Author: Archambault, Anneâ€Sophie; Zaid, Younes; Rakotoarivelo, Volatiana; Turcotte, Caroline; Doré, Étienne; Dubuc, Isabelle; Martin, Cyril; Flamand, Olivier; Amar, Youssef; Cheikh, Amine; Fares, Hakima; El Hassani, Amine; Tijani, Youssef; Côté, Andréanne; Laviolette, Michel; Boilard, Éric; Flamand, Louis; Flamand, Nicolas
Title: High levels of eicosanoids and docosanoids in the lungs of intubated COVIDâ€19 patients Cord-id: 7ikwud2q Document date: 2021_5_25
ID: 7ikwud2q
Snippet: Severe acute respiratory syndrome coronavirus 2 is responsible for coronavirus disease 2019 (COVIDâ€19). While COVIDâ€19 is often benign, a subset of patients develops severe multilobar pneumonia that can progress to an acute respiratory distress syndrome. There is no cure for severe COVIDâ€19 and few treatments significantly improved clinical outcome. Dexamethasone and possibly aspirin, which directly/indirectly target the biosynthesis/effects of numerous lipid mediators are among those opti
Document: Severe acute respiratory syndrome coronavirus 2 is responsible for coronavirus disease 2019 (COVIDâ€19). While COVIDâ€19 is often benign, a subset of patients develops severe multilobar pneumonia that can progress to an acute respiratory distress syndrome. There is no cure for severe COVIDâ€19 and few treatments significantly improved clinical outcome. Dexamethasone and possibly aspirin, which directly/indirectly target the biosynthesis/effects of numerous lipid mediators are among those options. Our objective was to define if severe COVIDâ€19 patients were characterized by increased bioactive lipids modulating lung inflammation. A targeted lipidomic analysis of bronchoalveolar lavages (BALs) by tandem mass spectrometry was done on 25 healthy controls and 33 COVIDâ€19 patients requiring mechanical ventilation. BALs from severe COVIDâ€19 patients were characterized by increased fatty acids and inflammatory lipid mediators. There was a predominance of thromboxane and prostaglandins. Leukotrienes were also increased, notably LTB(4), LTE(4), and eoxin E(4). Monohydroxylated 15â€lipoxygenase metabolites derived from linoleate, arachidonate, eicosapentaenoate, and docosahexaenoate were also increased. Finally yet importantly, specialized proâ€resolving mediators, notably lipoxin A(4) and the Dâ€series resolvins, were also increased, underscoring that the lipid mediator storm occurring in severe COVIDâ€19 involves pro†and antiâ€inflammatory lipids. Our data unmask the lipid mediator storm occurring in the lungs of patients afflicted with severe COVIDâ€19. We discuss which clinically available drugs could be helpful at modulating the lipidome we observed in the hope of minimizing the deleterious effects of proâ€inflammatory lipids and enhancing the effects of antiâ€inflammatory and/or proâ€resolving lipid mediators.
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