Author: Mesquita, Francisco S.; Abrami, Laurence; Sergeeva, Oksana; Turelli, Priscilla; Qing, Enya; Kunz, Béatrice; Raclot, Charlène; Paz Montoya, Jonathan; Abriata, Luciano A.; Gallagher, Tom; Dal Peraro, Matteo; Trono, Didier; D’Angelo, Giovanni; van der Goot, F. Gisou
Title: S-acylation controls SARS-CoV-2 membrane lipid organization and enhances infectivity Cord-id: uqyzw33x Document date: 2021_10_1
ID: uqyzw33x
Snippet: SARS-CoV-2 virions are surrounded by a lipid bilayer that contains membrane proteins such as spike, responsible for target-cell binding and virus fusion. We found that during SARS-CoV-2 infection, spike becomes lipid modified, through the sequential action of the S-acyltransferases ZDHHC20 and 9. Particularly striking is the rapid acylation of spike on 10 cytosolic cysteines within the ER and Golgi. Using a combination of computational, lipidomics, and biochemical approaches, we show that this m
Document: SARS-CoV-2 virions are surrounded by a lipid bilayer that contains membrane proteins such as spike, responsible for target-cell binding and virus fusion. We found that during SARS-CoV-2 infection, spike becomes lipid modified, through the sequential action of the S-acyltransferases ZDHHC20 and 9. Particularly striking is the rapid acylation of spike on 10 cytosolic cysteines within the ER and Golgi. Using a combination of computational, lipidomics, and biochemical approaches, we show that this massive lipidation controls spike biogenesis and degradation, and drives the formation of localized ordered cholesterol and sphingolipid-rich lipid nanodomains in the early Golgi, where viral budding occurs. Finally, S-acylation of spike allows the formation of viruses with enhanced fusion capacity. Our study points toward S-acylating enzymes and lipid biosynthesis enzymes as novel therapeutic anti-viral targets.
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