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Mitochondrial dysfunction and calcium dysregulation in <i>COQ8A</i>-ataxia Purkinje neurons are rescued by CoQ10 treatment

Ioannis Manolaras, Andrea Del Bondio, Olivier Griso, Laurence Reutenauer, Aurélie Eisenmann, Bianca Habermann, Hélène Puccio

2023Brain27 citationsDOIOpen Access PDF

Abstract

COQ8A-ataxia is a rare form of neurodegenerative disorder due to mutations in the COQ8A gene. The encoded mitochondrial protein is involved in the regulation of coenzyme Q10 biosynthesis. Previous studies on the constitutive Coq8a-/- mice indicated specific alterations of cerebellar Purkinje neurons involving altered electrophysiological function and dark cell degeneration. In the present manuscript, we extend our understanding of the contribution of Purkinje neuron dysfunction to the pathology. By generating a Purkinje-specific conditional COQ8A knockout, we demonstrate that loss of COQ8A in Purkinje neurons is the main cause of cerebellar ataxia. Furthermore, through in vivo and in vitro approaches, we show that COQ8A-depleted Purkinje neurons have abnormal dendritic arborizations, altered mitochondria function and intracellular calcium dysregulation. Furthermore, we demonstrate that oxidative phosphorylation, in particular Complex IV, is primarily altered at presymptomatic stages of the disease. Finally, the morphology of primary Purkinje neurons as well as the mitochondrial dysfunction and calcium dysregulation could be rescued by CoQ10 treatment, suggesting that CoQ10 could be a beneficial treatment for COQ8A-ataxia.

Topics & Concepts

Purkinje cellAtaxiaMitochondrionNeuroscienceBiologyCerebellar ataxiaCoenzyme Q10CerebellumConditional gene knockoutCell biologyPhenotypeEndocrinologyGeneGeneticsCoenzyme Q10 studies and effectsMitochondrial Function and PathologyAdvanced battery technologies research
Mitochondrial dysfunction and calcium dysregulation in <i>COQ8A</i>-ataxia Purkinje neurons are rescued by CoQ10 treatment | Litcius