BMC Biology (Apr 2023)

Escherichia cryptic clade I is an emerging source of human intestinal pathogens

  • Miki Okuno,
  • Yoko Arimizu,
  • Seina Miyahara,
  • Yuki Wakabayashi,
  • Yasuhiro Gotoh,
  • Shuji Yoshino,
  • Tetsuya Harada,
  • Kazuko Seto,
  • Takeshi Yamamoto,
  • Keiji Nakamura,
  • Tetsuya Hayashi,
  • Yoshitoshi Ogura

DOI
https://doi.org/10.1186/s12915-023-01584-4
Journal volume & issue
Vol. 21, no. 1
pp. 1 – 16

Abstract

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Abstract Background Within the genus Escherichia, several monophyletic clades other than the traditionally defined species have been identified. Of these, cryptic clade I (C-I) appears to represent a subspecies of E. coli, but due to the difficulty in distinguishing it from E. coli sensu stricto, the population structure and virulence potential of C-I are unclear. Results We defined a set of true C-I strains (n = 465), including a Shiga toxin 2a (Stx2a)-producing isolate from a patient with bloody diarrhoea identified by the retrospective analyses using a C-I-specific detection system. Through genomic analysis of 804 isolates from the cryptic clades, including these C-I strains, we revealed their global population structures and the marked accumulation of virulence genes and antimicrobial resistance genes in C-I. In particular, half of the C-I strains contained hallmark virulence genes of Stx-producing E. coli (STEC) and/or enterotoxigenic E. coli (ETEC). We also found the host-specific distributions of virulence genes, which suggests bovines as the potential source of human infections caused by STEC- and STEC/ETEC hybrid-type C-I strains, as is known in STEC. Conclusions Our findings demonstrate the emergence of human intestinal pathogens in C-I lineage. To better understand the features of C-I strains and their infections, extensive surveillance and larger population studies of C-I strains are needed. The C-I-specific detection system developed in this study will be a powerful tool for screening and identifying C-I strains.

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