Background/aims: The aim was to characterize a bacterium causing intestinal mucosal barrier damage and to identify the possible invasion mechanism.
Materials and methods: The intestinal permeability and tight junction protein levels were detected in guinea pigs infected with Escherichia coli D-09 via immunofluorescence analysis and western blotting. In order to explain this invasion mechanism at the gene level, whole genome sequencing analysis was performed on this bacterium.
Results: The results showed an increased intestinal permeability and upregulated expression of the leaky protein claudin-2 in both the colon and liver of the infected animals. In addition, the draft genome of E. coli D-09 comprised 42 scaffolds (size, > 645 bp) with a total size of 4,679,567 bp. A total of 4379 protein coding genes were identified, which contained 45 antibiotic resistance and 86 virulence-related genes and covered 88.0% of the whole genome.
Conclusions: This study verified that the human-derived enteroinvasive E. coli strain could destroy intestinal barrier function in guinea pigs. Additionally, our data first characterized the genome features of E. coli O124:K72 D-09, which may provide new insights into the possible invasion mechanism.
Keywords: Acute cholecystitis; E. coli O124:K72 D-09; Intestinal barrier function; Whole genome sequencing.
© 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.