Litcius/Paper detail

ADAM Sheddase Activity Promotes the Detachment of Small Extracellular Vesicles From the Plasma Membrane

Chloé Bizingre, Zaira E. Arellano-Anaya, Flavien Picard, Mathéa Pietri, Anne Baudry, Florence Roussel, Clara Bianchi, Aurélie Alleaume‐Butaux, Héctor Ardila-Osorio, Maryse Romao, Grégory Lavieu, Graça Raposo, Benoı̂t Schneider

2025Journal of Extracellular Vesicles6 citationsDOIOpen Access PDF

Abstract

Small extracellular vesicles (SEVs) are involved in diverse functions in normal and pathological situations, including intercellular communication, immunity, metastasis and neurodegeneration. Cell release of SEVs is assumed to occur passively right after multivesicular bodies of the endocytic pathway fuse with the plasma membrane. We show here that the completion of SEV release depends on membrane-bound ADAM10 and ADAM17 sheddases that promote the detachment of SEVs from the cell surface by catalysing the cleavage of adhesion proteins of the SEV membrane. The intensity of ADAM10/17-mediated release of SEVs depends on a balanced control of 3-phosphoinositide-dependent kinase 1 (PDK1) and ERK1/2 signalling pathways converging on 90-kDa ribosomal S6 kinase-2 (RSK2), which, in turn, fine-tunes ADAM17 bioavailability and ADAM10/17 enzymatic activities at the plasma membrane, according to a mechanism that relies, at least in part, on variation of the rhomboid-like pseudoprotease iRhom2 cell surface level. By identifying a new proteolytic step involved in the basal release of SEVs, our work may help understand how the deregulation of ADAM10/17-mediated discharge of SEVs contributes to several pathological states.

Topics & Concepts

Cell biologyEndocytosisADAM10DisintegrinExtracellularEndocytic cycleInternalizationVesicleBiologyExocytosisIntegrin-linked kinaseCell membraneCytosolPhosphorylationCellMembraneBiochemistryProtein kinase AMetalloproteinaseEnzymeCyclin-dependent kinase 2Extracellular vesicles in diseaseCell Adhesion Molecules ResearchComplement system in diseases