AI Article Synopsis
- This study investigated multidrug resistance (MDR) in E. coli found in hospitalized animals in Ireland, revealing a high prevalence of Class 1 integrons (94.6%), which contain specific genes linked to resistance against various antibiotics.
- The most common resistance phenotypes were to ampicillin (97.3%) and tetracycline (100%), with multiple resistance genes identified, including bla(TEM) and bla(CTX-M-2), the latter being a new find in Ireland.
- The research underscored the mobility of resistance genes, highlighting the presence of high-molecular-weight plasmids that facilitate the spread of antibiotic resistance among E. coli isolates.
Article Abstract
In this study, we examined molecular mechanisms associated with multidrug resistance (MDR) in a collection of Escherichia coli isolates recovered from hospitalized animals in Ireland. PCR and DNA sequencing were used to identify genes associated with resistance. Class 1 integrons were prevalent (94.6%) and contained gene cassettes recognized previously and implicated mainly in resistance to aminoglycosides, β-lactams, and trimethoprim (aadA1, dfrA1-aadA1, dfrA17-aadA5, dfrA12-orfF-aadA2, bla(OXA-30)-aadA1, aacC1-orf1-orf2-aadA1, dfr7). Class 2 integrons (13.5%) contained the dfrA1-sat1-aadA1 gene array. The most frequently occurring phenotypes included resistance to ampicillin (97.3%), chloramphenicol (75.4%), florfenicol (40.5%), gentamicin (54%), neomycin (43.2%), streptomycin (97.3%), sulfonamide (98.6%), and tetracycline (100%). The associated resistance determinants detected included bla(TEM), cat, floR, aadB, aphA1, strA-strB, sul2, and tet(B), respectively. The bla(CTX-M-2) gene, encoding an extended-spectrum β-lactamase (ESβL), and bla(CMY-2), encoding an AmpC-like enzyme, were identified in 8 and 18 isolates, respectively. The mobility of the resistance genes was demonstrated using conjugation assays with a representative selection of isolates. High-molecular-weight plasmids were found to be responsible for resistance to multiple antimicrobial compounds. The study demonstrated that animal-associated commensal E. coli isolates possess a diverse repertoire of transferable genetic determinants. Emergence of ESβLs and AmpC-like enzymes is particularly significant. To our knowledge, the bla(CTX-M-2) gene has not previously been reported in Ireland.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3194860 | PMC |
| http://dx.doi.org/10.1128/AEM.00599-11 | DOI Listing |
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