Arthritogenicity ofYersinia enterocolitica O:8 in Hamsters: Analysis of the immune response

An animal model, hamster, was used for the study ofYersinia-induced arthritis. The development of arthritis, estimated by measuring the inflammation on hind paws after infection, was correlated with the kinetics of the immune response. Hostological and immunofluorescence (IFI) studies and serum antibody measurements were performed. Two inflammatory peaks were observed: an acute one on day 11 post-infection (p.i) and a chronic one on days 26–35 p.i. Joint cultures were positive until day 14 p.i. IFI was used to demonstrate the deposit of bacterial antigens in the joint. A persistent response of cellular extract-specific IgG antibodies was observed until day 94. Lipopolysaccharide-specific IgG was statistically significant on day 26 p.i. Antibodies against bands 66 and 54 were observed by immunoblotting. Polyclonal activation was detected during reactive arthritis. It is shown thatY. enterocolitica is arthritogenic in hamsters, immune mechanisms participating in the development of this disease.     

Detection by using monoclonal antibodies of Yersinia enterocolitica in artificially-contaminated pork

Monoclonal antibodies against Yersinia enterocolitica were produced by fusion of NS‐1 mouse myeloma cells with spleen cells of ICR mice immunized with heat‐killed and heat‐killed plus SDS‐mercaptoethanol treated forms of Y. enterocolitica ATCC 27729 alone or mixed with Y. enterocolitica MU. The twenty‐five MAbs obtained from five fusions were divided into nine groups according to their specificities to different bacterial strains and species, as determined by dot blotting. The first five groups of MAbs were specific only to Y. enterocolitica, but did not recognize all of the isolates tested. MAbs in groups 6 and 7 reacted with all isolates of Y. enterocolitica tested but showed cross‐reaction with some Yersinia spp. and Edwardsiella tarda, especially in the case of group 7. MAbs in groups 8 and 9 reacted with all isolates of Y. enterocolitica and Yersinia spp., as well as other Gram‐negative bacteria that belong to the family Enterobacteriaceae. These MAbs recognized Y. enterocolitica antigens with apparent molecular weights ranging from 10 – 43 kDa by Western blotting, and could detect Y. enterocolitica from ～10³– 10⁵ colony forming units (CFUs) by dot blotting. The hybridoma clone YE38 was selected for detection of Y. enterocolitica in pork samples which had been artificially‐contaminated by inoculation with Y. enterocolitica ATCC 27729 at concentrations of ～10⁴– 10⁶ CFUs/g and incubation in peptone sorbitol bile broth at 4°C. Samples were collected and applied on a nitrocellulose membrane for dot blotting with trypticase soy and cefsulodin‐Irgasan‐novobiocin agars. After 48 hr of incubation, the detection limit was ～10²– 10³ CFU/g by dot blotting.     

Identification of Yersinia enterocolitica using a random genomic DNA microarray chip

Aims: To fabricate a DNA chip containing random fragments of genomic DNA of Yersinia enterocolitica and to verify its diagnostic ability. Methods and Results: A DNA microarray chip was fabricated using randomly fragmented DNA of Y. enterocolitica. Chips were hybridized with genomic DNA extracted from other Y. enterocolitica strains, other Yersinia spp. and bacteria in different genera. Genomic DNA extracted from Y. enterocolitica showed a significantly higher hybridization rate compared with DNA of other Yersinia spp. or bacterial genera, thereby distinguishing it from other bacteria. Conclusions: A DNA chip containing randomly fragmented genomic DNA from Y. enterocolitica can detect Y. enterocolitica and clearly distinguish it from other Yersinia spp. and bacteria in different genera. Significance and Impact of the Study: A microarray chip containing randomly fragmented genomic DNA of Y. enterocolitica was fabricated without sequence information, and its diagnostic ability to identify Y. enterocolitica was verified.     

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     

Characterization of a Superantigen Produced by Yersinia pseudotuberculosis

Abstract

Yersinia species are Gram-negative coccobacilli consisting of three pathogenic species, Y. pestis, Y. pseudotuberculosis, Y. enterocolitica, and five nonpathogenic species, Y. kristensenii, Y. frederiksenii, Y. intermedia, Y. rohdei, and Y. aldovae. The former three species are primary pathogens of wild and domestic animals and birds. In the human, Y. pestis causes plague, or black death, while Y. pseudotuberculosis and Y. enterocolitica produce milder forms of disease varying from diarrhea and abdominal pain to more systemic symptoms such as fever, scarlatiniform skin rash, conjunctivitis, erythema nodosum, and lymphadenopathy (1–3). Complications of reactive arthritis, acute uveitis, coronary aneurysms, and acute renal failure are not infrequently reported after the latter two Yersinia infections (4–8). The mechanisms by which these organisms mediate these complicated symptoms are poorly understood. However, the preferential avidity for lymphoid tissues seen in these species and the characteristic histopathological finding of lymphoid hyperplasia mainly seen in mesenteric lymph nodes (9–10) suggest that the stimulation of a large proportion of T lymphocytes may be involved in the pathogenesis of this infection.     

Cloning,expression and characterization of attachment‐invasion locus protein (Ail) of Yersinia enterocolitica and its utilization in rapid detection by immunoassays

Aims: Rapid detection of pathogenic Yersinia enterocolitica isolates by using antisera raised against recombinant attachment‐invasion locus (Ail) protein. Methods and Results: The complete gene (471 bp) encoding for the Ail protein was amplified by PCR and cloned in pQE 30 UA vector. The recombinant clones were selected by polymerase chain reaction (PCR). Recombinant protein was expressed using induction with 1 mmol l^?1 final concentration of isopropylthiogalactoside (IPTG). Polyclonal antibodies were raised in mice against this purified recombinant protein. An indirect plate ELISA was standardized based on rAil protein for the detection of Y. enterocolitica. Western blot analysis with the sera raised against recombinant Ail protein exhibited reaction at 17 kDa region of the native Ail protein present in pathogenic Y. enterocolitica standard strains and strains isolated from pork samples suggesting that the antigenicity of recombinant Ail protein was similar to that of native Ail protein. Nonpathogenic Y. enterocolitica and the other species of Yersinia, namely, Y. pseudotuberculosis, Y. intermedia, Y. kristenseni, Y. fredrickseni and also the Enterobacteriaceae organisms tested were not found reacting to polyclonal antisera against this recombinant Ail protein. Conclusion: The antibodies raised against recombinant Ail protein could specifically identify pathogenic Y. enterocolitica strains both by indirect plate ELISA and Western blot immunoassay. Significance and Impact of the Study: The method developed in this study may find application in the detection of pathogenic Y. enterocolitica not only from food and environmental samples but also from clinical samples.     

Catalytically active <Emphasis Type="Italic">Yersinia</Emphasis> outer protein P induces cleavage of RIP and caspase-8 at the level of the DISC independently of death receptors in dendritic cells

Yersinia outer protein P (YopP) is injected by Y. enterocolitica into host cells thereby inducing apoptotic and necrosis-like cell death in dendritic cells (DC). Here we show the pathways involved in DC death caused by the catalytic activity of YopP. Infection with Yersinia enterocolitica, translocating catalytically active YopP into DC, triggered procaspase-8 cleavage and c-FLIP_L degradation. YopP-dependent caspase-8 activation was, however, not mediated by tumor necrosis factor (TNF) receptor family members since the expression of both CD95/Fas/APO-1 and TRAIL-R2 on DC was low, and DC were resistant to apoptosis induced by agonistic anti-CD95 antibodies or TNF-related apoptosis-inducing ligand (TRAIL). Moreover, DC from TNF-Rp55^−/− mice were not protected against YopP-induced cell death demonstrating that TNF-R1 is also not involved in this process. Activation of caspase-8 was further investigated by coimmunoprecitation of FADD from Yersinia-infected DC. We found that both cleaved caspase-8 and receptor interacting protein 1 (RIP1) were associated with the Fas-associated death domain (FADD) indicating the formation of an atypical death-inducing signaling complex (DISC). Furthermore, degradation of RIP mediated by the Hsp90 inhibitor geldanamycin significantly impaired YopP-induced cell death. Altogether our findings indicate that Yersinia-induced DC death is independent of death domain containing receptors, but mediated by RIP and caspase-8 at the level of DISC.     

Cytotoxicity and Calcium-Dependent Antigen of Yersinia

The relationship between invasiveness and calcium dependency was examined in various strains of Yersinia enterocolitica and Y. pseudotuberculosis by using established cell lines. Infection with calcium-dependent bacteria resulted in the formation of microvilli and the adherence of bacteria on the cell surface, and the adherent bacteria were ingested 1.5 hr after infection. Morphological changes in the cells became visible 2 to 3 hr after infection, and intracellular multiplication of the ingested bacteria was noted. When the cells were incubated with bacteria at 37 C for 1.5 hr and then at 25 C, however, the morphological changes in the infected cells were not observed. No isogenic strains that had lost calcium dependency for growth at 37 C were able to elicit the morphological changes in the cells, though they possessed the ability to adhere to and penetrate the cells. The antigen(s) supposedly related to cytotoxicity of the calcium-dependent Yersinia was sought by using antibodies prepared against calcium-dependent bacteria and then absorbed with calcium-independent bacteria and with calcium-independent bacterial cytosol. Double diffusion tests between the antisera and bacterial cytosol extracts revealed the presence of an antigen which was a cytoplasmic substance common to all calcium-dependent but not calcium-independent strains of Y. enterocolitica and Y. pseudotuberculosis.     

Behavior of Yersinia enterocolitica in the Presence of the Bacterivorous Acanthamoeba castellanii

Free-living protozoa play an important role in the ecology and epidemiology of human-pathogenic bacteria. In the present study, the interaction between Yersinia enterocolitica, an important food-borne pathogen, and the free-living amoeba Acanthamoeba castellanii was studied. Several cocultivation assays were set up to assess the resistance of Y. enterocolitica to A. castellanii predation and the impact of environmental factors and bacterial strain-specific characteristics. Results showed that all Y. enterocolitica strains persist in association with A. castellanii for at least 14 days, and associations with A. castellanii enhanced survival of Yersinia under nutrient-rich conditions at 25°C and under nutrient-poor conditions at 37°C. Amoebae cultivated in the supernatant of one Yersinia strain showed temperature- and time-dependent permeabilization. Intraprotozoan survival of Y. enterocolitica depended on nutrient availability and temperature, with up to 2.8 log CFU/ml bacteria displaying intracellular survival at 7°C for at least 4 days in nutrient-rich medium. Transmission electron microscopy was performed to locate the Yersinia cells inside the amoebae. As Yersinia and Acanthamoeba share similar ecological niches, this interaction identifies a role of free-living protozoa in the ecology and epidemiology of Y. enterocolitica.     

Yersinia spp. in surface water in San Luis,Argentina

Yersinia spp. was examined in three rivers and two lakes located in the Province of San Luis, Argentina, over a 1-year period. Water samples were concentrated either by Moore's gauze technique or by filtering through diatomaceous earth. Five enrichment media: yeast extract-Bengal rose broth (YER) with bile-oxalate-sorbose broth (BOS); 67 mmol/L phosphatebuffered saline (pH 7.6; PBS); PBS enriched with 1% mannitol and 1% peptone (PBSMP); PBS with lyzed 0.5% sheep blood (PBSB); Wauters broth (W); and five plating media: Mac Conkey agar (MC);Salmonella—Shigella agar (SS); 5% sheep blood agar (BA); lactose-sucrose-urea agar (LSU) and irgasan-novobiocin agar (IN) were used. The following strains were isolated:Y. intermedia B1 O:4,32–4,33 Lis Xz (four strains),Y. intermedia B1 O:57 Lis Xo (one strain),Y. intermedia B2 0:57 Lis Xo (one strain),Y. enterocolitica B1 O:10–34 Lis Xz (one strain), andY. frederiksenii undetermined biovar, O:16–16,29 Lis Xz (two strains). The incidence of isolation ofYersinia spp. was 7.14%. YER-BOS proved to be the best enrichment method since it allowed the highest recovering ofYersinia spp. strains. Among plating media, the best results were obtained with MC. Apparently, the isolation ofYersinia spp. can be related to environmental variables such as temperature differences between cold and warm seasons. Negative results obtained during virulence assays suggest that isolated strains lack the pathogenic potential against man.     

Specific identification of pathogenic Yersinia enterocolitica by monoclonal antibodies generated against recombinant attachment invasion locus (rAil) protein

Classical pathogenic strains of Yersinia enterocolitica produce a 17 kDa outer membrane protein, Ail (attachment-invasion locus), which mediates bacterial attachment to some cultures epithelial cell lines and invasion of others. In the present study, hybridomas were developed for the production of monoclonal antibodies (MAbs) against Ail protein of Y. enterocolitica. A set of five stabilized hybridoma cell lines were generated, of which, two MAbs, YEA 302 and YEA 303, exhibited specific reaction to the native Ail protein (17 kDa) present in whole cell lysate of Y. enterocolitica strains beside having reaction with rAil. The other three MAbs, YEA 5, 17 and 32, had some cross reactions with proteins other than Ail. Two out of five MAbs were IgG1, two were IgG2b and one in IgM in nature. MAbs (YEA 302 and YEA 303) did not show any cross-reaction with whole cell lysate of Brucella abortus, Vibrio cholerae, Salmonella typhimurium and Escherichia coli and other species of Enterobacteriaceae including Y. pestis in ELISA and Western blot analysis. The presence of Ail protein among the strains recovered from pork and milk samples was evaluated by these sets of MAbs and the results were compared with the duplex PCR. Collectively, the data suggest that these MAbs may have the potential for their use in the detection of pathogenic Y. enterocolitica reliably, rapidly and at a relatively low cost.     

Intranasal Immunization with Yersinia enterocolitica O:8 Cellular Extract Protects against Local Challenge Infection

Yersinia enterocolitica is enteropathogenic for humans and rodents. Immune protection from oral and respiratory pathogens may be most effectively elicited following intranasal (i.n.) vaccination. An experimental murine intranasal challenge model was used to evaluate the immunogenicity of a Y. enterocolitica O:8 cellular extract (CE) in mucosa. This antigenic preparation has demonstrated to induce protection by subcutaneous immunization. Mice were immunized intranasally with two doses of CE. Immunized and nonimmunized animals were challenged with 5×10⁶ colony-forming units (CFU) by nasal infection. Antibodies in serum and bronchoalveolar lavage (b.a.l.) fluid were assessed before and 48 hr after challenge. The CFU were determined by analysis of lung homogenate samples. The CE immunization induced significant b.a.l.-specific IgA and IgG, and serum-specific IgG, IgA and IgM. Histopathological studies 24 and 48 hr postchallenge demonstrated that immunization protected against progressive lesions resulting from Y. enterocolitica invasion of the pulmonary mucosa. The CFU in the lungs showed that CE immunization led to significant clearance as compared to the bacterial level in nonimmunized controls. From the results obtained, it can be concluded that CE can induce local and systemic immunity and protect against nasal infection.     

Immunochemical characteristics of synthetic peptides with T-cellular and B-cellular epitopes of nonspecific porins of pathogenic <Emphasis Type="Italic">Yersinia</Emphasis>

Multiple antigenic peptides (MAPs) that included the common antigenic epitopes of porins from the outer membranes (OM) of bacteria from the Yersinia genus (Y. pseudotuberculosis, Y. enterocolitica, and Y. pestis that are pathogenic for humans) were synthesized. Mice of the BALB/c line were immunized with these peptides, and antisera to the peptides were obtained. It was demonstrated by EIA that these sera interacted with the porins that were isolated from the OM of pathogenic Yersinia. MAPs were shown to be bound to the antibodies in the blood sera of rabbits immunized with the individual porins and to the antibodies in the blood sera of humans suffering from intestinal yersiniosis and pseudotuberculosis.     

Isolation ofYersinia enterocolitica andYersinia enterocolitica-like organisms from raw milk in Italy

Thirty samples of raw milk, originating from individual producers in the Turin area, were examined for the presence ofYersinia enterocolitica. A cold enrichment method with phosphate-buffered saline (PBS) 1/15M, pH 7.6, and sorbitol-bile-salts broth (SB) was used. After 7, 14, or 21 days at 4°–5°C, plating was performed on selective agar media directly (MacConkey agar andSalmonella-Shigella agar) after the alkali method was used. Six strains ofY. enterocolitica (biotype 1) and 32 strainsY. enterocolitica-like (threeY. fredericksenii; nineYersinia rhamnose-, melibiose+, -methyl-d-glucoside+, raffinose+, probablyYersinia intermedia biotype rhamnose-; and 20Y. intermedia) were isolated.Yersinia strains were found in 11 samples of raw milk, andY. enterocolitica in four samples.     

Evaluation of a Modified Cefsulodin-Irgasan-Novobiocin Agar for Isolation of Yersinia spp

Y. enterocolitica and Y. pseudotuberculosis are important food borne pathogens. However, the presence of competitive microbiota makes the isolation of Y. enterocolitica and Y. pseudotuberculosis from naturally contaminated foods difficult. We attempted to evaluate the performance of a modified Cefsulodin-Irgasan-Novobiocin (CIN) agar in the differentiation of Y. enterocolitica from non-Yersinia species, particularly the natural intestinal microbiota. The modified CIN enabled the growth of Y. enterocolitica colonies with the same efficiency as CIN and Luria-Bertani agar. The detection limits of the modified CIN for Y. enterocolitica in culture medium (10 cfu/ml) and in artificially contaminated pork (10⁴ cfu/ml) were also comparable to those of CIN. However, the modified CIN provided a better discrimination of Yersinia colonies from other bacteria exhibiting Yersinia-like colonies on CIN (H₂S-producing Citrobacter freundii, C. braakii, Enterobacter cloacae, Aeromonas hydrophila, Providencia rettgeri, and Morganella morganii). The modified CIN exhibited a higher recovery rate of Y. enterocolitica from artificially prepared bacterial cultures and naturally contaminated samples compared with CIN. Our results thus demonstrated that the use of modified CIN may be a valuable means to increase the recovery rate of food borne Yersinia from natural samples, which are usually contaminated by multiple types of bacteria.     

Genotyping of Human and Porcine Yersinia enterocolitica, Yersinia intermedia, and Yersinia bercovieri Strains from Switzerland by Amplified Fragment Length Polymorphism Analysis

In this study, 231 strains of Yersinia enterocolitica, 25 strains of Y. intermedia, and 10 strains of Y. bercovieri from human and porcine sources (including reference strains) were analyzed using amplified fragment length polymorphism (AFLP), a whole-genome fingerprinting method for subtyping bacterial isolates. AFLP typing distinguished the different Yersinia species examined. Representatives of Y. enterocolitica biotypes 1A, 1B, 2, 3, and 4 belonged to biotype-related AFLP clusters and were clearly distinguished from each other. Y. enterocolitica biotypes 2, 3, and 4 appeared to be more closely related to each other (83% similarity) than to biotypes 1A (11%) and 1B (47%). Biotype 1A strains exhibited the greatest genetic heterogeneity of the biotypes studied. The biotype 1A genotypes were distributed among four major clusters, each containing strains from both human and porcine sources, confirming the zoonotic potential of this organism. The AFLP technique is a valuable genotypic method for identification and typing of Y. enterocolitica and other Yersinia spp.     

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.     

Regulatory variance of aspartate transcarbamoylase among strains ofYersinia enterocolitica andYersinia enterocolitica-like organisms

Aspartate transcarbamoylase (ATCase) has been isolated and characterized from 20 different strains ofYersinia enterocolitica andY. enterocolitica-like organisms. A variety of regulatory properties have emerged for the ATCases from the different strains. These regulatory properties may be used as a taxonomic tool to divideY. enterocolitica andY. enterocolitica-like organisms into separate groups. Results are in accord with the recent assignment ofY. enterocolitica andY. enterocolitica-like organisms to four DNA-relatedness groups and four correspondingYersinia species.     

Characterization of enterotoxin produced by four Yersinia enterocolitica strains of pig origin

All four isolates of Yersinia enterocolitica and one isolate of Y. frederiksenii from pigs were found to be enterotoxigenic. Whole-cell preparations of Y. enterocolitica isolates did not induce any change in the rabbit ligated gut test after 6 and 18 h of inoculation, but Y. frederiksenii on the other hand showed a positive gut response at 18 h. Cell-free supernatant (CFS) of all five isolates induced dilatation in the rabbit gut up to 6 h, after which Y. enterocolitica became negative, while Y. frederiksenii continued to show a reaction up to 18 h. CFS of all five isolates were also found positive with the infant mouse test. Of the five isolates of Yersinia, three gave a positive reaction for the permeability factor on rabbit skin. Yersinia enterotoxin could be concentrated by methanol extraction. It was stable at 100°C for 20 min and at 120°C for 15 min. However, its activity was lost at low (2.0) and high pH (10.0). Enterotoxic preparations of Y. enterocolitica lost part of their enterotoxic activity upon dialysis.     

Kinetics of infection induced byYersinia

Yersinia enterocolitica of different serotypes andY. intermedia, Y. frederiksenii, andY. kristensenii, in a total of nine strains, were inoculated intragastrically and intravenously into Swiss mice. The animals were observed daily to check for clinical alterations. Groups of five were killed intermittently at 6-h, and 3-, 6-, 10-, 15-,and 21-day periods or more after the inoculation; possible macroscopic alterations of the organs and tissues were checked. Development of infection at these periods was followed by performing viable bacterial counts on homogenates of selected tissues and the kinetics of infection was established. Clinical and pathologic alterations occurred only in the animals inoculated with the human strains ofY. enterocolitica 0:3 and 0:8, independent of the route of infection. After intragastric inoculation, theY. enterocolitica strains considered to be adapted to man were isolated from all organs and tissues, with the exception of the blood, from which only serotype 0:8 was isolated; otherYersinia strains were found only in the cecal content. After intravenous challenge, all the strains infected the organs and tissues at different times and in varied intensity, with exception of Peyer's patches and mesenteric lymph nodes, which were not infected by all theYersinia strains.