Mitochondrial diseases are a plethora of inherited neuromuscular disorders sharing defects in mitochondrial respiration, but largely different from one another for genetic basis and pathogenic mechanism. Whole exome sequencing was performed in a familiar trio (trio-WES) with a child affected by severe epileptic encephalopathy associated with respiratory complex I deficiency and mitochondrial DNA depletion in skeletal muscle. By trio-WES we identified biallelic mutations in SLC25A10, a nuclear gene encoding a member of the mitochondrial carrier family. Genetic and functional analyses conducted on patient fibroblasts showed that SLC25A10 mutations are associated with reduction in RNA quantity and aberrant RNA splicing, and to absence of SLC25A10 protein and its transporting function. The yeast SLC25A10 ortholog knockout strain showed defects in mitochondrial respiration and mitochondrial DNA content, similarly to what observed in the patient skeletal muscle, and growth susceptibility to oxidative stress. Albeit patient fibroblasts were depleted in the main antioxidant molecules NADPH and glutathione, transport assays demonstrated that SLC25A10 is unable to transport glutathione. Here, we report the first recessive mutations of SLC25A10 associated to an inherited severe mitochondrial neurodegenerative disorder. We propose that SLC25A10 loss-of-function causes pathological disarrangements in respiratory-demanding conditions and oxidative stress vulnerability.

SLC25A10 biallelic mutations in intractable epileptic encephalopathy with complex I deficiency

Menga A.;Pisano I.;Donati M. A.;Palmieri L.;
2018-01-01

Abstract

Mitochondrial diseases are a plethora of inherited neuromuscular disorders sharing defects in mitochondrial respiration, but largely different from one another for genetic basis and pathogenic mechanism. Whole exome sequencing was performed in a familiar trio (trio-WES) with a child affected by severe epileptic encephalopathy associated with respiratory complex I deficiency and mitochondrial DNA depletion in skeletal muscle. By trio-WES we identified biallelic mutations in SLC25A10, a nuclear gene encoding a member of the mitochondrial carrier family. Genetic and functional analyses conducted on patient fibroblasts showed that SLC25A10 mutations are associated with reduction in RNA quantity and aberrant RNA splicing, and to absence of SLC25A10 protein and its transporting function. The yeast SLC25A10 ortholog knockout strain showed defects in mitochondrial respiration and mitochondrial DNA content, similarly to what observed in the patient skeletal muscle, and growth susceptibility to oxidative stress. Albeit patient fibroblasts were depleted in the main antioxidant molecules NADPH and glutathione, transport assays demonstrated that SLC25A10 is unable to transport glutathione. Here, we report the first recessive mutations of SLC25A10 associated to an inherited severe mitochondrial neurodegenerative disorder. We propose that SLC25A10 loss-of-function causes pathological disarrangements in respiratory-demanding conditions and oxidative stress vulnerability.
2018
27
3
499
504
Antioxidants; Brain Diseases; Child; DNA, Mitochondrial; Dicarboxylic Acid Transporters; Heterozygote; Humans; Male; Metabolism, Inborn Errors; Mitochondria; Mitochondrial Diseases; Mutation; Oxidative Phosphorylation; Oxidative Stress; Pedigree; RNA Splicing
Punzi G.; Porcelli V.; Ruggiu M.; Hossain M.F.; Menga A.; Scarcia P.; Castegna A.; Gorgoglione R.; Pierri C.L.; Laera L.; Lasorsa F.M.; Paradies E.; Pisano I.; Marobbio C.M.T.; Lamantea E.; Ghezzi D.; Tiranti V.; Giannattasio S.; Donati M.A.; Guerrini R.; Palmieri L.; Palmieri F.; De Grassi A.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1869079
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