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Inhibition of endolysosome fusion increases exosome secretion

Ganesh Vilas Shelke, Chad D. Williamson, Michal Jarník, Juan S. Bonifacino

2023The Journal of Cell Biology53 citationsDOIOpen Access PDF

Abstract

Exosomes are small vesicles that are secreted from cells to dispose of undegraded materials and mediate intercellular communication. A major source of exosomes is intraluminal vesicles within multivesicular endosomes that undergo exocytic fusion with the plasma membrane. An alternative fate of multivesicular endosomes is fusion with lysosomes, resulting in degradation of the intraluminal vesicles. The factors that determine whether multivesicular endosomes fuse with the plasma membrane or with lysosomes are unknown. In this study, we show that impairment of endolysosomal fusion by disruption of a pathway involving the BLOC-one-related complex (BORC), the small GTPase ARL8, and the tethering factor HOPS increases exosome secretion by preventing the delivery of intraluminal vesicles to lysosomes. These findings demonstrate that endolysosomal fusion is a critical determinant of the amount of exosome secretion and suggest that suppression of the BORC-ARL8-HOPS pathway could be used to boost exosome yields in biotechnology applications.

Topics & Concepts

EndosomeMicrovesiclesCell biologyExosomeSecretionVesicleLipid bilayer fusionRabVesicle fusionSmall GTPaseChemistryExocytosisIntracellularBiologyGTPaseMembraneBiochemistrySynaptic vesicleSignal transductionGenemicroRNAExtracellular vesicles in diseaseRNA Interference and Gene DeliveryCellular transport and secretion
Inhibition of endolysosome fusion increases exosome secretion | Litcius