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Neurology DOI:10.1212/WNL.0000000000000716

Mitochondrial EFTs defects in juvenile-onset Leigh disease, ataxia, neuropathy, and optic atrophy.

Publication TypeJournal Article
Year of Publication2014
AuthorsAhola, S, Isohanni, P, Euro, L, Brilhante, V, Palotie, A, Pihko, H, Lönnqvist, T, Lehtonen, T, Laine, J, Tyynismaa, H, Suomalainen, A
Date Published2014 Aug 19
KeywordsAdolescent, Ataxia, DNA, Mitochondrial, Female, Finland, Humans, Leigh Disease, Mitochondria, Mutation, Optic Atrophy, Pedigree, Peptide Elongation Factors, Phenotype, Young Adult

OBJECTIVE: We report novel defects of mitochondrial translation elongation factor Ts (EFTs), with high carrier frequency in Finland and expand the manifestations of this disease group from infantile cardiomyopathy to juvenile neuropathy/encephalopathy disorders.

METHODS: DNA analysis, whole-exome analysis, protein biochemistry, and protein modeling.

RESULTS: We used whole-exome sequencing to find the genetic cause of infantile-onset mitochondrial cardiomyopathy, progressing to juvenile-onset Leigh syndrome, neuropathy, and optic atrophy in 2 siblings. We found novel compound heterozygous mutations, c.944G>A [p.C315Y] and c.856C>T [p.Q286X], in the TSFM gene encoding mitochondrial EFTs. The same p.Q286X variant was found as compound heterozygous with a splice site change in a patient from a second family, with juvenile-onset optic atrophy, peripheral neuropathy, and ataxia. Our molecular modeling predicted the coding-region mutations to cause protein instability, which was experimentally confirmed in cultured patient cells, with mitochondrial translation defect and lacking EFTs. Only a single TSFM mutation has been previously described in different populations, leading to an infantile fatal multisystem disorder with cardiomyopathy. Sequence data from 35,000 Finnish population controls indicated that the heterozygous carrier frequency of p.Q286X change was exceptionally high in Finland, 1:80, but no homozygotes were found in the population, in our mitochondrial disease patient collection, or in an intrauterine fetal death material, suggesting early developmental lethality of the homozygotes.

CONCLUSIONS: We show that in addition to early-onset cardiomyopathy, TSFM mutations should be considered in childhood and juvenile encephalopathies with optic and/or peripheral neuropathy, ataxia, or Leigh disease.


Alternate JournalNeurology
PubMed ID25037205
PubMed Central IDPMC4150129