AI Article Synopsis

  • - **Study Overview**: The research analyzed atypical enteropathogenic E. coli (aEPEC) strains from poultry fecal samples in Japan and Bangladesh using molecular methods, revealing a higher prevalence of phylogroup A compared to B1.
  • - **Virulence and Resistance Findings**: Intimin type β1 was found to be common in both phylogroups, particularly within group B1 strains, with a significant portion showing high rates of antimicrobial resistance, especially among strains from Bangladesh.
  • - **Implications of Results**: The study indicates that Japanese poultry may serve as a reservoir for aEPEC strains, which are distinct from human strains, while Bangladeshi strains exhibit lower virulence but higher resistance

Article Abstract

Atypical enteropathogenic (aEPEC) strains (36 Japanese and 50 Bangladeshi) obtained from 649 poultry fecal samples were analyzed by molecular epidemiological methods. Clermont's phylogenetic typing showed that group A was more prevalent (58%, 50/86) than B1 (31%, 27/86). Intimin type β1, which is prevalent among human diarrheal patients, was predominant in both phylogroups B1 (81%, 22/27) and A (70%, 35/50). However, about 95% of B1-β1 strains belonged to virulence group I, and 77% of them were Japanese strains, while 17% (6/35) of A-β1 strains did. Multilocus variable-number tandem-repeat analysis (MLVA) distributed the strains into 52 distinct profiles, with Simpson's index of diversity (D) at 73%. When the data were combined with those of 142 previous strains from different sources, the minimum spanning tree formed five zones for porcine strains, poultry strains (excluding B1-β1), strains from healthy humans, bovine and human patient strains, and the B1-β1 poultry strains. Antimicrobial resistance to nalidixic acid was most common (74%) among the isolates. Sixty-eight percent of them demonstrated resistance to ≥3 antimicrobial agents, and most of them (91%) were from Bangladesh. The strains were assigned into two groups by hierarchical clustering. Correlation matrix analysis revealed that the virulence genes were negatively associated with antimicrobial resistance. The present study suggested that poultry, particularly Japanese poultry, could be another reservoir of aEPEC (phylogroup B1, virulence group I, and intimin type β1); however, poultry strains seem to be apart from patient strains that were closer to bovine strains. Bangladeshi aEPEC may be less virulent for humans but more resistant to antibiotics. Atypical enteropathogenic (aEPEC) is a diarrheagenic type of , as it possesses the intimin gene () for attachment and effacement on epithelium. Since aEPEC is ubiquitous even in developed countries, we previously used molecular epidemiological methods to discriminate aEPEC as a human pathogen. The present study assessed poultry as another source of human diarrheagenic aEPEC. Poultry could be the source of aEPEC (phylogroup B1, virulence group I, and intimin type β1) found among patient strains in Japan. However, the minimum spanning tree (MST) suggested that the strains from Japanese poultry were far from Japanese patient strains compared with the distance between bovine and patient strains. Bangladeshi avian strains seemed to be less diarrheagenic but are hazardous as a source of drug resistance genes.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6414391PMC
http://dx.doi.org/10.1128/AEM.02796-18DOI Listing

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