Variable inhibition of different Legionella species by antagonistic bacteria
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2025-10-22
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Journal Article
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Abstract
The genus Legionella includes opportunistic pathogens inhabiting engineered aquatic ecosystems, where managing their presence and abundance is crucial for public health. In these environments, Legionella interact positively or negatively with multiple members of the microbial communities. Here, we identified bacteria and compounds with Legionella-antagonistic properties. We isolated 212 bacterial colonies from various water sources in Switzerland and screened them for their ability to inhibit one reference strain of Legionella pneumophila. Ten selected antagonistic isolates were subsequently tested with spot-on-lawn assays for inhibition toward seven environmental and two clinical isolates of Legionella, representing different species and strains. The antagonists produced highly variable inhibition patterns, highlighting distinct differences in susceptibility among Legionella species and even strains. Only three isolates, all identified as Pseudomonas lurida, inhibited all Legionella species. We analyzed the genomes of the antagonistic bacteria and identified genes for several probable inhibitory compounds. We specifically found the gene cluster for the biosurfactant viscosin to be uniquely encoded by all three P. lurida isolates. This compound was subsequently detected in the supernatant of co-cultures inoculated with P. lurida and selected Legionella strains. However, additional experiments with a viscosin-deficient mutant of Pseudomonas fluorescens did not definitively demonstrate the importance of this compound for Legionella inhibition. This study provides new insights on the ability of aquatic microorganisms to compete with Legionella in controlled laboratory settings. It specifically highlights the diversity across and within Legionella species in their resistance to external antagonistic stress and further supports the potential anti-Legionella activity of some biosurfactants. These results can contribute to the understanding of how different Legionella species inhabit separate niches in the environment and expand the discussion around alternative Legionella mitigation strategies.IMPORTANCEUnderstanding the nature of bacterial interactions allows us to have a broader overview of their lifestyle and their differences, while also paving the way toward new research and potential applications. This paper provides insights into the response of multiple pathogenic species of Legionella to aquatic antagonistic bacteria, highlighting interesting intra-genus differences that are then discussed in light of potential ecological implications. Moreover, we identified new antagonistic bacteria toward Legionella spp. and identified the biosurfactant viscosin as one of the likely compounds active against at least some Legionella species. Together, these results suggest different properties and possibly different environmental behaviors within the genus Legionella, while adding to previous studies with newly identified inhibitory organisms and compounds. We furthermore discuss the possibility that the latter could be explored in future research in order to develop a biological-based mitigation strategy against Legionella in engineered aquatic ecosystems, based on strains and bioactive compounds identified in this and other studies.
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published
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Volume
91 (10)
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American Society of Microbiology
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Subject
Legionella; competition; antagonism; Pseudomonas; biosurfactants; viscosin; inhibition