dAmong the pathovars of Escherichia coli in cattle, necrotoxigenic E. coli (NTEC) is defined by the production of cytotoxic necrotizing factors (CNFs). In particular, type 2 NTEC (NTEC2) strains are frequent in diarrheic and septicemic calves and usually coproduce CNF type 2 (CNF2), cytolethal distending toxin type III (CDTIII), and fimbrial adhesins of the F17 family, whose genetic determinants have frequently been reported on the same Vir-like plasmid. In this study, we investigated the genetic environment of the cnf2, f17Ae, and cdtIII genes in a collection of fecal E. coli isolates recovered from 484 French and 58 Iranian calves. In particular, we highlighted the spread of cnf2, f17Ae, and cdtIII on similar 150-kb IncF plasmids harboring the newly assigned repFII replicon allele F74 in NTEC2 isolates. Interestingly, this 150-kb IncF plasmid differed from the 140-kb IncF plasmid harboring the newly assigned repFII replicon allele F75 and carrying cnf2 alone. These results suggest two divergent lineages of cnf2-carrying IncF plasmids depending on the presence of the f17Ae and cdtIII genes. This partition was observed in E. coli strains of unrelated backgrounds, suggesting two different evolutionary paths of cnf2-carrying IncF plasmids rather than divergent evolutions of NTEC2 clones. The driving forces for such divergent evolutions are not known, and further studies are required to clarify the selection of plasmid subtypes spreading virulence determinants in E. coli, in particular, plasmids of the IncF family.
Escherichia coli is considered a dominant member of the normal microflora of mammals but may also be responsible for intestinal and extraintestinal infections (1). Accordingly, several pathovars of E. coli have been reported over time both in humans and in animals (1, 2). In general, those infections result from a combination of host susceptibility and biological functions expressed by the pathogenic E. coli strain, such as an enhanced ability to colonize the host or the production of toxigenic factors.To adhere to host cells, pathogenic E. coli strains usually produce fimbrial or afimbrial adhesins. In cattle, E. coli isolates from diarrheic and septicemic calves often produce F17 fimbriae (3, 4), which bind N-acetyl-D-glucosamine (GlcNAc)-containing receptors present on host intestinal epithelial cells (4, 5). F17 fimbriae consist of fine filamentous heteropolymers composed of two main subunits: the pilin F17-A subunit, which forms the bulk of the fimbriae, and the adhesin F17-G subunit (4). Several variants have been reported: F17a-A, F17b-A, F17c-A, F17d-A, F17e-A, and F17f-A for the F17-A pilin (6-10) and F17-G1, F17-G2, and F17-G3 for the F17-G adhesin (10, 11). In particular, the recently reported F17e-A variant was abundantly found in E. coli isolates from diarrheic calves in Iran and was found to be associated with F17-G3 on a pathogenicity or a fitness island in Shiga toxin-producing E. coli (STEC) strain MHI813 (10).Among the virulence determinants reported in cattle-pathogenic E. coli strains...
