Susceptibility of four inbred mouse strains to a low-pathogenic isolate of <Emphasis Type="Italic">Yersinia enterocolitica</Emphasis>

EUMORPHIA (European Union Mouse Research for Public Health and Industrial Application) is a research program involved in developing new approaches in phenotyping, mutagenesis, and informatics to improve characterization of mouse models for understanding human physiology and disease. Secondary screen experiments include the development of assays to identify mice with altered susceptibility or resistance to infections. In this context we developed a new model and established a standard operating procedure for the experimental infection of mice with Yersinia (Y.) enterocolitica. In contrast with previous studies that dealt with high-pathogenic Y. enterocolitica, we used the low-pathogenic Y. enterocolitica strain E40 to analyze differences in the immune response of four strains of inbred mice (BALB/c, C3H/HeN, 129P2, C57BL/6) after oral infection. The determination of colony-forming units in Peyer’s patches and histologic analysis supported the observations that BALB/c are less able to ameliorate the infection within 21 days. The immune defense of C57BL/6 mice against Yersinia was the most effective resulting in a nearly complete elimination of bacteria after 21 days. C3H/HeN and 129P2 were intermediate. Analysis of serum immunoglobulins (Ig) by Luminex showed a significant increase of IgG2b levels 21 days after infection in all four inbred strains. The other immunoglobulins remained nearly constant. Our infection model discriminates between the efficiency of an infection at an early time point (3 days) and immunity at a later time point (21 days). It is furthermore an appropriate model to characterize genetic differences in resistance and immunity of inbred and mutant mouse lines.     

Yersinia enterocolitica O9 as a Possible Barrier Against Y. pestis in Natural Plague Foci in Ningxia, China

A survey of Yersinia spp, as related to plague control, was made in Haiyuan of Ganning loess plateau plague focus, Yanchi of Inner Mongolia plateau plague focus, and Yinchuan city, as a control area, in Ningxia, China. In Haiyuan, where the main plague reservoir was Mongolian ground squirrel (Citellus alaschanicus) living in the prairie, Y. enterocolitica O9 was frequently isolated from pigs, dogs, rodents living in and around houses, but only rarely from hare and Mongolian ground squirrel. In Yanchi, where the main plague reservoir was Mongolian gerbil (Meriones unguiculatus) living in the prairie and Y. pestis, which was isolated from rodents up to 1991, Y. enterocolitica O9 was sometimes isolated from pigs and rodents. In all areas, some strains of Y. enterocolitica O3 and Y. pseudotuberculosis serotypes 3 and 4b were also isolated from pigs, dogs, and from rodents. We propose that an epidemiological link exists between the prevalence of Y. pestis and Y. enterocolitica O9 in domestic and rodents living in these areas in China. The residential area in Haiyuan may be protected against Y. pestis by the domestic animals and rodents which acquired cross-protection against Y. pestis by infection with Y. enterocolitica O9, but this is not the case in the Yanchi district. Received: 14 February 2000 / Accepted: 17 July 2000     

Yersinia strains isolated from river water: biochemical,serological, and phage typing characteristics

Twenty-fourYersinia enterocolitica-like strains were isolated from heavily contaminated river water. Twenty-three of the strains could only be isolated on deoxycholate-hydrogen sulfidelactose agar after cold-enrichment in tryptone soya broth. Biochemically, these strains exhibited the common properties ofY. enterocolitica. However, most strains were also melibiose-, rhamnose-, raffinose-, and Simmons’ citrate-positive. Two strains fermented lactose. The serological typing showed that the strains belonged to the serotypes O:1, O:14, O:38 and O:55. Four strains had a K-antigen linked to a complex antigenic structure. Two strains were autoagglutinated. One strain was agglutinated by two different serotypes. The strains belonged to the phage types X_o and X_z.     

A Highly Specific One-step PCR Assay for the Rapid Discrimination of Enteropathogenic Yersinia enterocolitica from Pathogenic Yersinia pseudotuberculosis and Yersinia pestis

Based on differences within the yopT-coding region of Yersinia. enterocolitica, Y. pseudotuberculosis and Y. pestis, a rapid and sensitive one-step polymerase chain reaction assay with high specificity for pathogenic Y. enterocolitica was developed. By this method pathogenic isolates of Y. enterocolitica can be easily identified and discriminated from other members of this genus. The entire coding sequence of the yopT effector gene of Y. pseudotuberculosis Y36 was determined.     

YopP-Expressing Variant of Y. pestis Activates a Potent Innate Immune Response Affording Cross-Protection against Yersiniosis and Tularemia

Plague, initiated by Yersinia pestis infection, is a rapidly progressing disease with a high mortality rate if not quickly treated. The existence of antibiotic-resistant Y. pestis strains emphasizes the need for the development of novel countermeasures against plague. We previously reported the generation of a recombinant Y. pestis strain (Kim53ΔJ+P) that over-expresses Y. enterocolitica YopP. When this strain was administered subcutaneously to mice, it elicited a fast and effective protective immune response in models of bubonic, pneumonic and septicemic plague. In the present study, we further characterized the immune response induced by the Kim53ΔJ+P recombinant strain. Using a panel of mouse strains defective in specific immune functions, we observed the induction of a prompt protective innate immune response that was interferon-γ dependent. Moreover, inoculation of mice with Y. pestis Kim53ΔJ+P elicited a rapid protective response against secondary infection by other bacterial pathogens, including the enteropathogen Y. enterocolitica and the respiratory pathogen Francisella tularensis. Thus, the development of new therapies to enhance the innate immune response may provide an initial critical delay in disease progression following the exposure to highly virulent bacterial pathogens, extending the time window for successful treatment.     

Possible use of <Emphasis Type="Italic">ail</Emphasis> and <Emphasis Type="Italic">foxA</Emphasis> polymorphisms for detecting pathogenic <Emphasis Type="Italic">Yersinia enterocolitica</Emphasis>

Background  

Yersinia enterocolitica is an enteric pathogen that invades the intestinal mucosa and proliferates within the lymphoid follicles (Peyer's patches). The attachment invasion locus (ail) mediates invasion by Y. enterocolitica and confers an invasive phenotype upon non-invasive E. coli; ail is the primary virulence factor of Y. enterocolitica. The ferrioxamine receptor (foxA) located on the Y. enterocolitica chromosome, together with its transport protein, transports a siderophore specific for ferric ion. Currently, ail is the primary target gene for nucleic acid detection of pathogenic Y. enterocolitica.     

Mechanisms of protection against virulentYersinia pestis infection without participation of humoral antibody: H-2 restriction in athymic mouse model

Athymic mice, deficient in mature T-lymphocytes, were killed when subcutaneously challenged with 100 organisms of a highly virulent strain ofYersinia pestis. None of the methods for activating the macrophages protected the animals from death; however, the survival time of the mice primed withYersinia pseudotuberculosis containing VW antigen 14 days before the challenge was significantly prolonged. Neither IgM nor IgG specific forY. pestis was detectable in these mice 14 days after priming. The primed athymic mice given the spleen cells of the twice-primed thymus-bearing syngeneic or semiallogeneic mice resisted the challenge with virulentY. pestis. On the basis of these results, the protective activity of the immune T-cells againstY. pestis infection assayed in an adoptive transfer system resides in cell-mediated immunity with H-2 restriction.     

Acquisition of omptin reveals cryptic virulence function of autotransporter YapE in Yersinia pestis

Autotransporters, the largest family of secreted proteins in Gram‐negative bacteria, perform a variety of functions, including adherence, cytotoxicity and immune evasion. In Yersinia pestis the autotransporter YapE has adhesive properties and contributes to disease in the mouse model of bubonic plague. Here, we demonstrate that omptin cleavage of Y. pestis YapE is required to mediate bacterial aggregation and adherence to eukaryotic cells. We demonstrate that omptin cleavage is specific for the Y. pestis and Y. pseudotuberculosis YapE orthologues but is not conserved in the Yersinia enterocolitica protein. We also show that cleavage of YapE occurs in Y. pestis but not in the enteric Yersinia species, and requires the omptin Pla (plasminogen activator protease), which is encoded on the Y. pestis‐specific plasmid pPCP1. Together, these data show that post‐translation modification of YapE appears to be specific to Y. pestis, was acquired along with the acquisition of pPCP1 during the divergence of Y. pestis from Y. pseudotuberculosis, and are the first evidence of a novel mechanism to regulate bacterial adherence.     

Oligomeric coiled-coil adhesin YadA is a double-edged sword

Yersinia adhesin A (YadA) is an essential virulence factor for the food-borne pathogens Yersinia enterocolitica and Yersinia pseudotuberculosis. Suprisingly, it is a pseudogene in Yersinia pestis. Even more intriguing, the introduction of a functional yadA gene in Y. pestis EV76 was shown to correlate with a decrease in virulence in a mouse model. Here, we report that wild type (wt) Y. enterocolitica E40, as well as YadA-deprived E40 induced the synthesis of neutrophil extracellular traps (NETs) upon contact with neutrophils, but only YadA-expressing Y. enterocolitica adhered to NETs and were killed. As binding seemed to be a prerequisite for killing, we searched for YadA-binding substrates and detected the presence of collagen within NETs. E40 bacteria expressing V98D,N99A mutant YadA with a severely reduced ability to bind collagen were found to be more resistant to killing, suggesting that collagen binding contributes significantly to sensitivity to NETs. Wt Y. pestis EV76 were resistant to killing by NETs, while recombinant EV76 expressing YadA from either Y. pseudotuberculosis or Y. enterocolitica were sensitive to killing by NETs, outlining the importance of YadA for susceptibility to NET-dependent killing. Recombinant EV76 endowed with YadA from Y. enterocolitica were also less virulent for the mouse than wt EV76, as shown before. In addition, EV76 carrying wt YadA were less virulent for the mouse than EV76 expressing YadA_V98D,N99A. The observation that YadA makes Yersinia sensitive to NETs provides an explanation as for why evolution selected for the inactivation of yadA in the flea-borne Y. pestis and clarifies an old enigma. Since YadA imposes the same cost to the food-borne Yersinia but was nevertheless conserved by evolution, this observation also illustrates the duality of some virulence functions.     

Rapid identification and typing of <Emphasis Type="Italic">Yersinia pestis</Emphasis> and other <Emphasis Type="Italic">Yersinia</Emphasis> species by matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry

Background  

Accurate identification is necessary to discriminate harmless environmental Yersinia species from the food-borne pathogens Yersinia enterocolitica and Yersinia pseudotuberculosis and from the group A bioterrorism plague agent Yersinia pestis. In order to circumvent the limitations of current phenotypic and PCR-based identification methods, we aimed to assess the usefulness of matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) protein profiling for accurate and rapid identification of Yersinia species. As a first step, we built a database of 39 different Yersinia strains representing 12 different Yersinia species, including 13 Y. pestis isolates representative of the Antiqua, Medievalis and Orientalis biotypes. The organisms were deposited on the MALDI-TOF plate after appropriate ethanol-based inactivation, and a protein profile was obtained within 6 minutes for each of the Yersinia species.     

Tapping the potential of intact cell mass spectrometry with a combined data analytical approach applied to Yersinia spp.: detection, differentiation and identification of Y. pestis

In the everyday routine of an analytic lab, one is often confronted with the challenge to identify an unknown microbial sample lacking prior information to set the search limits.In the present work, we propose a workflow, which uses the spectral diversity of a commercial database (SARAMIS) to narrow down the search field at a certain taxonomic level, followed by a refined classification by supervised modelling. As supervised learning algorithm, we have chosen a shrinkage discriminant analysis approach, which takes collinearity of the data into account and provides a scoring system for biomarker ranking. This ranking can be used to tailor specific biomarker subsets, which optimize discrimination between subgroups, allowing a weighting of misclassification.The suitability of the approach was verified based on a dataset containing the mass spectra of three Yersinia species Yersinia enterocolitica, Y. pseudotuberculosis and Yersinia pestis. Thereby, we laid the emphasis on the discrimination between the highly related species Yersinia pseudotuberculosis and Y. pestis.All three species were correctly identified at the genus level by the commercial database. Whereas Y. enterocolitica was correctly identified at the species level, discrimination between the highly related Y. pseudotuberculosis and Y. pestis strains was ambiguous. With the use of the supervised modelling approach, we were able to accurately discriminate all the species even when grown under different culture conditions.     

Biochemical heterogeneity of serotype 03 strains of 700Yersinia strains isolated from humans,other mammals,flies, animal feed,and river water

A total of 700 serotype 03 strains of yersiniae were recovered from patients, households withYersinia enterocolitica-infected persons, healthy humans, pigs, dogs, flies, feed, and river water, from 1977 to 1983. Of these isolates, 695 belonged toYersinia enterocolitica, three toYersinia intermedia, and two toYersinia frederiksenii. The 695Y. enterocolitica strains were classified into 484 biotype 4 serotype 03 phage type VIII, 17 biotype 4A (ornithine decarboxylase-negative) serotype 03 phage type VIII, 15 biotype 4B (maltosenegative) serotype 03 phage type VIII, and 179 biotype 3B (VP-, sorbose-, and inositolnegative) serotype 03 phage type II. These four biochemical heterogeneous types, including three new types, ofY. enterocolitica probably have long existed in Japan. There was a close relation between human infection withY. enterocolitica and the harboring ofY. enterocolitica in pigs and dogs.     

Characterization of anti-ECA antibodies in rabbit antiserum against rough <Emphasis Type="Italic">Yersinia enterocolitica</Emphasis> O:3

Enterobacterial common antigen (ECA) is a characteristic surface component in bacteria belonging to the Enterobacteriaceae family. It is generally integrated in the outer membrane via a linkage to phosphatidylglycerol (ECA_PG) and at the same time in some special cases via a linkage to lipopolysaccharide (ECA_LPS); the latter form is immunogenic. Yersinia enterocolitica O:3 expresses both ECA_PG and ECA_LPS. To study whether ECA-immunogenicity of Y. enterocolitica O:3 is temperature-regulated, rabbits were immunized with ECA-expressing Y. enterocolitica O:3 bacteria grown at 22 and 37°C. To induce minimal amount of anti-LPS antibodies, immunization was performed with YeO3-c-trs8-R, an LPS mutant missing both O-polysaccharide and the outer core hexasaccharide. However, abundant antibodies specific for LPS core were still present in the obtained antisera such that the reactivity of ECA-specific antibodies could not be detected. To obtain “monovalent” anti-ECA antisera, the sera were absorbed with ECA-negative bacteria. Absorption with live bacteria removed efficiently the anti-LPS antibodies, whereas this was not the case with boiled bacteria. Western blotting revealed that the specificity of the monovalent anti-ECA antiserum was different from that of a monoclonal anti-ECA antibody (mAb 898) as it did not react with ECAPG, and this suggested that in Y. enterocolitica O:3 ECA_LPS only one or two ECA repeat unit(s) is/are linked to LPS. Both ECA_PG and ECA_LPS expression were found to be regulated by temperature and repressed at 37°C.     

Biochemical,serological, and phage typing characteristics of 459Yersinia strains isolated from a terrestrial ecosystem

The origins of human contamination withYersinia enterocolitica are still unknown. We have investigated the major components of a terrestrial ecosystem (soil, earthworms, field voles, shrews, crops, hares, rabbits, and birds) for the presence ofYersinia. Four hundred fifty-nine strains ofYersinia were isolated. We report the first isolations of typicalY. enterocolitica belonging to classical or new biotypes and ofY. enterocolitica-like organisms (sucrose negative; rhamnose positive; melibiose and rhamnose positive) from soil samples, earthworms, crops, and birds. Sucrose-negativeY. enterocolitica strains and biotypes 1, 2, and 3, usually associated with human nonmesenteric syndromes, are predominant in soil, which can be considered as a reservoir for these biotypes.Y. enterocolitica serogroups O∶3 and O∶9, strains of which are responsible in Europe for human mesenteric syndromes, were not found in this study. The epidemiology ofY. enterocolitica infections is discussed.     

Analysis of insect toxin complex gene variability of <Emphasis Type="Italic">Yersinia pestis</Emphasis> and <Emphasis Type="Italic">Yersinia pseudotuberculosis</Emphasis> strains

The nucleotide sequences of the Tc’s insect toxin complex genes have been analyzed in 18 natural strains of the main and non-main subspecies of Yersinia pestis isolated in different natural foci in the Russian Federation, as well as neighboring and more remote countries, as compared to the data on Y. pestis and Y. pseudotuberculosis strains stored in the NCBI GenBank database. The nucleotide sequences of these genes in plague agent strains have been found to be highly conserved, in contrast to those of the pseudotuberculosis agent. The sequences of two genes, tcaC and tccC2, have been found to be almost identical in Y. pestis strains, whereas other three genes (tcaA, tcaB, and tccC1) contain a few mutations, which, however, are not common for all strains of the plague agent. Exceptions are only strains of the Y. pestis biovar orientalis, whose tcaB gene is in a nonfunctional state due to a nucleotide deletion. The results suggest that the formation of the species Y. pestis as an agent of a natural focal infection with a transmissive mechanism has not resulted in degradation of the Tc’s complex genes. Instead, these genes are likely to have been altered as the plague agent have been adapting to the new environment.     

Oral scrapie infection modifies the homeostasis of Peyer’s patches’ dendritic cells

In transmitted prion diseases the immune system supports the replication and the propagation of the pathogenic agent (PrPSc). DCs, which are mobile cells present in large numbers within lymph organs, are suspected to carry prions through the lymphoid system and to transfer them towards the peripheral nervous system. In this study, C57Bl/6 mice were orally inoculated with PrPSc (scrapie strain 139A) and sacrificed at the preclinical stages of the disease. Immunolabelled cryosections of Peyer’s patches were analysed by confocal microscopy. Membrane prion protein expression was studied by flow cytometry. In Peyer’s patches (PP), dissected at day one and day 105 after oral exposure to scrapie, we observed an increased population of DCs localised in the follicular-associated epithelium. On day 105, PrPSc was found in the follicles inside the PP of prion-infected mice. A subset of Peyer’s patches DCs, which did not express cellular prion protein on their surface in non-infected mice conditions, was prion-positive in scrapie conditions. Within Peyer’s patches oral scrapie exposure thus induced modifications of the homeostasis of DCs at the preclinical stages of the disease. These results give new arguments in favour of the implication of DCs in prion diseases.     

Characterization ofYersinia enterocolitica sensu stricto

The speciesYersinia enterocolitica is definedsensu stricto on the bases of biochemical and other phenotypic characteristics. Biochemically,Y. enterocolitica contains five major biotypes: 1 through 4 of Niléhn and of Wauters, and the trehalose-negative, metabolically inactive, socalled hare strains in biotype 5 of Niléhn and of Wauters, and biochemically atypical strains, including urease-negative, Simmons' citrate-positive, and lactose-and raffinose-positive strains.Y. enterocolitica sensu stricto was distinguishable from the newly described speciesYersinia kristensenii by sucrose and Voges-Proskauer reactions (negative inY. kristensenii). These species were previously separated by DNA relatedness.Y. enterocolitica was also separable biochemically and by DNA relatedness from the two newly proposed rhamnose-positive species,Yersinia intermedia andYersinia frederiksenii. Strain 161(=CIP 80-27=ATCC 9610) is proposed as the neotype forY. enterocolitica.     

Yersinia enterocolitica type III secretion chaperone SycH. Recombinant expression, purification, characterisation, and crystallisation

All pathogenic Yersinia species (Y. enterocolitica, Y. pestis, and Y. pseudotuberculosis) share a type three secretion system (TTSS) that allows translocation of effector proteins into host cells. Yersinia enterocolitica SycH is a chaperone assisting the transport of the effector YopH and two regulatory components of the TTSS, YscM1 and YscM2. We have recombinantly expressed SycH in Escherichia coli. Purification of tag-free SycH to near homogeneity was achieved by combining ammonium sulfate precipitation, anion exchange chromatography, and gel filtration. Functionality of purified SycH was proven by demonstrating binding to YopH. SycH crystals were grown that diffracted to 2.94 Å resolution. Preliminary crystallographic data and biochemical findings suggest that SycH forms homotetramers. SycH may therefore represent a novel class of TTSS chaperones. In addition, we found that YopH was enzymatically active in the presence of SycH. This implies that the function of the secretion chaperone SycH is not to keep YopH in a globally unfolded state prior to secretion.     

The pesticin receptor of Yersinia enterocolitica: a novel virulence factor with dual function

The iron-repressible outer membrane protein FyuA of Yersinia enterocolitica operates as a receptor with dual function: (i) as a receptor for the Y. pestis bacterlocin pesticin, and (ii) as a receptor for yersiniabactin, a siderophore that is produced by mouse-viruient Y. enterocolitica strains of biogroup IB. Cloning of the FyuA-encoding gene was achieved by mobilization of a genomic cosmid library of the pesticin-sensitive and mouse-virulent Y. enterocolitica O:8 strain WA into the pesticin-reslstant WA fyuA mutant and subsequent in vivo selection of transconjugants for the ability to survive and multiply in mice (phenotype mouse viruience). The reisolated transconjugants which survived in mice for 3d harboured a unique cosmid and phenotypicaity were pesticin sensitive. From this cosmid a 2650 bp SalI-PstI fragment conferring pesticin sensitivity was subcioned. Sequencing of this DNA fragment revealed a single open reading frame of 2022 bp, which encodes a deduced polypeptide of 673 amino acids with a predicted molecular mass of 73 677 Da. Cleavage of a putative signal sequence composed of 22 amino acids should lead to a mature protein of 651 amino acids with a molecular mass of 71 368 Da. The open reading frame is preceded by a sequence which shares homoiogy with the postulated consensus Fur iron-repressor protein-binding site. FyuA shows homology to other iron-regulated TonB-dependent outer membrane proteins with receptor functions (e.g. BtuB, CirA, FepA, lutA, FhuA, FoxA, FcuA). On the basis of multiple alignment of amino acid sequences of FyuA and other TonB-dependent receptors, a phylogenetic tree was constructed, demonstrating that FyuA probably belongs to the citrate subfamily or represents a new subfamily of TonB-dependent receptors. Moreover, by complementation of the WA fyuA mutant by the cioned fyuA gene.     

Biological Activities of Endotoxins from Yersinia enterocolitica

The chemical properties and the general biological activities of lipopolysaccharide (LPS) and Boivin-type endotoxin obtained respectively by phenol-water and trichloroacetic acid extraction from Yersinia enterocolitica serotypes 03 and 09 were studied. The yield of LPS from the O9 strain was about 10% of the O3 strain possibly because of the lower solubility of O9-LPS in aqueous phase. However, the chemical composition of O9-LPS was similar to that of O3-LPS in the proportions of reducing sugar, glucosamine, heptose, KDO, and lipid A. In pyrogenicity and local Shwartzman reactivity in rabbits and lethality for mice, there was also no difference between O3 and O9-LPS. The anthrone-positive carbohydrate and lipid A contents of Boivin-type endotoxin from O3 were higher than those of the endotoxin from O9. The biological activities of Boivin-type endotoxin from O3 were also remarkably higher than those of the endotoxin from O9. It seems that endotoxin of Y. enterocolitica serotype O3 may play an important role in infection by this organism.