Perturbed Redox Signaling Exacerbates a Mitochondrial Myopathy

Alternative oxidases (AOXs) bypass respiratory complexes III and IV by transferring electrons from coenzyme Q directly to O2. They have therefore been proposed as a potential therapeutic tool for mitochondrial diseases. We crossed the severely myopathic skeletal muscle-specific COX15 knockout (KO) m...

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Detalles Bibliográficos
Autores: Dogan, Sukru Anil, Cerutti, Raffaele, Benincá, Cristiane, Brea-Calvo, Gloria, Trevor Jacobs, Howard, Zeviani, Massimo, Szibor, Marten, Viscomi, Carlo
Tipo de recurso: artículo
Estado:Versión publicada
Fecha de publicación:2018
País:España
Institución:Consejo Superior de Investigaciones Científicas (CSIC)
Repositorio:DIGITAL.CSIC. Repositorio Institucional del CSIC
OAI Identifier:oai:digital.csic.es:10261/242433
Acceso en línea:http://hdl.handle.net/10261/242433
Access Level:acceso abierto
Palabra clave:Mitochondrial biogenesis
Alternative oxidase
ROS
Redox signaling
Autophagy
Mitochondrial diseases
Antioxidants
Stress responses
Satellite cells
Descripción
Sumario:Alternative oxidases (AOXs) bypass respiratory complexes III and IV by transferring electrons from coenzyme Q directly to O2. They have therefore been proposed as a potential therapeutic tool for mitochondrial diseases. We crossed the severely myopathic skeletal muscle-specific COX15 knockout (KO) mouse with an AOX-transgenic mouse. Surprisingly, the double KO-AOX mutants had decreased lifespan and a substantial worsening of the myopathy compared with KO alone. Decreased ROS production in KO-AOX versus KO mice led to impaired AMPK/PGC-1α signaling and PAX7/MYOD-dependent muscle regeneration, blunting compensatory responses. Importantly, the antioxidant N-acetylcysteine had a similar effect, decreasing the lifespan of KO mice. Our findings have major implications for understanding pathogenic mechanisms in mitochondrial diseases and for the design of therapies, highlighting the benefits of ROS signaling and the potential hazards of antioxidant treatment.