathogenic Yersinia species. MLST of these three Yersinia species showed a complex of two clusters, one composed of Yersinia pseudotuberculosis and Yersinia pestis and the other composed of Yersinia enterocolitica. Within the first cluster, the predominant Y. pestis sequence type 90 (ST90) was linked to Y. pseudotuberculosis ST43 by one locus difference, and 81.25% of the ST43 strains were from serotype O:1b, supporting the hypothesis that Y. pestis descended from the O:1b serotype of Y. pseudotuberculosis. We also found that the worldwide-prevalent serotypes O:1a, O:1b, and O:3 were predominated by specific STs. The second cluster consisted of pathogenic and nonpathogenic Y. enterocolitica strains, two of which may not have identical STs. The pathogenic Y. enterocolitica strains formed a relatively conserved group; most strains clustered within ST186 and ST187. Serotypes O:3, O:8, and O:9 were separated into three distinct blocks. Nonpathogenic Y. enterocolitica STs were more heterogeneous, reflecting genetic diversity through evolution. By providing a better and effective MLST procedure for use with the Yersinia community, valuable information and insights into the genetic evolutionary differences of these pathogens were obtained.

Project description:In order to detect genes that are directly or indirectly affected by the inactivation of the ybeY gene the transcriptomes of the WT and ybeY bacteria grown at 22°C and 37°C were determined. The two temperatures were chosen since temperature is an important cue regulating the virulence genes. When comparing the WT and ybeY mutant strain transcriptomes of bacteria grown at 22°C we found changes in the expression of 350 genes in the ybeY bacteria, out of which 121 (34.6%) were up-regulated and 229 (65.4%) down-regulated. At 37°C 334 genes in the ybeY bacteria showed changes, out of which 48 (14.4%) were up-regulated and 286 (85.6%) down-regulated. Expression of 92 genes was changed at both temperatures, of these 92 genes, 12 were up- and 80 down-regulated.

Project description:To assess the effects of rfaH mutation on gene expression, RNA sequencing was carried out using the RNA extracted from rfaH mutant and wild type bacteria cultivated at both 22˚C and 37˚C. Additionally, to differentiate between genes affected directly by the rfaH mutation and those affected by the O-antigen negative phenotype, the Y. enterocolitica O:3 strain YeO3-R1 missing the O-antigen was included in the RNA-sequencing study. At RT-grown bacteria altogether 77 (45 up- and 32 down-regulated) differentially expressed genes were identified. At 37ºC, on the other hand, 44 genes were differentially expressed; 14 genes up- and 30 genes down-regulated. The RNA-sequencing data of YeO3-R1 was available only for bacteria grown at 22˚C and the comparison revealed that 22 of the 102 genes were similarly differentially expressed both in rfaH and YeO3-R1 mutants. To detect genes regulated directly or indirectly by Hfq, deep RNA-seq was performed with RNA isolated from Y. enterocolitica wild-type strain 6471/76 and the YeO3-hfq::Km strain. Total RNA was isolated from two biological replicas of bacteria grown in LB to logarithmic phase (OD600 = 0.6) at two different temperatures, RT and 37°C. knocking out of Hfq affected the transcription of 346 genes at RT and 541 genes at 37°C, i.e., ca. 8 and 12.5 % of the Y. enterocolitica genes, respectively. At RT, of the 346 genes 216 genes were down- and 132 up-regulated, and at 37°C, of the 541 genes, 96 were down- and 445 up-regulated. A total of 95 genes were differentially expressed both at RT and 37°C; 27 showed down- and 59 up-regulated. For 9 genes opposite changes took place depending on the growth temperature.