Faecal Escherichia coli isolates from healthy dogs harbour CTX-M-15 and CMY-2 β-lactamases

  1. Rocha-Gracia, R.C. 2
  2. Cortés-Cortés, G. 2
  3. Lozano-Zarain, P. 2
  4. Bello, F. 2
  5. Martínez-Laguna, Y. 2
  6. Torres, C. 1
  1. 1 Universidad de La Rioja
    info

    Universidad de La Rioja

    Logroño, España

    ROR https://ror.org/0553yr311

  2. 2 Benemérita Universidad Autónoma de Puebla
    info

    Benemérita Universidad Autónoma de Puebla

    Heróica Puebla de Zaragoza, México

    ROR https://ror.org/03p2z7827

Revista:
The Veterinary Journal

ISSN: 1090-0233

Año de publicación: 2015

Volumen: 203

Número: 3

Páginas: 315-319

Tipo: Artículo

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DOI: 10.1016/J.TVJL.2014.12.026 SCOPUS: 2-s2.0-84924581351 WoS: WOS:000351792700011 GOOGLE SCHOLAR

Otras publicaciones en: The Veterinary Journal

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Resumen

The presence of extended spectrum β-lactamase (ESBL) and plasmid-mediated AmpC β-lactamase (pAmpC) producing Escherichia coli, along with the mechanisms of antimicrobial resistance and the molecular types of isolates, was investigated in faecal samples from 53 healthy dogs in Mexico. Samples were inoculated on Levine agar plates with 2 μg/mL cefotaxime for recovery of cefotaxime-resistant (CTXR) E. coli. CTXR E. coli isolates were recovered from 9/53 (17%) samples; one isolate was characterised from each positive sample. ESBL producing E. coli isolates were detected in 3/53 (6%) samples; these isolates carried the blaCTX-M-15 gene and one isolate also carried blaSHV-2. These three ESBL-positive E. coli isolates belonged to phylogroup A and sequence types ST617, ST410 or ST3944. The remaining 6/53 (11%) samples contained pAmpC positive isolates; these isolates carried the blaCMY-2 gene, which encodes CMY-2 β-lactamase. These six isolates belonged to phylogroups A (n = 2), B1 (n = 1) and D (n = 3), and sequences types ST1431, ST57, ST93 and ST4565. One CMY-2 β-lactamase positive E. coli isolate of lineage ST93 had the -32 mutation in the chromosomal ampC promoter/attenuator region. Five ESBL/pAmpC positive E. coli isolates carried class 1 integrons (dfrA17-aadA5, aadA and aadA/aadB arrays were detected in three isolates) and one isolate carried a class 2 integron (dfrA12-sat2-aadA1). The aac(6')Ib-cr, aac(3)-II, qnrB19, tet(A), tet(B), cmlA, and sul3 genes were also detected. All studied isolates showed unrelated PFGE-patterns. To our knowledge, this is the first description of ESBL-producing E. coli and the second of pAmpC-producing E. coli from healthy dogs in America. Our results suggest the potential zoonotic role of dogs in the transmission to humans of ESBL and pAmpC E. coli in the household environment. © 2014 Elsevier Ltd.