1 Department of Biology, Faculty of Science and Mathematics, IUC Biotechnology, Bogor Agricultural University; 3 South East Asian Regional Centre for Tropical Biology (SEAMEO-BIOTROP), Bogor, Indonesia; 2 Institut für Tierzucht, Bundesforschungsanstalt für Landwirtschaft (FAL), Höltystr. 10, 31535 Neustadt-Mariensee, Germany; 4 Natural Sciences UNESCO, 1 rue Miollis, 75732 Paris, Cedex 15, France
Keywords: gene cassettes, E. coli from Varanus
Sir,
Escherichia coli isolates play a major role in the horizontal gene transfer of resistance genes located on mobile genetic elements between intestinal bacteria of different species and genera.1 While data on antimicrobial resistance in E. coli are commonly obtained from clinical isolates of humans, food-producing animals or pets, little is known about the antimicrobial resistance of E. coli from free-living animals in remote geographical areas. In this study, we investigated 28 E. coli isolates obtained from faecal samples of monitor lizards (Varanus spp.) for the presence of antimicrobial resistance-mediating gene cassettes located in class 1 integrons.
The 28 E. coli isolates were obtained from free-living individual animals of different monitor lizard species captured alive in various regions in Indonesia. Antimicrobial resistance testing by disc diffusion was performed and evaluated according to the NCCLS document M31-A.2 Of the 28 E. coli isolates, 21 proved to be resistant to tetracycline (75.0%), 20 to streptomycin (71.4%), 19 to sulfamethoxazole (67.9%), 18 to ampicillin (64.3%), seven to kanamycin or chloramphenicol (25.0%) and five to gentamicin or trimethoprim (17.9%). Many of the E. coli isolates showed multiresistance to the antimicrobial agents tested. In this regard, E. coli from the intestinal flora of lizards did not differ distinctly from the E. coli isolates commonly found in mammals where they represented the main carrier of antimicrobial resistance in the intestinal flora.3
Whole-cell DNA of the 28 E. coli isolates was screened for the presence of class 1 integrons by PCR using a high fidelity Pwo polymerase (Peqlab, Erlangen, Germany) and primers corresponding to the conserved 5' (5'-GGCATCCAAGCAGCAAG-3') and 3' (5'-AAGCAGACTTGACCTGA-3') regions of class 1 integrons.4 Only three of the 28 E. coli isolates yielded amplicons with these PCR primers. The amplicons of two isolates were 0.7 kb in size, whereas that of the third E. coli isolate was
1.6 kb. These amplicons were cloned into pCR-Blunt II-TOPO (Invitrogen, Groningen, The Netherlands). Sequence analysis showed that the two similar-sized amplicons carried a dfrA5 gene cassette for trimethoprim resistance, whereas the larger amplicon contained two gene cassettes, one harbouring the trimethoprim resistance gene dfrA1, the other the streptomycin/spectinomycin resistance gene aadA1.5
The two dfrA5 gene cassettes of 721 bp each, detected in unrelated E. coli isolates from different Varanus spp., were indistinguishable by their nucleotide sequences. The predicted product of the dfrA5 reading frame comprised 157 amino acids and proved to be identical to the DfrA5 protein of plasmid pLM020 (accession no. X12868). The 59 base element (59 be) of the dfrA5 gene cassette consisted of 87 bp. The core site for the site-specific insertion, GTTAACC, was found at position 97103. The recombination site is between the G and the first T, indicating the beginning of the gene cassette at position 98 bp. The inverse core site, GGTTAAC, was located at position 585591 and included the translational stop codon (Figure 1).
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In conclusion, this study showed that antimicrobial resistance is rather common in intestinal E. coli isolates of free-living lizards captured in remote areas of Indonesia. Since these animals had no known contact with antimicrobials, it is questionable from where these E. coli isolates have acquired their resistance genes. Attempts to answer this question require detailed analysis of the resistance genes and the genetic elements on which they are located. This analysis of gene cassettes in class 1 integrons was a first step. Although the events in the acquisition of these gene cassettes could not be answered retrospectively, the finding that E. coli from Varanus spp. carried virtually the same gene cassettes as those previously described in clinical isolates of other Gram-negative bacteria of human or veterinary importance6 was an interesting observation. This finding underlines the presence of links between bacteria of humans, animals and the environment that might be reflected by the interchange of gene cassettes carrying antimicrobial resistance genes.
Acknowledgements
We thank Yogiara, Vera Nöding and Erika Nußbeck for excellent technical assistance. D. E. Waturangi received a scholarship from the German Academic Exchange Service (DAAD).
Footnotes
* Corresponding author. Tel: +62-251-323848; Fax: +62-251-315107; E-mail: asuwanto{at}indo.net.id
References
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