Loss of the RNA-binding protein TACO1 causes late-onset mitochondrial dysfunction in mice

The recognition and translation of mammalian mitochondrial mRNAs are poorly understood. To gain further insights into these processes in vivo, we characterized mice with a missense mutation that causes loss of the translational activator of cytochrome oxidase subunit I (TACO1). We report that TACO1...

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Published inNature communications Vol. 7; no. 1; p. 11884
Main Authors Richman, Tara R., Spåhr, Henrik, Ermer, Judith A., Davies, Stefan M. K., Viola, Helena M., Bates, Kristyn A., Papadimitriou, John, Hool, Livia C., Rodger, Jennifer, Larsson, Nils-Göran, Rackham, Oliver, Filipovska, Aleksandra
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 20.06.2016
Nature Publishing Group
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Summary:The recognition and translation of mammalian mitochondrial mRNAs are poorly understood. To gain further insights into these processes in vivo, we characterized mice with a missense mutation that causes loss of the translational activator of cytochrome oxidase subunit I (TACO1). We report that TACO1 is not required for embryonic survival, although the mutant mice have substantially reduced COXI protein, causing an isolated complex IV deficiency. We show that TACO1 specifically binds the mt-Co1 mRNA and is required for translation of COXI through its association with the mitochondrial ribosome. We determined the atomic structure of TACO1, revealing three domains in the shape of a hook with a tunnel between domains 1 and 3. Mutations in the positively charged domain 1 reduce RNA binding by TACO1. The Taco1 mutant mice develop a late-onset visual impairment, motor dysfunction and cardiac hypertrophy and thus provide a useful model for future treatment trials for mitochondrial disease. Mutations in the translational activator of cytochrome c oxidase subunit I (TACO1) causes cytochrome c oxidase deficiency and Leigh Syndrome in patients. Here, the authors characterize mice with a mutation that causes lack of TACO1 expression, identifying a mouse model that could be useful for preclinical trials.
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These authors contributed equally to this work.
ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms11884