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Mitochondrial cargo export in exosomes: Possible pathways and implication in disease biology

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Exosome biogenesis occurs parallel to multiple endocytic traffic routes. These coexisting routes drive cargo loading in exosomes via overlapping of exosome biogenesis with endosomal pathways. One such pathway is autophagy… Click to show full abstract

Exosome biogenesis occurs parallel to multiple endocytic traffic routes. These coexisting routes drive cargo loading in exosomes via overlapping of exosome biogenesis with endosomal pathways. One such pathway is autophagy which captures damaged intracellular organelles or their components in an autophagosome vesicle and route them for lysosomal degradation. However, in case of a noncanonical fusion event between autophagosome and maturing multivesicular body (MVB)—a site for exosome biogenesis, the autophagic cargo is putatively loaded in exosomes and subsequent released out of the cell via formation of an “amphisome” like structure. Similarly, during “mitophagy” or mitochondrial (mt) autophagy, amphisome formation routes mitophagy cargo to exosomes. These mt‐cargo enriched exosomes or mt‐enREXO are often positive for LC3 protein—an autophagic flux marker, and potent regulators of paracrine signaling with both homeostatic and pathological roles. Here, I review this emerging concept and discuss how intracellular autophagic routes helps in generation of mt‐enREXO and utility of these vesicles in paracrine cellular signaling and diagnostic areas.

Keywords: cargo; cargo export; export exosomes; exosome biogenesis; biology; mitochondrial cargo

Journal Title: Journal of Cellular Physiology
Year Published: 2023

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