Syntenin-knock out reduces exosome turnover and viral transduction.
Kashyap R, Balzano M, Lechat B, Lambaerts K, Egea-Jimenez AL, Lembo F, Fares J, Meeussen S, Kügler S, Roebroek A, David G, Zimmermann P
Exosomal transfers represent an important mode of intercellular communication. Syntenin is a small scaffold protein that, when binding ALIX, can direct endocytosed syndecans and syndecan cargo to budding endosomal membranes, supporting the formation of intraluminal vesicles that compose the source of a major class of exosomes. Syntenin, however, can also support the recycling of these same components to the cell surface. Here, by studying mice and cells with syntenin-knock out, we identify syntenin as part of dedicated machinery that integrates both the production and the uptake of secreted vesicles, supporting viral/exosomal exchanges. This study significantly extends the emerging role of heparan sulfate proteoglycans and syntenin as key components for macromolecular cargo internalization into cells.Lire l‘article