The major gastrointestinal pathogen Campylobacter jejuni is shown to exist as three forms of monospecies biofilm in liquid culture. It attaches to a glass surface; forms an unattached aggregate (floc); and forms a pellicle at the liquid–gas interface. The three forms of biofilm resemble each other when examined by scanning electron microscopy. The biofilm mode of growth confers protection against environmental stress, the microaerobic bacteria in flocs surviving up to 24 days at ambient temperature and atmosphere compared to 12 days survival by planktonic bacteria. The wild-type strains C. jejuni 33106, 32799, 33084 and 31485 did not form flocs, and floc formation was reduced in strains mutant in a putative flagellar protein (FliS) and in a phosphate acetyltransferase (Cj0688). All other strains tested, including strains with mutations affecting capsular polysaccharide (kpsM), flagella (maf5), protein glycosylation (pglH) and lipo-oligosaccharide (neuB1) formed flocs. Similarly, all strains tested formed a pellicle and attached to glass except the aflagellate mutant maf5; pellicle formation was reduced in fliS and cj0688 mutants. Different mechanisms, therefore, may control formation of different forms of biofilm. It is proposed that these poorly characterized forms of growth are important for the persistence of C. jejuni in the environment and may in part explain the high incidence of Campylobacter-associated food borne disease.
To investigate Yersinia pathogenicity and the evolutionary divergence of the genus, the effect of pathogenic yersiniae on the model organism Caenorhabditis elegans was studied. Three strains of Yersinia pestis, including a strain lacking pMT1, caused blockage and death of C. elegans; one strain, lacking the haemin storage (hms) locus, caused no effect. Similarly, 15 strains of Yersinia enterocolitica caused no effect. Strains of Yersinia pseudotuberculosis showed different levels of pathogenicity. The majority of strains (76 %) caused no discernible effect; 5 % caused a weak infection, 9?5 % an intermediate infection, and 9?5 % a severe infection. There was no consistent relationship between serotype and severity of infection; nor was there any relationship between strains causing infection of C. elegans and those able to form a biofilm on an abiotic surface. Electron microscope and cytochemical examination of infected worms indicated that the infection phenotype is a result of biofilm formation on the head of the worm. Seven transposon mutants of Y. pseudotuberculosis strain YPIII pIB1 were completely or partially attenuated; mutated genes included genes encoding proteins involved in haemin storage and lipopolysaccharide biosynthesis. A screen of 15 defined C. elegans mutants identified four where mutation caused (complete) resistance to infection by Y. pseudotuberculosis YPIII pIB1. These mutants, srf-2, srf-3, srf-5 and the dauer pathway gene daf-1, also exhibit altered binding of lectins to the nematode surface. This suggests that biofilm formation on a biotic surface is an interactive process involving both bacterial and invertebrate control mechanisms.
A mouse monoclonal antibody (MoAb), reactive with a repetitive carbohydrate epitope on lentil-lectin adherent glycoproteins present on the surface and in the secretions of Taenia saginata cysticerci, was used in the construction of a diagnostic ELISA assay to detect these glycoproteins in the serum of T. saginata infected cattle. The MoAb was used as the trapping layer and subsequently bound glycoprotein was revealed using the same MoAb and biotinylated peroxidase-streptavidin complex as the developing system. The assay was suitably specific. Exceptionally low background values were obtained with sera from animals with a range of commonly occurring tropical parasitic infections, including Taenia hydatigena, Echinococcus granulosus and Fasciola gigantica. The minimal detection level was approximately 200 live cysticerci in cattle. Parasite derived glycoprotein could be detected in serum from about 4-5 weeks post-infection onwards and was associated with a current infection, as drug treatment of infected cattle to kill the cysticerci resulted in the disappearance of these components from the circulation, while the titre of anti-parasite antibody remained high. The same assay also detected Taenia solium cysticercosis in humans.
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