Abstract
Filter feeding is a biotic process that brings waterborne bacteria in close contact with each other and may thus support the horizontal transfer of their antimicrobial resistance genes. This laboratory study investigated whether the freshwater sponge Ephydatia fluviatilis supported the transfer of vancomycin resistance between two Enterococcus faecalis strains that we previously demonstrated to exhibit pheromone responsive plasmid conjugation. Microcosm experiments exposed live and dead colonies of laboratory-grown sponges to a vancomycin-resistant donor strain and a rifampicin-resistant recipient strain of Ent. faecalis. Enterococci with both resistance phenotypes were detected on double selection plates. In comparison to controls, abundance of these presumed transconjugants increased significantly in water from sponge microcosms. Homogenized suspensions of sponge cells also yielded presumed transconjugants; however, there was no significant difference between samples from live or dead sponges. Fluorescent in situ hybridization analysis of the sponge cell matrix using species-specific probes revealed the presence of enterococci clusters with cells adjacent to each other. The results demonstrated that sponge colonies can support the horizontal transfer of antimicrobial resistance although the mechanism underlying this process, such as binding of the bacteria to the sponge collagen matrix, has yet to be fully elucidated.
Highlights
The emergence of multi-resistant pathogens through the acquisition of mobile antimicrobial resistance genes (ARG) has been designated as a global health threat
The detection of clinically relevant ARG in environmental bacteria has been interpreted as evidence that the increase in antimicrobial resistance (AMR) may, at least in part, be caused by feedback from the natural environment (Cantas et al 2013)
Antibiotic resistance transfer in sponges aquatic environments may function as conduits for AMR, because they act as sinks for many different sources of micro-organisms and provide opportunities of close contact between different bacteria, facilitating horizontal transfer of resistance genes
Summary
The emergence of multi-resistant pathogens through the acquisition of mobile antimicrobial resistance genes (ARG) has been designated as a global health threat. This study investigated the potential of the freshwater sponge species Ephydatia fluviatilis to contribute to the transfer of vancomycin resistance between two Ent. faecalis strains that had been recovered from a river catchment and previously demonstrated to exhibit pheromone responsive plasmid conjugation of vancomycin resistance (Conwell et al 2017).
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