Abstract
BackgroundOnly five patients have previously been reported to harbor mutations in the MT-TT gene encoding mitochondrial tRNA threonine. The m.15923A > G mutation has been found in three severely affected children. One of these patients died within days after birth and two had a phenotype of myoclonic epilepsy with ragged red fibers (MERRF) in early childhood. We have now found the mutation in an adult patient with mild myopathy.Case presentationThe patient is a 64-year-old Finnish man, who developed bilateral ptosis, diplopia and exercise intolerance in his fifties. Family history was unremarkable. Muscle histology showed cytochrome c-oxidase (COX) negative and ragged red fibres. The m.15923A > G mutation heteroplasmy was 33% in the skeletal muscle and 2% in buccal epithelial cells. The mutation was undetectable in the blood. Single-fibre analysis was performed and COX-negative fibres had a substantially higher heteroplasmy of 92%, than the normal fibres in which it was 43%.ConclusionsWe report the fourth patient with m. 15923A > G and with a remarkably milder phenotype than the previous three patients. Our findings and recent biochemical studies suggest that the mutation m.15923A > G is a definite disease-causing mutation. Our results also suggest that heteroplasmy of the m.15923A > G mutation correlates with the severity of the phenotype. This study expands the catalog of the phenotypes caused by mutations in mtDNA.
Highlights
Five patients have previously been reported to harbor mutations in the mitochondrially encoded tRNA threonine (MT-TT) gene encoding mitochondrial tRNA threonine
Our findings and recent biochemical studies suggest that the mutation m.15923A > G is a definite disease-causing mutation
Our results suggest that heteroplasmy of the m.15923A > G mutation correlates with the severity of the phenotype
Summary
Five patients have previously been reported to harbor mutations in the MT-TT gene encoding mitochondrial tRNA threonine. The m.15923A > G mutation has been found in three severely affected children One of these patients died within days after birth and two had a phenotype of myoclonic epilepsy with ragged red fibers (MERRF) in early childhood. While many tRNA genes seem to be mutational hotspots in patients with mitochondrial disorder, the mitochondrially encoded tRNA threonine (MT-TT) has been reported to be mutated in five patients only [5,6,7,8,9,10]. The m.15923A > G has previously been found in three patients; an infant dying from multisystem failure at the age of 2.5 days [5, 6], and two children with myoclonic epilepsy and ragged-red fibers (MERRF) syndrome [8, 10]. We report here the fourth patient with m.15923A > G and the first with an adult-onset phenotype
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