Antigen profiles of the fish pathogen Moritella viscosa and protection in fish

Aims: Moritella viscosa is a Gram‐negative bacterium that causes winter ulcer disease in salmonid fish cultured in sea water below 8°C. The aim of this study was to study the antigen profiles of these bacteria and to reveal the protection which the antigens induce in fish. Methods and Results: Lipooligosaccharides (LOS) and an approximately 17–19 kDa outer membrane antigen were shown to be the major specific antigens of M. viscosa. The size of the wall antigen differed between strain groups and even between strains reacting positively in the same sera. Four different serotypes of M. viscosa were determined by producing polyclonal sera. Western blot analysis revealed that sera from vaccinated fish groups that had good or fair protection reacted against the LOS and the 17/19 kDa antigen, while no antibody response was observed with sera from groups that showed no efficacy. Conclusions: The study provides evidence that LOS and an approximately 17–19 kDa outer membrane antigen are the major specific protective antigens of M. viscosa, and that the M. viscosa species consists of many different serotypes. Significance and Impact of the Study: The results are important for the production of vaccines against winter ulcers and should also lead to better methods of verifying the bacteria and monitoring winter ulcers.     

Atlantic salmon bath challenged with Moritella viscosa – Pathogen invasion and host response

The Gram-negative bacterium Moritella viscosa is considered to be the main causative agent of winter ulcer, a disease that primarily affects salmonid fish in sea water during cold periods. The disease is initially characterised by localised swelling of the skin followed by development of lesions. To gain more knowledge of the role of M. viscosa in the pathogenesis of winter ulcer, 159 Atlantic salmon (80–110 g) were exposed to a bath challenge dose of 7 × 10⁵ cfu ml^-1 for 1 h at 8.9 °C. The first mortalities were registered two days post-challenge and the mortality rate increased rapidly. Multi-organ samples were taken throughout the challenge for culture, immunohistochemistry and PCR analysis.Using real-time PCR, M. viscosa DNA was first detected in the gills of all fish examined 2, 6 and 12 h after challenge. From day 2, the bacterium was detected in the muscle/skin, head kidney, spleen and liver. This was in correlation with positive cultured samples and confirmed systemic infection. The early and consistent detection of M. viscosa DNA in gill samples, and less or not in muscle/skin or intestine, could suggest gills as a port of entry for the bacterium. Immunohistochemical analysis using a polyclonal antiserum against M. viscosa demonstrated generalised staining in the lumen of blood vessels and some positive mononuclear cells. The antigens recognised by the antiserum may have originated from extracellular bacterial products and be part of a bacterial invasion strategy. To better understand the immune response in salmon to M. viscosa infection, the expression profiles of the immune genes IL1β, C3, ISG15 and CD83 were studied. Increased expression of IL1β and C3 was not induced until day 7, which may suggest that M. viscosa might utilize escape mechanisms to evade the host's immune system by suppressing relevant immune responses.     

Detection, cellular localization and antibacterial activity of two lytic enzymes of Pediococcus acidilactici ATCC 8042

Aim: In Pediococcus acidilactici ATCC 8042, two activities of peptidoglycan hydrolase (PGH) with lytic effect against Micrococcus lysodeikticus and Staphylococcus aureus have been detected. This work intends to elucidate the growth phase of maximum lytic activity, the localization and the effectiveness of the activity against pathogenic Gram‐negative and Gram‐positive bacteria. Methods and Results: Cells were grown in MRS medium and collected at different growth stages, and the proteins were extracted. The highest PGH activity was found during the logarithmic growth phase in the protein fraction bound to the cell membrane. From this fraction, two distinct proteins bands (110‐ and 99‐kDa) in SDS–PAGE were partially purified with a three‐step procedure. Both bands showed lytic activity against M. lysodeikticus. Mass spectrometry analysis (LC/ESI‐MS/MS) indicated that the 110‐kDa band corresponded to a protein of unknown function. The 99‐kDa band corresponded to a N‐acetylmuramidase that harboured catalytic sites with N‐acetylmuramoyl‐l ‐alanine amidase and N‐acetylglucosaminidase activities. Both proteins are reported in the Ped. acidilactici 7_4 genome. The fraction containing the concentrated proteins (110 and 99 kDa) inhibited the growth of several pathogenic strains as: Bacillus cereus, Listeria monocytogenes and Salmonella typhimurium. The growth of S. aureus was diminished by 3 logarithmic units as early as 0·5 h of growth, while inhibition of Escherichia coli and Ped. acidilactici was observed after 18 and 8 h, respectively (both in one logarithmic unit). The minimum inhibitory concentration against S. aureus was 10 μg ml^?1. Conclusion: Pediococcus acidilactici harbours at least two lytic enzymes, one of them recognized as PGH for the first time, which exert antibacterial activity against several bacterial strains. Significance and Impact of the Study: Both PGH activities have a broad growth inhibition spectrum and could be used to control pathogenic bacteria. Because this activity comes from a lactic acid bacterium, it could be safely used in manufacturing processes of fermented foods.     

Expression of meningococcal epitopes in LamB of Escherichia coli and the stimulation of serosubtype-specific antibody responses

The class 1 outer membrane protein (OMP), a major variable surface antigen of Neisseria meningitidis, is a component of novel meningococcal vaccines currently in field trials. Serological variants of the protein are also used to serosubtype meningococci. Most of the amino acid changes that give rise to antigenic variants of the protein occur in two variable regions (VR1 and VR2) that are thought to form loops on the cell surface. The polymerase chain reaction (PCR) was used to amplify the nucleotide sequences encoding VR1 and VR2 from the chromosomal DNA of N. meningitidis strain M1080. These were cloned in frame into the lamB gene of the Escherichia coli expression vector pAJC264. Whole-cell enzyme-linked immunosorbent assays (ELISAs), using monoclonal antibodies, and SDS PAGE confirmed that, upon induction, strains of E. coli carrying these constructs expressed hybrid LamB proteins containing the N. meningitidis surface loops. These strains were used to immunize rabbits and the resultant polyclonal antisera reacted specifically with the class 1 OMP of reference strain M1080 (P1.7). Immunogold labelling of meningococcal cells and whole-cell dot-blot analyses with these antisera showed that the variable epitopes were exposed on the cell surface and confirmed that this approach could be used to obtain serosubtype-specific antisera. The binding profiles of the antisera were determined from their reactions with overlapping synthetic peptides and their reactivity compared with that of relevant serosubtype-specific monoclonal antibodies. This approach was used successfully to raise antisera against two other class 1 OMP VR2s. A fourth antiserum raised against a VR2, including the P1.1 epitope, was not subtype specific.     

Recombinant outer membrane protein A (OmpA) of Edwardsiella tarda, a potential vaccine candidate for fish, common carp

Outer membrane protein A (OmpA) is a component of the outer membrane of Edwardsiella tarda and is wildly distributed in Enterobacteriaceae family. The gene encoding the OmpA protein was cloned from E. tarda and expressed in Escherichia coli M15 cells. The recombinant OmpA protein containing His₆ residues was estimated to have a molecular weight of ∼38 kDa. In Western blot the native protein showed expression at ∼36 kDa molecular weight which was within the range of major outer membrane proteins (36–44 kDa) observed in this study. All E. tarda isolates tested harbored the ompA gene and the antibody raised to this protein was seen to cross react with other Gram negative bacteria. The OmpA protein characterized in this study was observed to be highly immunogenic in both rabbit and fish. In Enzyme linked immunosorbent assay, rabbit antisera showed an antibody titer of 1: 128,000. Common carp vaccinated with recombinant OmpA protein elicited high antibody production and immunized fish showed a relative percentage survival of 54.3 on challenge.     

Identification and evaluation of an outer membrane protein OmpU from a pathogenic Vibrio harveyi isolate as vaccine candidate in turbot (Scophthalmus maximus)

Aims: The main aims of this study were to clone and express a new outer membrane protein U (OmpU) from a pathogenic Vibrio harveyi SF‐1 and investigate its immune efficiency as a vaccine candidate against V. harveyi infection in turbot (Scophthalmus maximus). Methods and Results: In this study, a new gene, ompU was cloned from the genomic DNA of pathogenic V. harveyi SF‐1. The ompU gene encoded a 35 kDa protein, which was purified by Ni‐NTA His‐Bind Resin column. A DNA vaccine was constructed by inserting ompU gene into pEGFP‐N1 plasmid. Turbot were injected intramuscularly with the purified OmpU protein and the recombinant pEGFP‐N1/ompU plasmid, respectively. The fish vaccinated with the purified OmpU protein were completely protected with a relative per cent of survival (RPS) of 100% against pathogenic V. harveyi infection. Efficient protection was also found in the pEGFP‐N1/ompU vaccinated group, with a RPS of 51·4%. Significant specific antibody responses were detected in the vaccinated turbot by indirect enzyme‐linked immunosorbent assay. Conclusions: A new OmpU was cloned and expressed. Both OmpU protein vaccine and DNA vaccine showed good immune protections in turbot. Significance and Impact of the Study: The OmpU was identified to be a new effective vaccine candidate and could be used as subunit vaccine and DNA vaccine for disease control caused by pathogenic V. harveyi.     

Species-specific DNA probe and development of a quantitative PCR assay for the detection of Morganella morganii

Aims: To develop a SYBR Green quantitative PCR assay (qPCR) for the specific detection of Morganella morganii, a fish pathogen responsible for the Histamine Fish Poisoning. Methods and Results: A new primer set, amplifying a 179‐bp fragment of the 16S rRNA gene, was selected for specificity, and 14 M. morganii strains and 32 non‐Morganella strains were evaluated. The melting temperature of 84°C was consistently specific for the amplicon. Two standard curves were constructed: the minimum detection sensitivity was 0·563 pg of pure DNA, corresponding to DNA extracted from nine cells of M. morganii. The qPCR assay was evaluated in experiments with seeded fish samples, and the regression coefficient values were calculated. Conclusions: A highly specific and rapid assay was developed for the detection of M. morganii in tuna fish samples. Significance and Impact of the Study: This method represents the first study about the quantification of pathogenic M. morganii in fish products. This approach can be utilized to prevent the presence of this undesirable species in the food chain.     

Characterization of a phage specific to hemorrhagicEscherichia coli O157:H7 and disclosure of variations in host outer membrane protein OmpC

Phage AR1, previously known to infectEscherichia coli O157:H7 with high specificity, was further characterized for its genetic properties. The phage DNA sequences including capsid genes and a putative -glucosyltransferase gene(-gt) have been deduced. These sequences are conservative but not identical to those of T4 phage. However, a nonessential gene,SegD, organized within the capsid gene cluster of T4 is missing in the corresponding region of AR1 genome, and this characteristic has not been observed among T-even related phages. The difference between AR1 and T4 was further exemplified by their distinct host ranges. Strains ofE. coli O157:H7 collected from different sources were permissive to AR1 but resistant to T4 that normally infects K-12 strains ofE. coli through contact with the outer membrane protein OmpC. Thus, the O157:H7 strains must have a varied OmpC. Indeed, the OmpC sequence of O157:H7 strains was proved to differ from that of K-12 strains by a total of 15 amino acid substitutions and two gaps (a five-residue deletion and a four-residue insertion). The OmpC molecules are relatively conserved across the gram-negative bacteria, and this is the first time OmpC divergence has been found within the sameE. coli species. Since OmpC is located in the outer membrane and its expression is regulated by environmental conditions, alteration of the structure in pathogenic O157:H7 strains may have biological significance.     

Sequence variability of the 40-kDa outer membrane proteins of Fusobacterium nucleatum strains and a model for the topology of the proteins

The complete nucleotide sequences of the fomA genes encoding the 40-kDa outer membrane proteins (OMPs) of strains ATCC 10953 and ATCC 25586 of Fusobacterium nucleatum were determined using the genomic DNA, or DNA fragments ligated into a vector plasmid, as template in a polymerase chain reaction. The deduced amino acid sequences of these two proteins were aligned with the amino acid sequence of the corresponding protein of F. nucleatum strain Fev1 and examined for conserved/variable polypeptide segments. A model for the topology of the 40-kDa OMPs is proposed on the basis of this alignment and application of the structural principles derived for OMPs of Escherichia coli. According to this model, sixteen polypeptide segments, which are highly conserved, traverse the outer membrane, thereby creating eight external loops, most of which are highly variable.     

Temperate Bacteriophage Which Causes the Production of a New Major Outer Membrane Protein by Escherichia coli

Under most conditions of growth, the most abundant protein in the outer membrane of most strains of Escherichia coli is a protein designated as “protein 1” or “matrix protein”. In E. coli B, this protein has been shown to be a single polypeptide with a molecular mass of 36,500 and it may account for more than 50% of the total outer membrane protein. E. coli K-12 contains a very similar, although probably not identical, species of protein 1. Some pathogenic E. coli strains contain very little protein 1 and, in its place, make a protein designated as protein 2 which migrates faster on alkaline polyacrylamide gels containing sodium dodecyl sulfate and which gives a different spectrum of CNBr peptides. An E. coli K-12 strain which had been mated with a pathogenic strain was found to produce protein 2, and a temperate bacteriophage was isolated from this K-12 strain after induction with UV light. This phage, designated as PA-2, is similar in morphology and several other properties to phage lambda. When strains of E. coli K-12 are lysogenized by phage PA-2, they produce protein 2 and very little protein 1. Adsorption to lysogenic strains grown under conditions where they produce little protein 1 and primarily protein 2 is greatly reduced as compared to non-lysogenic strains which produce only protein 1. However, when cultures are grown under conditions of catabolite repression, protein 2 is reduced and protein 1 is increased, and lysogenic and non-lysogenic cultures grown under these conditions exhibit the same rate of adsorption. Phage PA-2 does not adsorb to E. coli B, which appears to have a slightly different protein 1 from K-12. These results suggest that protein 1 is the receptor for PA-2, and that protein 2 is made to reduce the superinfection of lysogens.     

Effects of Moritella viscosa antigens on pro-inflammatory gene expression in an Atlantic salmon (Salmo salar Linnaeus) cell line (SHK-1)

Moritella viscosa is the causative agent of winter ulcer disease in salmonids reared in North-Atlantic countries. In this study the effects of selected M. viscosa antigens on cytotoxicity and pro-inflammatory gene expression in an Atlantic salmon (Salmo salar Linnaeus) macrophage-like cell line (SHK-1) were examined. SHK-1 cells were stimulated with live and heat-killed bacterial cells, extracellular products (ECP) and an extracellular vibriolysin, termed MvP1. Following incubation, cytotoxicity and expression levels of interleukin-1β (IL-1β) and interleukin-8 (IL-8) were examined at different time points. Both live M. viscosa cells and ECP were cytotoxic, but neither heat-killed cells, nor the MvP1 peptidase caused cell death. Expression levels of both IL-1β and IL-8 increased significantly after stimulation with live cells, but heat-killed cells only caused increased IL-8 expression. ECP did not affect IL-1β expression, but did stimulate IL-8 expression. The isolated MvP1 peptidase stimulated both IL-1β and IL-8 expression at the highest concentration tested. This study reveals a difference in the induction of pro-inflammatory gene expression in salmon SHK-1 cells between live and heat-killed M. viscosa cells, and also that an unknown secreted factor is the main stimulant of IL-β and IL-8 expression.     

Detection of type III secretion gene as an indicator for pathogenic Edwardsiella tarda

Aims: To differentiate pathogenic and nonpathogenic Edwardsiella tarda strains based on the detection of type III secretion system (T3SS) gene using polymerase chain reaction (PCR). Methods and Results: Primers were designed to amplify Edw. tarda T3SS component gene esaV, catalase gene katB, haemolysin gene hlyA and 16S rRNA gene as an internal positive control. Genomic DNAs were extracted using a commercial isolation kit from 36 Edw. tarda strains consisting of 18 pathogenic and 18 nonpathogenic strains, and 50 ng of each DNA was used as the template for PCR amplification. PCR was performed with a thermocycler (TaKaRa TP600) in a 25‐μl volume. Products of esaV were detected in all pathogenic strains, but not in nonpathogenic strains; katB was detected in all pathogenic strains and one of nonpathogenic strains; hlyA was not detected in any strains. Conclusions: The detection of esaV gene can be used for the assessment of pathogenic Edw. tarda strains. Significance and Impact of the Study: The strategy using T3SS gene as the virulence indicator provides a useful tool for the clinical assessment of pathogenic Edw. tarda strains and prediction of edwardsiellosis risk in fish culture environments.     

Membrane topology and site-specific mutagenesis of Pseudomonas aeruginosa porin OprD

Pseudomonas aeruginosa OprD is a 420-amino-acid protein that facilitates the uptake of basic amino acids, imipenem and gluconate across the outer membrane. OprD was the first specific porin that could be aligned with members of the non-specific porin super-family. Utilizing multiple alignments in conjugation with structure predictions and amphipathicity calculations, an OprD-topology model was proposed. Sixteen β-strands were predicted, connected by short loops at the periplasmic side. The eight external loops were of variable length but tended to be much longer than the periplasmic ones. Polymerase chain reaction (PCR)-based site-specific mutagenesis was performed to delete separately short stretches (4-8 amino acid residues) from each of the predicted external loops. The mutants with deletions in the predicted external loops L1, L2, L5, L6, L7 and L8 were tolerated in both Escherichia coli and P. aeruginosa. The expressed mutant proteins maintained substantial resistance to trypsin treatment in the context of isolated outer membranes. Proteins with deletions in loops L1, L5, L6, L7 and L8 reconstituted similar imipenem supersusceptibility in a P. aeruginosa OprD::Ω background. The L2-deletion mutant only partially reconstituted supersusceptibility, suggesting that loop L2 is involved in imipenem binding. These data were generally consistent with the topology model.     

Isolation and Characterization of Three Porin-Like Proteins from Vibrio vulnificus: Effect of Different Growth Media on Their Production

The effect of the culture media on the composition of the outer membrane protein of Vibrio vulnificus strain 393 from human blood was examined. Only one major outer membrane protein, with an apparent molecular weight of 37,000 (37K protein) and 34,000 (34K protein), was formed in the cells grown in 3% NaCl-BHI broth and chemically defined medium, respectively. The production of one major outer membrane protein was also observed in other isolates from humans and asari clam when they were grown in 3% NaCl-BHI broth. On the other hand, three major outer membrane proteins, with apparent molecular weights of 48,000 (48K protein), 37,000 (37K protein), and 34,000 (34K protein), were produced in the cells grown in 3% NaCl-nutrient broth. Three proteins, 48K, 37K, and 34K from strain 393, were purified and the amino acid compositions were determined. Although there was a little difference in the composition of amino acid among three proteins, the amino acid compositions of the three porin-like proteins showed characteristic properties of the porins of Escherichia coli and Salmonella typhimurium. Immunoblot analysis of the outer membrane proteins from four vibrios, E. coli, and S. typhimurium using monospecific antisera against these three porin-like proteins showed that only the antiserum against 37K protein cross-reacted with the outer membrane proteins from all the strains tested.     

Identification of the sid outer membrane receptor protein in Salmonella typhimurium SL1027.

Summary A protein of molecular weight 78,000 daltons, missing in albomycin and phage ES18 resistant mutants, has been identified in the outer membrane of Salmonella typhimurium SL1027. Mutants with a tonB like resistance and overproduction of outer membrane proteins due to iron shortage were also isolated. The mutation which leads to the protein deficiency maps in the sid gene region, the mutation related to overproduction of proteins maps near trp. Although the S. typhimurium and the E. coli protein mediate translocation of the iron complex ferrichrome and the structurally analogous antibiotic albomycin through the outer membrane no cross-reactivity exists in binding the phages T5, T1 and ES18 or colicin M.     

Duplex real-time PCR detection of type III effector tccP and tccP2 genes in pathogenic Escherichia coli and prevalence in raw milk cheeses

Aims: To develop a duplex real‐time PCR assay targeting enterohaemorrhagic Escherichia coli (EHEC) type III effector TccP/TccP2‐encoding genes which are pivotal to EHEC‐mediated actin cytoskeleton reorganization in human intestinal epithelial cells. Methods and Results: The specificity of the assay was demonstrated with DNA from EHEC reference strains and non‐E. coli bacterial species. The detection limit was determined as five tccP or tccP2 copies per reaction. The assay was then evaluated on a large collection of 526 E. coli strains of human, animal, food and environmental origins. The results showed that tccP was restricted to a limited number of serotypes (i.e. O5:H^?, O55:H7, O125:H6 and O157:H7). The tccP2 gene was present in a higher number of serotypes including the five most frequent EHEC serotypes (i.e. O26:H11, O103:H2, O111:H8, O145:H28 and O157:H7), and a few other serotypes that caused human infections (i.e. O4:H^?, O45:H2 and O55:H7). A minority of O26:H11 and O103:H2 strains however tested negative for tccP2, though it is not known whether the lack of tccP2 affected their pathogenic potential. Real‐time PCR analysis of 400 raw milk cheeses revealed the presence of tccP and/or tccP2 genes in 19·75% of the cheese enrichment suspensions. Conclusions: A highly specific and sensitive duplex real‐time PCR method was developed for rapid and simultaneous detection of tccP and tccP2. Unpasteurized dairy products may be contaminated with E. coli strains carrying tccP and/or tccP2. Significance and Impact of the Study: The developed real‐time PCR assay represents a valuable alternative to conventional PCR tests and should be useful for characterization of the virulome of pathogenic E. coli strains.     

Secretion of the overproduced periplasmic PhoA protein into the medium and accumulation of its precursor in phoA-transformed Escherichia coli strains: involvement of outer membrane vesicles

Various Escherichia coli strains were transformed by multicopy plasmids pHI-1, pHI-7 and pPHOI carrying the entire regulatory and structural phoA sequences. All transformants with the intact pho regulatory system displayed PhoA oversynthesis and secretion into the medium. They also accumulated the alkaline phosphatase precursor localized in the outer membrane fraction. The dynamics of enzyme synthesis and secretion as well as cell cytomorphology during secretion were studied in strain E. coli K12 802 carrying pHI-7 plasmid. PhoA protein was shown to be selectively released into the medium in vesicles budding from outer membrane.The authors are with the institute of Biochemistry and Physiology of Microorganisms, USSR Academy of Sciences, 142292 Puschino, Moscow Region, USSR.     

Utilization of Iron Sources and Its Possible Roles in the Pathogenesis of Vibrio parahaemolyticus

Vibrio parahaemolyticus is an important enteropathogen in Japan, Taiwan and other coastal regions. The influence of the regulation of iron on the pathogenesis of this pathogen has not been well characterized. The growth of pathogenic and non-pathogenic strains of V. parahaemolyticus on iron-limited agar plates was stimulated by ferritin, lactoferrin and transferrin at 30 μM , and also by hemin, hemoglobin and ferric ammonium citrate at 100 μM . Spontaneous iron-utilizing mutant strains (mutants) were derived from a clinical strain, ST550. Compared with the parent strain, lowered virulence was demonstrated for these mutants, as assayed by adult mouse and suckling mouse models. The in vivo growth and enterotoxigenicity of these mutants were also lower in the suckling mice. Adherence of the mutants to excised mouse intestine was lower as demonstrated by scanning electron microscopy. The iron-regulated outer membrane protein profile also changed in selected mutants. These results indicate that iron-regulated outer membrane proteins and other unknown factors associated with iron utilization may have profound influences, besides iron acquisition, on the pathogenesis of V. parahaemolyticus.     

Phylogenetic group distribution and prevalence of virulence genes in <Emphasis Type="Italic">Escherichia coli</Emphasis> isolates from food samples in South Korea

We analyzed the distribution of phylogenetic groups of foodborne Escherichia coli isolates. We also investigated the prevalence of virulence-associated genes of diarrheagenic E. coli. In total, 162 E. coli isolated from foods (raw meat, fish, and processed foods) were collected in Korea. Approximately 90% of the foodborne isolates belonged to phylogenetic groups A and B1, whereas 1.2% were allocated to group B2, and 9.3% to D. Multiplex polymerase chain reaction (PCR) assays were used to detect the following: stx ₁ and stx ₂ to identify Shiga toxin-producing E. coli (STEC), eae and bfpA to identify enteropathogenic E. coli (EPEC), ipaH for enteroinvasive E. coli, CVD432 for enteroaggregative E. coli, and lt and st for enterotoxigenic E. coli (ETEC). The presence of daaD in diffusely adherent E. coli was examined by singleplex PCR. Of the 162 foodborne E. coli isolates, three (1.9%) were confirmed to be pathogenic E. coli: STEC, ETEC, and atypical EPEC based on their possession of stx ₁, st, and eae, and the pathogenic strains were isolated in beef, rockfish, and pork, respectively. Molecular typing was conducted by multilocus sequence typing to investigate the genetic relationships among the pathogenic strains. All isolates positive for virulence genes had different mulilocus sequence typing profiles representing different sequence types (ST) of ST101, ST1815, and ST1820. These results indicate that some food samples were contaminated with pathogenic E. coli.