Microorganisms (Mar 2020)

Whole Genome Sequencing Differentiates Presumptive Extended Spectrum Beta-Lactamase Producing <i>Escherichia coli</i> along Segments of the One Health Continuum

  • Emelia H. Adator,
  • Matthew Walker,
  • Claudia Narvaez-Bravo,
  • Rahat Zaheer,
  • Noriko Goji,
  • Shaun R. Cook,
  • Lisa Tymensen,
  • Sherry J. Hannon,
  • Deirdre Church,
  • Calvin W. Booker,
  • Kingsley Amoako,
  • Celine A. Nadon,
  • Ron Read,
  • Tim A. McAllister

DOI
https://doi.org/10.3390/microorganisms8030448
Journal volume & issue
Vol. 8, no. 3
p. 448

Abstract

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Antimicrobial resistance (AMR) has important implications for the continued use of antibiotics to control infectious diseases in both beef cattle and humans. AMR along the One Health continuum of the beef production system is largely unknown. Here, whole genomes of presumptive extended-spectrum β-lactamase E. coli (ESBL-EC) from cattle feces (n = 40), feedlot catch basins (n = 42), surrounding streams (n = 21), a beef processing plant (n = 4), municipal sewage (n = 30), and clinical patients (n = 25) are described. ESBL-EC were isolated from ceftriaxone selective plates and subcultured on ampicillin selective plates. Agreement of genotype-phenotype prediction of AMR ranged from 93.2% for ampicillin to 100% for neomycin, trimethoprim/sulfamethoxazole, and enrofloxacin resistance. Overall, β-lactam (100%; blaEC, blaTEM-1, blaSHV, blaOXA, blaCTX-M-), tetracycline (90.1%; tet(A), tet(B)) and folate synthesis (sul2) antimicrobial resistance genes (ARGs) were most prevalent. The ARGs tet(C), tet(M), tet(32), blaCTX-M-1, blaCTX-M-14, blaOXA-1, dfrA18, dfrA19, catB3, and catB4 were exclusive to human sources, while blaTEM-150, blaSHV-11−12, dfrA12, cmlA1, and cmlA5 were exclusive to beef cattle sources. Frequently encountered virulence factors across all sources included adhesion and type II and III secretion systems, while IncFIB(AP001918) and IncFII plasmids were also common. Specificity and prevalence of ARGs between cattle-sourced and human-sourced presumptive ESBL-EC likely reflect differences in antimicrobial use in cattle and humans. Comparative genomics revealed phylogenetically distinct clusters for isolates from human vs. cattle sources, implying that human infections caused by ESBL-EC in this region might not originate from beef production sources.

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