Olesen, Bente1; Frimodt-Møller, Jakob1; Leihof, Rikke Fleron2; Struve, Carsten3; Johnston, Brian4; Hansen, Dennis S1; Scheutz, Flemming3; Krogfelt, Karen A3; Kuskowski, Michael A4; Clabots, Connie4; Johnson, James R4
1 Department of Clinical Microbiology, Herlev and Gentofte Hospital, The Capital Region of Denmark2 Department of Systems Biology3 Statens Serum Institut4 University of Minnesota
To identify possible explanations for the recent global emergence of Escherichia coli sequence type (ST) 131 (ST131), we analyzed temporal trends within ST131 O25 for antimicrobial resistance, virulence genes, biofilm formation, and the H30 and H30-Rx subclones. For this, we surveyed the WHO E. coli and Klebsiella Centre's E. coli collection (1957 to 2011) for ST131 isolates, characterized them extensively, and assessed them for temporal trends. Overall, antimicrobial resistance increased temporally in prevalence and extent, due mainly to the recent appearance of the H30 (1997) and H30-Rx (2005) ST131 subclones. In contrast, neither the total virulence gene content nor the prevalence of biofilm production increased temporally, although non-H30 isolates increasingly qualified as extraintestinal pathogenic E. coli (ExPEC). Whereas virotype D occurred from 1968 forward, virotypes A and C occurred only after 2000 and 2002, respectively, in association with the H30 and H30-Rx subclones, which were characterized by multidrug resistance (including extended-spectrum-beta-lactamase [ESBL] production: H30-Rx) and absence of biofilm production. Capsular antigen K100 occurred exclusively among H30-Rx isolates (55% prevalence). Pulsotypes corresponded broadly with subclones and virotypes. Thus, ST131 should be regarded not as a unitary entity but as a group of distinctive subclones, with its increasing antimicrobial resistance having a strong clonal basis, i.e., the emergence of the H30 and H30-Rx ST131 subclones, rather than representing acquisition of resistance by diverse ST131 strains. Distinctive characteristics of the H30-Rx subclone-including specific virulence genes (iutA, afa and dra, kpsII), the K100 capsule, multidrug resistance, and ESBL production-possibly contributed to epidemiologic success, and some (e.g., K100) might serve as vaccine targets.
Antimicrobial Agents and Chemotherapy, 2014, Vol 58, Issue 11, p. 6886-95
Journal Article; Research Support, U.S. Gov't, Non-P.H.S.