Recovery of MERRF Fibroblasts and Cybrids Pathophysiology by Coenzyme Q10

Mitochondrial DNA mutations are an important cause of human disease for which there is no effective treatment. Myoclonic epilepsy with ragged-red fibers (MERRF) is a mitochondrial disease usually caused by point mutations in transfer RNA genes encoded by mitochondrial DNA. The most common mutation a...

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Veröffentlicht in:Neurotherapeutics 2012-04, Vol.9 (2), p.446-463
Hauptverfasser: De la Mata, Mario, Garrido-Maraver, Juan, Cotán, David, Cordero, Mario D., Oropesa-Ávila, Manuel, Izquierdo, Lourdes Gómez, De Miguel, Manuel, Lorite, Juan Bautista, Infante, Eloy Rivas, Ybot, Patricia, Jackson, Sandra, Sánchez-Alcázar, José A.
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Sprache:eng
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Zusammenfassung:Mitochondrial DNA mutations are an important cause of human disease for which there is no effective treatment. Myoclonic epilepsy with ragged-red fibers (MERRF) is a mitochondrial disease usually caused by point mutations in transfer RNA genes encoded by mitochondrial DNA. The most common mutation associated with MERRF syndrome, m.8344A > G in the gene MT-TK, which encodes transfer RNA Lysine , affects the translation of all mitochondrial DNA encoded proteins. This impairs the assembly of the electron transport chain complexes leading to decreased mitochondrial respiratory function. Here we report on how this mutation affects mitochondrial function in primary fibroblast cultures established from patients harboring the A8344G mutation. Coenzyme Q 10 (CoQ) levels, as well as mitochondrial respiratory chain activity, and mitochondrial protein expression levels were significantly decreased in MERRF fibroblasts. Mitotracker staining and imaging analysis of individual mitochondria indicated the presence of small, rounded, depolarized mitochondria in MERRF fibroblasts. Mitochondrial dysfunction was associated with increased oxidative stress and increased degradation of impaired mitochondria by mitophagy. Transmitochondrial cybrids harboring the A8344G mutation also showed CoQ deficiency, mitochondrial dysfunction, and increased mitophagy activity. All these abnormalities in patient-derived fibroblasts and cybrids were partially restored by CoQ supplementation, indicating that these cell culture models may be suitable for screening and validation of novel drug candidates for MERRF disease.
ISSN:1933-7213
1878-7479
1878-7479
DOI:10.1007/s13311-012-0103-3