Comparative analysis of BI/NAP1/027 hypervirulent strains reveals novel toxin B-encoding gene (tcdB) sequences

doi:10.1099/jmm.0.47743-0

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J Med Microbiol 57 (2008), 771-775; DOI: 10.1099/jmm.0.47743-0
© 2008 Society for General Microbiology
ISSN 1473-5644

Comparative analysis of BI/NAP1/027 hypervirulent strains reveals novel toxin B-encoding gene (tcdB) sequences

Richard A. Stabler, Lisa F. Dawson, Leslie T. H. Phua and Brendan W. Wren

Department of Infectious and Tropical Diseases, London School of Hygiene and Tropical Medicine, Keppel Street, London WC1E 7HT, UK

Correspondence
Brendan W Wren
brendan.wren{at}lshtm.ac.uk

Received 2 November 2007
Accepted 21 December 2007

The reported incidence and mortality of Clostridium difficile-associateddisease has increased significantly, which in part is likelyto be due to the emergence of a new, highly virulent strainin North America and Europe. This epidemic strain, referredto as BI/NAP1/027, has increased virulence, attributed to overexpressionof the two toxin-encoding genes, tcdA and tcdB, which may bedue to truncation of the negative regulator (tcdC) by a 1 bpdeletion. In a previous study of whole-genome comparisons usingmicroarray analysis of 75 C. difficile isolates, it was notedthat the 20 027 strains, which formed a hypervirulent clade,possessed a unique hybridization pattern for the 7 toxin B microarrayreporters. This unique pattern was conserved in all of these027 strains. The pattern was different for the 55 non-027 strainstested. These data, along with the knowledge that 027 strainsare toxinotype III (i.e. possess a complete tcdB gene of comparablesize to toxin reference strain VPI 10463), suggest that thesequence of the N-terminal binding domain of toxin B must bedivergent from C. difficile strain 630 (and the other 55 strainstested). Additionally, these 027 strains had comparable hybridizationpatterns across the whole microarray, as well as for tcdB. Therefore,it was suggested that they share a similar, novel N-terminalbinding domain. The aim of this study was to ascertain the sequencevariation in tcdB from eight characterized BI/NAP1/027 strains.The study confirmed significant sequence variation of tcdB fromthe sequenced strain 630 and slight variation in tcdB amongthe eight 027 strains. These results suggest that toxin B from027 strains may have a different binding capacity compared withits less-virulent counterparts and may, in addition to the mutatedtcdC regulator, be responsible for the increased virulence of027 strains.

Abbreviations: REA, restriction endonuclease analysis.

Primer sequences, and nucleotide and amino acid sequence alignmentsof regions e–g, are available as supplementary data withthe online version of this paper

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