Yvonne Schlatter scite author profile

An ADP-ribosylating toxin named Aeromonas salmonicida exoenzyme T (AexT) in A. salmonicida subsp. salmonicida, the etiological agent of furunculosis in fish, was characterized. Gene aexT, encoding toxin AexT, was cloned and characterized by sequence analysis. AexT shows significant sequence similarity to the ExoS and ExoT exotoxins of Pseudomonas aeruginosa and to the YopE cytotoxin of different Yersinia species. The aexT gene was detected in all of the 12 A. salmonicida subsp. salmonicida strains tested but was absent from all other Aeromonas species. Recombinant AexT produced in Escherichia coli possesses enzymatic ADP-ribosyltransferase activity. Monospecific polyclonal antibodies directed against purified recombinant AexT detected the toxin produced by A. salmonicida subsp. salmonicida and cross-reacted with ExoS and ExoT of P. aeruginosa. AexT toxin could be detected in a wild type (wt) strain of A. salmonicida subsp. salmonicida freshly isolated from a fish with furunculosis; however, its expression required contact with RTG-2 rainbow trout gonad cells. Under these conditions, the AexT protein was found to be intracellular or tightly cell associated. No AexT was found when A. salmonicida subsp. salmonicida was incubated in cell culture medium in the absence of RTG-2 cells. Upon infection with wt A. salmonicida subsp. salmonicida, the fish gonad RTG-2 cells rapidly underwent significant morphological changes. These changes were demonstrated to constitute cell rounding, which accompanied induction of production of AexT and which led to cell lysis after extended incubation. An aexT mutant which was constructed from the wt strain with an insertionally inactivated aexT gene by allelic exchange had no toxic effect on RTG-2 cells and was devoid of AexT production. Hence AexT is directly involved in the toxicity of A. salmonicida subsp. salmonicida for RTG-2 fish cells.Aeromonas salmonicida subsp. salmonicida is the etiological agent of furunculosis of Salmonidae. This fish disease causes most severe losses in production farms of salmon and trout and leads to the use of large amounts of antibiotics in closed and open waters for prevention and therapy of furunculosis. To develop efficient strategies to prevent outbreaks of A. salmonicida subsp. salmonicida, it is essential to know the main mechanisms of pathogenicity of this pathogen. Several potential virulence factors of A. salmonicida subsp. salmonicida have been described thus far. They include the surface array layer protein (7); hemolysins ASH1, ASH3, and ASH4 (12); H-lysin (29); salmolysin (19); serine protease AspA (32); and the glycerophospholipid:cholesterol acyltransferase (GCAT) complexed with lipopolysaccharide (18). Recent reports demonstrate the role of the S layer in adhesion (11) of A. salmonicida subsp. salmonicida. The other potential virulence factors of A. salmonicida subsp. salmonicida that are currently known do not seem to play a primary role in pathogenesis. GCAT and aspA gene deletion mutants showed that neither GCAT nor aspA is essential ...

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Antibiotic‐induced expression of a cryptic cpb2 gene in equine β2‐toxigenic Clostridium perfringens

Vilei

Schlatter

Perreten

et al. 2005

Molecular Microbiology

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Routine Phenotypic Identification of Bacterial Species of the Family Pasteurellaceae Isolated from Animals

et al. 2008

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Abstract. Pasteurellaceae are bacteria with an important role as primary or opportunistic, mainly respiratory, pathogens in domestic and wild animals. Some species of Pasteurellaceae cause severe diseases with high economic losses in commercial animal husbandry and are of great diagnostic concern. Because of new data on the phylogeny of Pasteurellaceae, their taxonomy has recently been revised profoundly, thus requiring an improved phenotypic differentiation procedure to identify the individual species of this family. A new and simplified procedure to identify species of Actinobacillus, Avibacterium, Gallibacterium, Haemophilus, Mannheimia, Nicoletella, and Pasteurella, which are most commonly isolated from clinical samples of diseased animals in veterinary diagnostic laboratories, is presented in the current study. The identification procedure was evaluated with 40 type and reference strains and with 267 strains from routine diagnostic analysis of various animal species, including 28 different bacterial species. Type, reference, and field strains were analyzed by 16S ribosomal RNA (rrs) and rpoB gene sequencing for unambiguous species determination as a basis to evaluate the phenotypic differentiation schema. Primary phenotypic differentiation is based on b-nicotinamide adenine dinucleotide (b-NAD) dependence and hemolysis, which are readily determined on the isolation medium. The procedure divides the 28 species into 4 groups for which particular biochemical reactions were chosen to identify the bacterial species. The phenotypic identification procedure allowed researchers to determine the species of 240 out of 267 field strains. The procedure is an easy and cost-effective system for the rapid identification of species of the Pasteurellaceae family isolated from clinical specimens of animals.

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Characterization and Analysis of a Stable Serotype-Associated Membrane Protein (P30) of Mycoplasma agalactiae

et al. 2001

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The gene for a 30-kDa immunodominant antigen, P30, of Mycoplasma agalactiae was cloned from type strain PG2 and expressed in Escherichia coli. P30 is encoded on a monocistronic operon determined by two ؊10 boxes and a possible ؊35 region constituting the potential promoter, and a transcription termination site. The gene for the 266-amino-acid protein is preceded by a polypurine-rich region designed as the consensus sequence for a ribosome-binding site. Analysis of the amino acid sequence of P30 revealed the presence of a recognition site for a prokaryotic signal peptidase II at amino acid (aa) 24, indicating that P30 is a transmembrane protein.Moreover, Triton X-114 phase partitioning of M. agalactiae PG2 total antigen revealed that P30 is strongly hydrophobic and hence a possible membrane component. Immunoblot analysis using the monospecific polyclonal anti-P30-His serum indicated that P30 is specific to M. agalactiae. Furthermore, PCR amplification with specific primers for p30 and Southern blot analysis revealed the presence of the gene in all M. agalactiae strains tested and its absence in the other mycoplasma species. Among 27 strains of M. agalactiae studied, 20 strains belonging to the common serotypes A to D, including PG2, expressed P30 or part of it as detected by the monospecific polyclonal anti-P30 antibodies. The other seven strains belonging to the rarely isolated serotypes E to H were negative for P30. The p30 gene was sequenced in 15 strains of M. agalactiae, 10 of which expressed P30 or at least part of it and 5 of which did not express P30. The negative strains carried mutations in both ؊10 boxes of the promoters. These mutations seem to be responsible for the lack of P30 expression in these strains. Analysis of sera from sheep that were experimentally infected with M. agalactiae revealed that P30 induced a strong and persistent immune response which was still very high two months after infection. In contrast, currently used enzyme-linked immunosorbent assay serology gave only low titers.Mycoplasma agalactiae is the main causative agent of the contagious agalactia (CA) syndrome of sheep and goats. This syndrome, characterized by agalactia, mastitis, arthritis, and sometimes keratoconjunctivitis, is present all over the world with a particular importance around the Mediterranean basin (6, 11). M. agalactiae causes extensive economical losses particularly in dairy flocks and herds, due to persistent and highly contagious agalactia which makes regular cheese production impossible. From an epidemiological point of view, CA is characterized by an important infection chronicity at the flock level, and long-lasting situations of endemicity at the regional level. A better understanding of mechanisms implicated in the pathogenesis as well as knowledge about the nature of the major antigenic substances of M. agalactiae will be necessary for controlling CA. A few mycoplasmas use a specialized attachment organelle (10) where adhesins are concentrated, and this permits adhesion to the host cells and, then, ...

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