In studies with human participants, exosome-based biospecimens can facilitate unique biomarker assessments. As exosome cargos can include mitochondrial components, there is interest in using exosomes to inform the status of an individual's mitochondria. Here, we evaluated whether targeted pharmacologic manipulations could influence the quantity of exosomes shed by cells, and whether these manipulations could impact their mitochondrial cargos. We treated human SH-SY5Y cells with bafilomycin A1, which interferes with general autophagy and mitophagy by inhibiting lysosome acidification and lysosome-autophagosome fusion; deferiprone (DFP), which enhances receptor-mediated mitophagy; or both. Exosome fractions from treated cells were harvested from the cell medium and analyzed for content including mitochondria-derived components. We found bafilomycin increased particle yields, and a combination of bafilomycin plus DFP consistently increased particle yields and mitochondria-associated content. Specifically, the exosome fractions from the bafilomycin plus DFP-treated cells contained more mitochondrial DNA (mtDNA), mtDNA-derived mRNA transcripts, and citrate synthase protein. Our data suggest pharmacologic manipulations that enhance mitophagy initiation, while inhibiting the lysosomal digestion of autophagosomes and multivesicular bodies, could potentially enhance the sensitivity of exosome-based biomarker assays intended to inform the status of an individual's mitochondria.
Keywords: Biomarker; Exosome; Mitochondria; Mitochondrial DNA; Mitophagy.
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