To test the canine reservoir hypothesis of extraintestinal pathogenic Escherichia coli (ExPEC), 63 environmental canine fecal deposits were evaluated for the presence of ExPEC by a combination of selective culturing, extended virulence genotyping, hemagglutination testing, O serotyping, and PCR-based phylotyping. Overall, 30% of canine fecal samples (56% of those that yielded viable E. coli) contained papG-positive E. coli, usually as the predominant E. coli strain and always possessing papG allele III (which encodes variant III of the P-fimbrial adhesin molecule PapG). Multiple other virulence-associated genes typical of human ExPEC were prevalent among the canine fecal isolates. According to serotyping, virulence genotyping, and random amplified polymorphic DNA analysis, over 50% of papG-positive fecal E. coli could be directly correlated with specific human clinical isolates from patients with cystitis, pyelonephritis, bacteremia, or meningitis, including archetypal human ExPEC strains 536, CP9, and RS218. Five canine fecal isolates and (clonally related) archetypal human pyelonephritis isolate 536 were found to share a novel allele of papA (which encodes the P-fimbrial structural subunit PapA). These data confirm that ExPEC representing known virulent clones are highly prevalent in canine feces, which consequently may provide a reservoir of ExPEC for acquisition by humans. (2,33,53,57). This hypothesis is based on several lines of evidence, including (i) the documented similarities between certain canine and human urinary tract infection (UTI) isolates of E. coli with respect to virulence factors (VFs), O antigens, and evolutionary lineage (33,(53)(54)(55)57), (ii) the observation that in dogs with UTI the infecting E. coli strain often derives immediately from the host's own fecal flora (33), and (iii) the high prevalence of UTI-associated VFs among canine fecal E. coli isolates (57). However, doubts regarding the validity of the canine reservoir hypothesis have persisted (2) because of the differences noted in some studies between canine and human ExPEC isolates with respect to adherence phenotypes (8,33,48,55) and surface antigens (48, 56), which presumably reflect clonal relationships.
Dogs have been proposed as a possible reservoir of the virulent Escherichia coli strains that cause extraintestinal infections in humans (extraintestinal pathogenic E. coli [ExPEC])The ostensibly atypical agglutination phenotypes of canine UTI isolates were recently shown to be due to expression by canine strains of papG allele III, which encodes a variant of the P-fimbrial adhesin molecule PapG that is now known to be epidemiologically associated with human cystitis (23). The agglutination phenotypes of strains that expressed papG allele III were found to be indistinguishable among canine and human isolates (23). These findings addressed the first major argument against considering canine-derived ExPEC isolates as potential human pathogens. In addition, clonal overlap was documented between human and canine ExPEC isolates...
