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Palmitoylome profiling reveals S-palmitoylation-dependent antiviral activity of IFITM3.


ABSTRACT: Identification of immune effectors and the post-translational modifications that control their activity is essential for dissecting mechanisms of immunity. Here we demonstrate that the antiviral activity of interferon-induced transmembrane protein 3 (IFITM3) is post-translationally regulated by S-palmitoylation. Large-scale profiling of palmitoylated proteins in a dendritic cell line using a chemical reporter strategy revealed over 150 lipid-modified proteins with diverse cellular functions, including innate immunity. We discovered that S-palmitoylation of IFITM3 on membrane-proximal cysteines controls its clustering in membrane compartments and its antiviral activity against influenza virus. The sites of S-palmitoylation are highly conserved among the IFITM family of proteins in vertebrates, which suggests that S-palmitoylation of these immune effectors may be an ancient post-translational modification that is crucial for host resistance to viral infections. The S-palmitoylation and clustering of IFITM3 will be important for elucidating its mechanism of action and for the design of antiviral therapeutics.

SUBMITTER: Yount JS 

PROVIDER: S-EPMC2928251 | biostudies-literature | 2010 Aug

REPOSITORIES: biostudies-literature

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Palmitoylome profiling reveals S-palmitoylation-dependent antiviral activity of IFITM3.

Yount Jacob S JS   Moltedo Bruno B   Yang Yu-Ying YY   Charron Guillaume G   Moran Thomas M TM   López Carolina B CB   Hang Howard C HC  

Nature chemical biology 20100704 8


Identification of immune effectors and the post-translational modifications that control their activity is essential for dissecting mechanisms of immunity. Here we demonstrate that the antiviral activity of interferon-induced transmembrane protein 3 (IFITM3) is post-translationally regulated by S-palmitoylation. Large-scale profiling of palmitoylated proteins in a dendritic cell line using a chemical reporter strategy revealed over 150 lipid-modified proteins with diverse cellular functions, inc  ...[more]

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