Compositionally unique mitochondria in filopodia support cellular migration.

Local metabolic demand within cells varies widely, and the extent to which individual mitochondria can be specialized to meet these functional needs is unclear. We examined the subcellular distribution of the mitochondrial contact site and cristae organizing system (MICOS) complex, a spatial and functional organizer of mitochondria, and discovered that it dynamically enriches at the tip of a minor population of mitochondria in the cell periphery. Based on their appearance, we term these mitochondria "METEORs". METEORs have a unique composition, and MICOS enrichment sites are depleted of mtDNA and matrix proteins and contain high levels of the Ca(2+) uniporter MCU, suggesting a functional specialization. METEORs are also enriched for the myosin MYO19, which promotes their trafficking to a small subset of filopodia. We identify a positive correlation between the length of filopodia and the presence of METEORs and show that elimination of mitochondria from filopodia impairs cellular motility. Our data reveal a novel type of mitochondrial heterogeneity and suggest compositionally specialized mitochondria support cell migration.