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Episodic weakness due to mitochondrial DNA MT-ATP6/8 mutations.

Neurology (2013-10-25)
Karine Auré, Odile Dubourg, Claude Jardel, Lucie Clarysse, Damien Sternberg, Emmanuel Fournier, Pascal Laforêt, Nathalie Streichenberger, Philippe Petiot, Hélène Gervais-Bernard, Christophe Vial, Anne-Laure Bedat-Millet, Valérie Drouin-Garraud, Frédéric Bouillaud, Christophe Vandier, Bertrand Fontaine, Anne Lombès
ABSTRACT

To report that homoplasmic deleterious mutations in the mitochondrial DNA MT-ATP6/8 genes may be responsible for acute episodes of limb weakness mimicking periodic paralysis due to channelopathies and dramatically responding to acetazolamide. Mitochondrial DNA sequencing and restriction PCR, oxidative phosphorylation functional assays, reactive oxygen species metabolism, and patch-clamp technique in cultured skin fibroblasts. Occurrence of a typical MELAS (mitochondrial encephalopathy with lactic acidosis and stroke-like episodes) syndrome in a single member of a large pedigree with episodic weakness associated with a later-onset distal motor neuropathy led to the disclosure of 2 deleterious mitochondrial DNA mutations. The MT-ATP6 m.9185T>C p.Leu220Pro mutation, previously associated with Leigh syndrome, was present in all family members, while the MT-TL1 m.3271T>C mutation, a known cause of MELAS syndrome, was observed in the sole patient with MELAS presentation. Significant defect of complexes V and I as well as oxidative stress were observed in both primary fibroblasts and cybrid cells with 100% m.9185T>C mutation. Permanent plasma membrane depolarization and altered permeability to K(+) in fibroblasts provided a link with the paralysis episodes. Screening of 9 patients, based on their clinical phenotype, identified 4 patients with similar deleterious MT-ATP6 mutations (twice m.9185T>C and once m.9176T>C or m.8893T>C). A fifth patient presented with an original potentially deleterious MT-ATP8 mutation (m.8403T>C). All mutations were associated with almost-normal complex V activity but significant oxidative stress and permanent plasma membrane depolarization. Homoplasmic mutations in the MT-ATP6/8 genes may cause episodic weakness responding to acetazolamide treatment.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Acetazolamide, ≥99%, powder
Acetazolamide, European Pharmacopoeia (EP) Reference Standard