Sensitivity of Legionella pneumophila to phthalates and their substitutes

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Crépin, Alexandre | Thiroux, Audrey | Alafaci, Aurélien | Boukerb, Amine | Dufour, Izelenn | Chrysanthou, Eirini | Bertaux, Joanne | Tahrioui, Ali | Bazire, Alexis | Rodrigues, Sophie | Taupin, Laure | Feuilloley, Marc | Dufour, Alain | Caillon, Jocelyne | Lesouhaitier, Olivier | Chevalier, Sylvie | Berjeaud, Jean-Marc | Verdon, Julien

Edité par CCSD ; Nature Publishing Group -

International audience. Phthalates constitute a family of anthropogenic chemicals developed to be used in the manufacture of plastics, solvents, and personal care products. Their dispersion and accumulation in many environments can occur at all stages of their use (from synthesis to recycling). However, many phthalates together with other accumulated engineered chemicals have been shown to interfere with hormone activities. These compounds are also in close contact with microorganisms that are free-living, in biofilms or in microbiota, within multicellular organisms. Herein, the activity of several phthalates and their substitutes were investigated on the opportunistic pathogen Legionella pneumophila, an aquatic microbe that can infect humans. Beside showing the toxicity of some phthalates, data suggested that Acetyl tributyl citrate (ATBC) and DBP (Di-n-butyl phthalate) at environmental doses (i.e. 10^–6 M and 10^–8 M) can modulate Legionella behavior in terms of motility, biofilm formation and response to antibiotics. A dose of 10^–6 M mostly induced adverse effects for the bacteria, in contrast to a dose of 10^–8 M. No perturbation of virulence towards Acanthamoeba castellanii was recorded. These behavioral alterations suggest that L. pneumophila is able to sense ATBC and DBP, in a cross-talk that either mimics the response to a native ligand, or dysregulates its physiology.

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