Host phospholipid peroxidation fuels ExoU-dependent cell necrosis and supports Pseudomonas aeruginosa-driven pathology
Bagayoko, Salimata; Leon-Icaza, Stephen Adonai; Pinilla, Miriam; Hessel, Audrey; Santoni, Karin; Péricat, David; Bordignon, Pierre Jean; Moreau, Flavie; Eren, Elif; Boyancé, Aurélien; Naser, Emmanuelle; Lefèvre, Lise; Berrone, Céline; Iakobachvili, Nino; Metais, Arnaud; Rombouts, Yoann; Lugo-Villarino, Geanncarlo; Coste, Agnès; Attrée, Ina; Frank, Dara W.; Clevers, Hans; Peters, Peter J.; Cougoule, Céline; Planès, Rémi; Meunier, Etienne
(2021) PLoS Pathogens, volume 17, issue 9, pp. 1 - 29
(Article)
Abstract
Regulated cell necrosis supports immune and anti-infectious strategies of the body; however, dysregulation of these processes drives pathological organ damage. Pseudomonas aeruginosa expresses a phospholipase, ExoU that triggers pathological host cell necrosis through a poorly characterized pathway. Here, we investigated the molecular and cellular mechanisms of ExoU-mediated necrosis. We show
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that cellular peroxidised phospholipids enhance ExoU phospholipase activity, which drives necrosis of immune and non-immune cells. Conversely, both the endogenous lipid peroxidation regulator GPX4 and the pharmacological inhibition of lipid peroxidation delay ExoU-dependent cell necrosis and improve bacterial elimination in vitro and in vivo. Our findings also pertain to the ExoU-related phospholipase from the bacterial pathogen Burkholderia thailandensis, suggesting that exploitation of peroxidised phospholipids might be a conserved virulence mechanism among various microbial phospholipases. Overall, our results identify an original lipid peroxidation-based virulence mechanism as a strong contributor of microbial phospholipase-driven pathology.
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Keywords: Parasitology, Microbiology, Immunology, Molecular Biology, Genetics, Virology
ISSN: 1553-7366
Publisher: Public Library of Science
Note: Publisher Copyright: Copyright: © 2021 Bagayoko et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
(Peer reviewed)