Mammalian mitochondria have small genomes encoding very limited numbers of proteins. Over one thousand proteins and noncoding RNAs encoded by the nuclear genome must be imported from the cytosol into the mitochondria. Here, we report the identification of hundreds of circular RNAs (mecciRNAs) encoded by the mitochondrial genome. We provide both in vitro and in vivo evidence to show that mecciRNAs facilitate the mitochondrial entry of nuclear-encoded proteins by serving as molecular chaperones in the folding of imported proteins. Known components involved in mitochondrial protein and RNA importation, such as TOM40 and PNPASE, interact with mecciRNAs and regulate protein entry. The expression of mecciRNAs is regulated, and these transcripts are critical for the adaption of mitochondria to physiological conditions and diseases such as stresses and cancers by modulating mitochondrial protein importation. mecciRNAs and their associated physiological roles add categories and functions to the known eukaryotic circular RNAs and shed novel light on the communication between mitochondria and the nucleus.
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