The bovine gastrointestinal tract is the main reservoir for enterohaemorrhagic Escherichia coli (EHEC) responsible for food-borne infections. Characterization of nutrients that promote the carriage of these pathogens by the ruminant would help to develop ecological strategies to reduce their survival in the bovine gastrointestinal tract. In this study, we show for the first time that free ethanolamine (EA) constitutes a nitrogen source for the O157:H7 EHEC strain EDL933 in the bovine intestinal content because of induction of the eut (ethanolamine utilization) gene cluster. In contrast, the eut gene cluster is absent in the genome of most species constituting the mammalian gut microbiota. Furthermore, the eutB gene (encoding a subunit of the enzyme that catalyses the release of ammonia from EA) is poorly expressed in non-pathogenic E. coli. Accordingly, EA is consumed by EHEC but is poorly metabolized by endogenous microbiota of the bovine small intestine, including commensal E. coli. Interestingly, the capacity to utilize EA as a nitrogen source confers a growth advantage to E. coli O157:H7 when the bacteria enter the stationary growth phase. These data demonstrate that EHEC strains take advantage of a nitrogen source that is not consumed by the resident microbiota, and suggest that EA represents an ecological niche favouring EHEC persistence in the bovine intestine.
The nature of the common surface antigen of six hemagglutinating and adhesive piliated Escherichia coli strains isolated from diarrheic or septicemic calves was studied. By electron microscopy studies, the E. coli surface antigen designated CS31A was found on bacterial cells and in purified form to consist of thin (2-nm) "fibrillar" fimbriae. E. coli 31A, which was cured of a 105-megadalton plasmid, failed to express CS31A fimbriae, but retained the ability to hemagglutinate and to adhere in vitro on intestinal cells. Conversly, E. coli K-12, harboring the 105-megadalton plasmid originating from strain 31A, produced CS31A fimbriae but was not able to hemagglutinate or adhere on intestinal cells. A single fimbrial subunit of 29 kilodaltons was observed when purified fimbriae from the 105-megadalton plasmid-containing E. coli K-12 strain was subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis or eluted by gel filtration after dissociation by 8.5 M guanidium hydrochloride from an S300 Sephacryl column. Western immunoblot analysis and the N-terminal sequence and amino acid composition of CS31A indicate structural and immunological relatedness between CS31A and K88 protein subunits. 2180on July 31, 2020 by guest http://iai.asm.org/ Downloaded from
Only a subset of Shiga toxin (Stx)-producing Escherichia coli (STEC) are human pathogens, but the characteristics that account for differences in pathogenicity are not well understood. In this study, we investigated the distribution of the stx variants coding for Stx2 and its variants in highly virulent STEC of seropathotype A and low-pathogenic STEC of seropathotype C. We analysed and compared transcription of the corresponding genes, production of Shiga toxins, and stx-phage release in basal as well as in induced conditions. We found that the stx 2 variant was mainly associated with strains of seropathotype A, whereas most of the strains of seropathotype C possessed the stx 2-vhb variant, which was frequently associated with stx 2 , stx 2-vha or stx 2c . Levels of stx 2 and stx 2 -related mRNA were higher in strains belonging to seropathotype A and in those strains of seropathotype C that express the stx 2 variant than in the remaining strains of seropathotype C. The stx 2-vhb genes were the least expressed, in basal as well as in induced conditions, and in many cases did not seem to be carried by an inducible prophage. A clear correlation was observed between stx mRNA levels and stx-phage DNA in the culture supernatants, suggesting that most stx 2 -related genes are expressed only when they are carried by a phage. In conclusion, some relationship between stx 2 -related gene expression in vitro and the seropathotype of the STEC strains was observed. A higher expression of the stx 2 gene and a higher release of its product, in basal as well as in induced conditions, was observed in pathogenic strains of seropathotype A. A subset of strains of seropathotype C shows the same characteristics and could be a high risk to human health.
, stx 2-vha , and stx 2-vhb ) were concentrated in seropathotypes associated with disease, others (astA, HPI, stx 1c , and stx 2-NV206 ) were concentrated in seropathotypes that are not associated with disease. Taken together with the observation that the STEC-A group was exclusively composed of strains lacking eae recovered from seropathotypes that are not associated with disease, the "atypical" virulence pattern suggests that STEC-A strains comprise a distinct category of STEC strains. A practical benefit of our phylogenetic analysis of STEC strains is that phylogenetic group A status appears to be highly predictive of "nonvirulent" seropathotypes.
Bovine septicemic Escherichia coli 31A agglutinates bovine, rabbit, and human erythrocytes and adheres in vitro to the brush border of bovine or ovine intestinal epithelial cells and to the human colon carcinoma Caco-2 cell line. The adhesion and hemagglutination of E. coli 31A are mediated by a chromosome-encoded fimbrial adhesin serologically distinct from known fimbrial adhesins found in enterotoxigenic and septicemic bovine E. coli strains. By electron microscopy studies the fimbriae designated 20K were observed as fine flexible filaments (diameter, 3 nm) and the purified major fimbrial subunit appeared with an apparent molecular mass of 20,000 Da. Western blot (immunoblot) analysis, N-terminal sequence alignment, and amino acid composition revealed a high homology with the N-acetyl-D-glucosamine-specific G fimbria of human uropathogenic E. coli and with fimbriae belonging to the F17 family produced by bovine enterotoxigenic and invasive E. coli strains. Immunological study revealed that 20K fimbria was closely related to G fimbria and represents a serological variant of F17 fimbria. Hemagglutination and adhesion inhibition assays demonstrated that 20K, G, and F17 fimbriae bind to an N-acetyl-D-glucosamine-containing receptor, but each probably binds to different oligosaccharide sequences or different receptors on host tissues. 20K fimbriae were produced by a limited group of clonally related strains with the unusual m-inositol-positive phenotype and appeared highly associated with the plasmid-encoded CS31A surface antigen. It was expected that 20K-and CS31A-positive E. coli strains with the m-inositol-positive phenotype could represent a new example of association between bacterial clones and a plasmid-mediated virulence factor. An examination of natural occurrence of 20K fimbriae among a large collection of human and animal pathogenic E. coli showed that 20K fimbria is the prominent adhesin among bovine septicemic E. coli isolated from European countries.
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