Journal
MSPHERE
Volume -, Issue -, Pages -Publisher
AMER SOC MICROBIOLOGY
DOI: 10.1128/msphere.00184-23
Keywords
urinary tract infection; antibiotic resistance; pyelonephritis; Escherichia coli; genome analysis; P-fimbriae; virulence
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Escherichia coli is the most common cause of urinary tract infections (UTIs) in children. However, the mechanisms of virulence and antibiotic resistance, as well as the population structure of this species, are poorly understood in this age group. This study examined the genetic markers and population structure of uropathogenic E. coli (UPEC) in children with UTIs. The results revealed similarities between UPEC populations in children and adults, with certain genetic markers being more common in pediatric pyelonephritis cases. Additionally, antibiotic resistance was correlated with known genetic markers, and a fimbrial gene allele was found to confer a selective advantage for UPEC.
Escherichia coli is the most common cause of urinary tract infections (UTIs) in children, and yet the underlying mechanisms of virulence and antibiotic resistance and the overall population structure of the species is poorly understood within this age group. To investigate whether uropathogenic E. coli (UPEC) from children who developed pyelonephritis carried specific genetic markers, we generated whole-genome sequence data for 96 isolates from children with UTIs. This included 57 isolates from children with either radiologically confirmed pyelonephritis or cystitis and 27 isolates belonging to the well-known multidrug-resistant sequence type ST131, selected to investigate their population structure and antibiotic resistance characteristics. We observed a UPEC population structure that is similar to those reported in adults. In comparison with prior investigations, we found that the full pap operon was more common among UPEC from pediatric cases of pyelonephritis. Further, in contrast with recent reports that the P-fimbriae adhesin-encoding papGII allele is substantially more prevalent in invasive UPEC from adults, we found papGII was common to both invasive and non-invasive UPEC from children. Among the set of ST131 isolates from children with UTIs, we found antibiotic resistance was correlated with known genetic markers of resistance, as in adults. Unexpectedly, we observed that fimH30, an allele of the fimbrial gene fimH often used as a proxy to type ST131 isolates into the most drug-resistant subclade C, was carried by some of the subclade A and subclade B isolates, suggesting that the fimH30 allele could confer a selective advantage for UPEC.
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