Sa I isbu ry, Wi Its hi re SP4 OJG, UK Salmonella enteritidis expresses flagella and several finely regulated fimbriae, including SEF14, SEF17 and SEF21 (type 1). A panel of mutants was prepared in three strains of S. enteritidis to elucidate the role of these surface appendages in the association with and invasion of cultured epithelial cells. In all assays, the naturally occurring regulatory-defective strain 27655R associated with tissue culture cells significantly more than wild-type progenitor strains LA5 and S1400/94. Compared with wild-type strains, SEF14 mutants had no effect on association and invasion, whereas SEF17, SEF21 and aflagellate mutants showed significant reductions in both processes. Histological examination suggested a role for SEF17 in localized, aggregative adherence, which could be specifically blocked by anti-SEFl7 sera and purified SEFl7 fimbriae. SEF21-mediated association was neutralized by mannose and a specific monoclonal antibody, although to observe enhanced association it was necessary for the bacteria to be in fimbriate phase prior to infection. Additionally, aflagellate mutants associated and invaded less than motile bacteria. This study demonstrated the potential for multifactorial association and invasion of epithelial cells which involved SEF17 and SEF2l fimbriae, and flagellamediated motility.
A 25 kDa antigen of Mycobacterium bovis has previously been identified as immunodominant during badger infections. This 25 kDa antigen was partially purified from sonicated M bovis bacilli by using water precipitation and ion exchange chromatography, and its purification was monitored with a mouse monoclonal antibody, MBS43, which was specific for the antigen. The partly purified antigen was used to develop an ELISA for the assay of badger sera for the presence of specific antibodies. A presumed negative badger population was used to calculate the assay's threshold of seropositivity and using this value, its sensitivity (37 percent) and specificity (98 percent) were determined in a second population of known culture status. The results indicate that it may be possible to develop a specific and cost effective serological field assay for the diagnosis of M bovis infection in living badgers.
Immunoelectrophoresis and haemagglutination studies with a K99 antigen extract from the reference strain Escherichia coli B41 (O101:K99) demonstrated both anionic and cationic mannose-resistant haemagglutinins for horse red blood cells. Neither haemagglutinin was produced by bacteria grown at 18 degrees C. Antibodies to the cationic haemagglutinin were demonstrated in antisera to all the K99-positive E. coli strains in every serogroup examined, but antibodies to the anionic haemagglutinin were only detected in antisera to E. coli strains from the O9 and O101 serogroups. Inhibition of E. coli B41 adhesion to calf brush borders and indirect immunofluorescent staining indicated that the anionic haemagglutinin also exhibited adhesive properties.
A K99-negative mutant of the K99 reference strain Escherichia coli B41 (O101:K99) was isolated (strain B41M). It did not react with OK antiserum to a K12 K99+ recombinant or with OK antiserum to K99-positive organisms from the O8, O20, or O64 serogroups, but it did react with OK antiserum to K99-positive organisms from the O101 and O9 serogroups. The mutant hemagglutinated sheep erythrocytes and attached in vitro to calf enterocytes when cultured at 37 degrees C but not when grown at 18 degrees C. Attachment was mannose resistant but susceptible to heating and formaldehyde. These properties were associated with the presence of fimbriae. The isolated hemagglutinin migrated to the anode in immunoelectrophoresis experiments, competitively inhibited attachment of strain B41M to calf enterocytes, and could be demonstrated adhering to these cells in vitro by indirect immunofluorescent staining. The anionic hemagglutinin is referred to provisionally as F41. Germfree piglets infected with strain B41M developed diarrhea within 16 h. Scanning electron microscopy showed groups of bacteria adherent to the microvilli of villous enterocytes. Indirect immunofluorescent staining demonstrated the presence of F41 antigen in vivo.
The enterotoxigenic Escherichia coli strains 1676,1706,175 1 and KEC96a, which do not produce fimbrial adhesive antigens of the K88, K99 or 987P antigen type reacted both in vitro and in vivo with antiserum to F41 fimbriae in an indirect immunofluorescent antibody technique. Antiserum used to demonstrate material B, an adhesive antigen thought to mediate the adhesive and mannose-resistant (MR) haemagglutinating properties of E. coli strains 1676, 1706 and 1751, reacted in vitro with an F41+ strain. The antiserum also inhibited the MR haemagglutinating activity of F41 antigen and gave an anionic precipitation line in immunoelectrophoresis experiments with an extract containing F41 antigen.The MR haemagglutinating properties of an antigen extract containing material B from E. coli strain 1706 was neutralized by antiserum to F41 fimbriae and by OK antisera to E. coli strains that produce both F41 and K99 fimbriae. These sera also gave an anionic precipitation line with the MR haemagglutinin from E . coli strain 1706 and the MR haemagglutinin gave a line of identity with F41 in gel diffusion experiments with antiserum to F41 fimbriae. OK antisera to K99+ F41-bacteria and OK antisera to K88+ bacteria and 987P+ bacteria did not react with this haemagglutinin.Transmission electron microscopy on the ileum of newborn gnotobiotic piglets infected with E. coli strain 1706 showed irregular, poorly defined filamentous material surrounding some, though not all, bacteria but regular fimbrial structures were not visible. Fine thread-like material was visible surrounding most of the bacteria in ultra thin sections from a piglet infected with an E. coli strain that produces both F41 and K99. Staining with ruthenium red suggested that this material was associated with polysaccharide.
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