A new subset of mitochondrial-derived vesicles perform inter-mitochondrial communications.

Mitochondria have a fascinating array of tools in their armory for maintaining cellular homeostasis, of which the formation of Mitochondrial-Derived Vesicles (MDVs) is the least energy-intensive. MDVs have become the "go-to" vesicles for mitochondria to perform functions such as ferrying damaged mitochondrial proteins to lysosomes and regulating peroxisomal morphology. In a corollary to the increasing number of MDV functions, the discovery of MDV subsets has also increased. However, all the known MDV communications have been from mitochondria to other organelles. Using purified mitochondria from rat liver, we show that MDVs can be generated in vitro, and proteomic analyses reveal that liver MDVs are enriched in metabolic proteins mirroring the liver's metabolic hub status. Intriguingly, live cell imaging studies in HepG2 cells reveal a new subset of MDVs that are TOMM70+ve but TOMM20-ve. This subset of MDVs harbors metabolic enzymes, such as ALDH7A1, an aldehyde dehydrogenase. Remarkably, this class of MDVs facilitates communication between mitochondria, revealing a previously unknown communication channel.