Glucocerebrosidase gene (GBA) mutations are the most common genetic contributor to Parkinson's disease (PD) and are associated with decreased glucocerebrosidase (GCase) enzymatic activity in PD. PD patients without GBA mutations also exhibit lower levels of GCase activity in the central nervous system suggesting a potential contribution of the enzyme activity in disease pathogenesis, possibly by alteration of lysosomal function. α-synuclein (ASYN), a protein with a central role in PD pathogenesis, has been shown to be secreted partly in association with exosomes. It is possible that a dysfunction of the endocytic pathway through GCase may result in altered exosome release of ASYN. The aim of this study was to examine whether manipulating GCase activity in vivo and in vitro could affect ASYN accumulation and secretion. GCase overexpression in vitro resulted in a significant decrease of exosome secretion. Chronic inhibition of GCase activity in vivo, by administration of the covalent inhibitor conduritol-B epoxide in A53T-synuclein alpha gene Tg mice significantly elevated intracellular oligomeric ASYN species. Importantly, GCase inhibition, induced a profound increase in the number of brain exosomes released, as well as exosome-associated ASYN oligomers. Finally, virus-mediated expression of mutant GBA in the mouse striatum increased ASYN secretion in the same region. Together, these results provide for the first time evidence that a decrease of GCase or overexpression of mutant GCase in a chronic in vivo setting can affect ASYN secretion. Such effects may mediate enhanced propagation of ASYN, driving pathology in GBA-associated PD.