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A mitochondrial-targeted antioxidant (MitoQ) improves motor coordination and reduces Purkinje cell death in a mouse model of ARSACS

Brenda Toscano Márquez, Tsz Chui Sophia Leung, Jeanette Hui, François Charron, R. Anne McKinney, Alanna J. Watt

2023Neurobiology of Disease16 citationsDOIOpen Access PDF

Abstract

Mitochondrial deficits have been observed in animal models of Autosomal-recessive spastic ataxia of Charlevoix-Saguenay (ARSACS) and in patient-derived fibroblasts. We investigated whether mitochondrial function could be restored in Sacs−/− mice, a mouse model of ARSACS, using the mitochondrial-targeted antioxidant ubiquinone MitoQ. After 10weeks of chronic MitoQ administration in drinking water, we partially reversed motor coordination deficits in Sacs−/− mice but did not affect litter-matched wild-type control mice. MitoQ administration led to a restoration of superoxide dismutase 2 (SOD2) in cerebellar Purkinje cell somata without altering Purkinje cell firing deficits. Purkinje cells in anterior vermis of Sacs−/− mice normally undergo cell death in ARSACS; however, Purkinje cells numbers were elevated after chronic MitoQ treatment. Furthermore, Purkinje cell innervation of target neurons in the cerebellar nuclei of Sacs−/− mice was also partially restored with MitoQ treatment. Our data suggest that MitoQ is a potential therapeutic treatment for ARSACS and that it improves motor coordination via increasing cerebellar Purkinje cell mitochondria function and reducing Purkinje cell death.

Topics & Concepts

Purkinje cellSOD2Programmed cell deathMotor coordinationCerebellumMitochondrionCerebellar ataxiaNeuroscienceSpinocerebellar ataxiaCellApoptosisChemistryBiologySuperoxide dismutasePharmacologyMedicineAtaxiaCell biologyAntioxidantBiochemistryGenetic Neurodegenerative DiseasesMitochondrial Function and PathologyAmyotrophic Lateral Sclerosis Research