Author: Ramadan, Ahmed; Deschenes, Robert; Roy, Arunava
Title: Palmitoylation of SARSâ€CoV 2 Spike glycoprotein is important for viral infectivity and pathogenicity Cord-id: b19d3umt Document date: 2021_5_14
ID: b19d3umt
Snippet: To date the COVIDâ€19 pandemic has resulted in over 90 M infections and 1.8 M deaths worldwide, and the numbers continue to rise. The causative virus, SARS–CoVâ€2, is a betacoronavirus that binds to cells through an interaction between the viral Spike protein (S) and its receptor (ACE2) on the host cell. The S protein is a 180 kDa glycoprotein comprised of a receptor binding domain, trimerization domain, proteolytic cleavage sites, a single transmembrane domain, and a cytoplasmic tail. In ad
Document: To date the COVIDâ€19 pandemic has resulted in over 90 M infections and 1.8 M deaths worldwide, and the numbers continue to rise. The causative virus, SARS–CoVâ€2, is a betacoronavirus that binds to cells through an interaction between the viral Spike protein (S) and its receptor (ACE2) on the host cell. The S protein is a 180 kDa glycoprotein comprised of a receptor binding domain, trimerization domain, proteolytic cleavage sites, a single transmembrane domain, and a cytoplasmic tail. In addition to receptor binding, the S protein plays a key role in viral membrane fusion during the virus entry and virus induced cellâ€cell fusion. The cytoplasmic tail of the Spike has several conserved cysteines that have previously been shown to be palmitoylated in SARSâ€CoV and MERS. Recently it was reported in an interactome study (Gordon, D.E et al, 2020) that zDHHC5 and Golga7 are among the top Spike interacting proteins. These two proteins form a complex that functions as palmitoylâ€transferase. To investigate the functional significance of palmitoylation on SARSâ€CoVâ€2 S protein function and viral infection, we created luciferase/ZsGreen reporter containing HIVâ€1 derived viral particles pseudoâ€typed with full length wildâ€type and mutant SARS CoVâ€2 S. Using an Acylâ€PEGyl Exchange Gelâ€Shift (APEGS) assay, we show that Spike is palmitoylated on multiple sites. Then, a series of functional assays were carried out to examine the role of Spike palmitoylation on viral egress, viral infection, and Spike protein trimerization, cleavage and fusion. Our results support the hypothesis that palmitoylation inhibitors may be a potential therapeutic strategy to inhibit SARS CoV2 and other corona viruses infections
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