Carbapenem-resistant Acinetobacter (CRA) has been associated with increased morbidity and mortality in clinical settings. In this study, we explored the transfer potential of a mobilizable plasmid-harboring blaOXA-72 gene between Acinetobacter species originating from patient, municipal wastewater, and pig farm wastewater. PCR-based evidence suggested putative transfer of blaOXA-72 from Acinetobacter pittii to Acinetobacter baumannii. In this pair, the apparent frequency of PCR-marker-positive putative transconjugants varied depending on temperature and meropenem supplementation, with higher number observed at 27{degrees}C compared to 17{degrees}C and 37{degrees}C. Likewise, the presence of antibiotic pressure yields to higher apparent conjugation frequency, however this observation was limited to a singled donor-recipient pair. Further, we revealed a phenotypic conversion in terms of meropenem susceptibility and a fitness cost in the putative transconjugants. While whole genome sequencing did not conclusively verify the presence of blaOXA-72 or fully resolved plasmid configuration, Oxford Nanopore read mapping consistently detected the chromosomal strA gene in all isolates. In contrast, only a limited number of reads aligned with blaOXA-72 gene, traC, or the complete plasmid sequences. Comparative analyses further revealed variations in the surface-associated factors and defense systems composition of the recipient strains, which could be considered as barriers in conjugation. Lastly, the persistence of PCR-detectable marker genes in putative transconjugants was variable and generally unstable over a 30-day period. Overall, these findings provide preliminary insights into the factors that may influence horizontal gene transfer and short-term maintenance of blaOXA-72.
Bongulto, K., Tauchi, H., Suzuki, S., Watanabe, K.
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