Metabolomics of Multiple System Atrophy Patient-Derived Striatal Medium Spiny Neurons.

In multiple system atrophy (MSA), the fatal movement disorder, cell populations of the striatum and other subcortical brain regions degenerate, leading to a rapidly progressive, atypical Parkinsonian syndrome. The pathophysiology of neurons and glial cells shows misfolding, aggregation, and increased release of the protein α-synuclein. In addition, neuronal hypoexcitability, a reduction in the activity of the mitochondrial respiratory chain, and a dysregulation of the enzymes involved in the biosynthesis of coenzyme Q10 were observed in human stem-cell models. In this study, untargeted and targeted metabolome analyses were performed with MSA patient-derived GABAergic striatal medium spiny neurons focusing on the citrate cycle and mitochondrial respiratory chain. The results indicate a significant decrease in succinate and ATP as well as an imbalanced NAD(+)/NADH ratio of MSA cell lines compared to matched healthy controls, suggesting alterations in mitochondrial processes which may facilitate neurodegeneration.