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Mutations in KARS cause a severe neurological and neurosensory disease with optic neuropathy.

Human mutation (2019-05-23)
Sophie Scheidecker, Séverine Bär, Corinne Stoetzel, Véronique Geoffroy, Béatrice Lannes, Bruno Rinaldi, Frédéric Fischer, Hubert D Becker, Valérie Pelletier, Cécile Pagan, Cécile Acquaviva-Bourdain, Stéphane Kremer, Marc Mirande, Christine Tranchant, Jean Muller, Sylvie Friant, Hélène Dollfus
RÉSUMÉ

Mutations in genes encoding aminoacyl-tRNA synthetases have been reported in several neurological disorders. KARS is a dual localized lysyl-tRNA synthetase and its cytosolic isoform belongs to the multiple aminoacyl-tRNA synthetase complex (MSC). Biallelic mutations in the KARS gene were described in a wide phenotypic spectrum ranging from nonsyndromic deafness to complex impairments. Here, we report on a patient with severe neurological and neurosensory disease investigated by whole-exome sequencing and found to carry biallelic mutations c.683C>T (p.Pro228Leu) and c.871T>G (p.Phe291Val), the second one being novel, in the KARS gene. The patient presented with an atypical clinical presentation with an optic neuropathy not previously reported. At the cellular level, we show that cytoplasmic KARS was expressed at a lower level in patient cells and displayed decreased interaction with MSC. In vitro, these two KARS variants have a decreased aminoacylation activity compared with wild-type KARS, the p.Pro228Leu being the most affected. Our data suggest that dysfunction of cytoplasmic KARS resulted in a decreased level of translation of the nuclear-encoded lysine-rich proteins belonging to the respiratory chain complex, thus impairing mitochondria functions.

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Cycloheximide, from microbial, ≥94% (TLC)
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2,2,2-Trichloroethanol, ReagentPlus®, ≥99%