Occurrence of blaCTX-M-1, qnrB1 and virulence genes in avian ESBL-producing Escherichia coli isolates from Tunisia
| Autor: | Noureddine Ben Chehida, Sana Brahim, Salah Hammami, Hajer Kilani, Sana Ferjani, Senda Sghaier, Rakia Ben Salem, Ilhem Boutiba-Ben Boubaker, Mohamed Salah Abbassi, Gtari Douja, Riadh Mansouri, Imen Jaouani |
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| Jazyk: | angličtina |
| Rok vydání: | 2015 |
| Předmět: |
Microbiology (medical)
DNA Bacterial Tunisia Nalidixic acid Genotype Tetracycline Virulence Factors Immunology lcsh:QR1-502 Virulence clonality Microbial Sensitivity Tests medicine.disease_cause Integron Polymerase Chain Reaction Microbiology lcsh:Microbiology beta-Lactamases Feces Plasmid Drug Resistance Bacterial medicine Escherichia coli Animals Cluster Analysis Escherichia coli Infections Original Research bla CTX-M-1 qnrB1 biology Escherichia coli Proteins poultry Anti-Bacterial Agents Molecular Typing Infectious Diseases Gene cassette blaCTX-M-1 biology.protein integrons medicine.drug Plasmids |
| Zdroj: | Frontiers in Cellular and Infection Microbiology Frontiers in Cellular and Infection Microbiology, Vol 5 (2015) |
| ISSN: | 2235-2988 |
| DOI: | 10.3389/fcimb.2015.00038 |
| Popis: | Avian ESBL-producing Escherichia coli isolates have been increasingly reported worldwide. Animal to human dissemination, via food chain or direct contact, of these resistant bacteria has been reported. In Tunisia, little is known about avian ESBL- producing E. coli and further studies are needed. Seventeen ESBL-producing Escherichia coli isolates from poultry feces from two farms (Farm 1 and farm 2) in the North of Tunisia have been used in this study. Eleven of these isolates (from farm 1) have the same resistance profile to nalidixic acid, sulfonamides, streptomycin, tetracycline, and norfloxacine (intermediately resistant). Out of the six isolates recovered from farm 2, only one was co-resistant to tetracycline. All isolates, except one, harbored bla CTX-M-1 gene, and one strain co-harbored the bla TEM-1 gene. The genes tetA and tetB were carried, respectively, by 11 and 1 amongst the 12 tetracycline-resistant isolates. Sulfonamides resistance was encoded by sul1, sul2, and sul3 genes in 3, 17, and 5 isolates, respectively. The qnrB1 was detected in nine strains, one of which co-harbored qnrS1 gene. The search for the class 1 and 2 integrons by PCR showed that in farm 1, class 1 and 2 integrons were found in one and ten isolates, respectively. In farm 2, class 1 integron was found in only one isolate, class 2 was not detected. Only one gene cassette arrangement was demonstrated in the variable regions (VR) of the 10 int2-positive isolates: dfrA1- sat2-aadA1. The size of the VR of the class 1 integron was approximately 250 bp in one int1-positive isolate, whereas in the second isolate, no amplification was observed. All isolates of farm 1 belong to the phylogroup A (sub-group A0). However, different types of phylogroups in farm 2 were detected. Each of the phylogroups A1, B22, B23 was detected in one strain, while the D2 phylogroup was found in 3 isolates. The virulence genes iutA, fimH, and traT were detected in 3, 7, and 3 isolates, respectively. Two types of gene combination were detected: iutA+fimH+traT in 3 isolates and iutA+fimH in one isolate. The isolates recovered in farm 1 showed the same profile of PFGE macro-restriction, while isolates of farm 2 presented unrelated PFGE patterns. We conclude that these avian ESBL-producing E. coli isolates show homo- and heterogenic genetic background and that plasmids harboring ESBL genes could be involved in the dissemination of this resistance phenotype. |
| Databáze: | OpenAIRE |
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