Matrix-assisted laser desorption ionization-time of flight mass spectrometry assigns Escherichia coli to the phylogroups A, B1, B2 and D

Escherichia coli classification into phylogroups reflects the diversity of their pathogenicity and their ecological niche, B2 isolates being the most virulent among extra-intestinal strains. MALDI-TOF MS allows a quick, automated, simple and inexpensive bacterial identification. We evaluated the MALDI-TOF MS as a tool for E. coli phylogroup differentiation. We used 656 E. coli isolates, previously assigned to phylogroup A, B1, B2, and D by multiplex PCR, to constitute independent training and validation sets. We then defined two phylogrouping strategies, both validated on spectra obtained by the `direct transfer method'. The first strategy used the MALDI Biotyper software (Bruker Daltonik) that identified a single peak shift between isolates of phylogroup B2 and those of groups A, B1 and D. It accurately classified 89% of the isolates. The second strategy used the ClinProTools software (Bruker Daltonik) and was based on three successive models. The model 1 adequately differentiated 92% of phylogroup B2-isolates from those belonging to phylogroups A, B1, D. The model 2 adequately discriminated 87% of phylogroup D-isolates from those of phylogroups A and B1. The model 3 correctly sorted 69% of A and B1-isolates. We concluded that clinical laboratories could routinely and very quickly assign E. coli isolates to phylogroups with MALDI-TOF MS. These methods could (i) expedite the detection of the most virulent strains belonging to phylogroup B2 and (ii) be a first-line tool to monitor the epidemiology of extra-intestinal pathogenic E. coli. 02014 Elsevier GmbH. All rights reserved.