Aerobactin and other virulence factor genes among strains of Escherichia coli causing urosepsis: association with patient characteristics.

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Infect Immun. 1988 February; 56(2): 405-412

Aerobactin and other virulence factor genes among strains of Escherichia coli causing urosepsis: association with patient characteristics.

J R Johnson, S L Moseley, P L Roberts and W E Stamm

Department of Medicine, University of Washington School of Medicine, Seattle 98195.

ABSTRACT

To assess the role of aerobactin as a virulence factor amonguropathogenic Escherichia coli, we determined the prevalence,location, and phenotypic expression of aerobactin determinantsamong 58 E. coli strains causing bacteremic urinary tract infections.We correlated the presence of the aerobactin system with antimicrobial-agentresistance, the presence and phenotypic expression of otheruropathogenic virulence factor determinants (P fimbriae, hemolysin,and type 1 fimbriae), and characteristics of patients. Colonyand Southern hybridization of total and plasmid DNA with DNAprobes for each virulence factor showed that aerobactin determinantswere present in 78% of the strains and were plasmid associatedin 21%, whereas P fimbria, hemolysin, and type 1 fimbria determinantswere present in 74, 43, and 98% of the strains, respectively,and were always chromosomal. Chromosomal aerobactin, P fimbria,and hemolysin determinants occurred together on the chromosomemore often in strains from patients without predisposing urologicalor medical conditions (P = 0.04). Strains with plasmid-encodedaerobactin lacked determinants for P fimbriae (P = 0.004) andhemolysin (P = 0.0004), were resistant to multiple antimicrobialagents (P = 0.0001), and were found only in compromised patients.Mating experiments demonstrated that some aerobactin plasmidsalso encoded antimicrobial-agent resistance. These findingssuggest that the determinants for aerobactin, P fimbriae, andhemolysin are conserved on the chromosome of the antimicrobial-agent-susceptibleuropathogenic strains of E. coli which invade noncompromisedpatients. In contrast, these chromosomal virulence factors areoften absent from E. coli strains causing urosepsis in compromisedhosts; these strains may acquire plasmid aerobactin in conjunctionwith antimicrobial-agent resistance genes.

Infect Immun. 1988 February; 56(2): 405-412

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