Abstract
Recently, the worldwide propagation of clonal CTX-M-15-producing Escherichia coli isolates, namely ST131 and O25b:H4, has been reported. Like the majority of extra-intestinal pathogenic E. coli isolates, the pandemic clone ST131 belongs to phylogenetic group B2, and has recently been shown to be highly virulent in a mouse model, even though it lacks several genes encoding key virulence factors (Pap, Cnf1 and HlyA). Using two animal models, Caenorhabditis elegans and zebrafish embryos, we assessed the virulence of three E. coli ST131 strains (2 CTX-M-15- producing urine and 1 non-ESBL-producing faecal isolate), comparing them with five non-ST131 B2 and a group A uropathogenic E. coli (UPEC). In C. elegans, the three ST131 strains showed intermediate virulence between the non virulent group A isolate and the virulent non-ST131 B2 strains. In zebrafish, the CTX-M-15-producing ST131 UPEC isolates were also less virulent than the non-ST131 B2 strains, suggesting that the production of CTX-M-15 is not correlated with enhanced virulence. Amongst the non-ST131 B2 group isolates, variation in pathogenic potential in zebrafish embryos was observed ranging from intermediate to highly virulent. Interestingly, the ST131 strains were equally persistent in surviving embryos as the non-ST131-group B2 strains, suggesting similar mechanisms may account for development of persistent infection. Optical maps of the genome of the ST131 strains were compared with those of 24 reference E. coli strains. Although small differences were seen within the ST131 strains, the tree built on the optical maps showed that these strains belonged to a specific cluster (86% similarity) with only 45% similarity with the other group B2 strains and 25% with strains of group A and D. Thus, the ST131 clone has a genetic composition that differs from other group B2 strains, and appears to be less virulent than previously suspected.
Highlights
Escherichia coli is the most common bacterial species in urinary tract infections (UTIs)
The life span of C. elegans feeding on NEC3 was similar to that when avirulent E. coli OP50 was used as food (LT50 = 7.060.5 vs 7.560.3, respectively; p = not significant), indicating that strain NEC3 is not virulent for nematodes
High virulence of the CTX-M-15-producing ST131 clone has been construed from its isolation from patients, its appendance to the B2 phylotype and the presence of genes encoding virulence factors, little work has been done to assess this
Summary
Escherichia coli is the most common bacterial species in urinary tract infections (UTIs). The first description of clone ST131 as producer of CTX-M-15, several studies have shown that it has been a non-ESBL-producing and frequently fluoroquinole-resistant agent causing a high proportion of UTI for several years [11,12,13]. This clone was shown to be the faecal dominant E. coli population in some healthy subjects [14]. Like the majority of extra-intestinal pathogenic E. coli (ExPEC) isolates, the pandemic clone ST131 belongs to phylogenetic group B2 [9,10]
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