Brain energy metabolism in early MSA-P: A phosphorus and proton magnetic resonance spectroscopy study
- PMID: 25801909
- DOI: 10.1016/j.parkreldis.2015.03.001
Brain energy metabolism in early MSA-P: A phosphorus and proton magnetic resonance spectroscopy study
Abstract
Introduction: Recently, mutations in the COQ2 gene, encoding for an enzyme involved in coenzyme Q10 biosynthesis, have been suggested to confer susceptibility risk for multiple system atrophy (MSA). Thus, the possible role of mitochondrial dysfunction in the pathophysiology of MSA has emerged. Here, we studied brain energy metabolism in vivo in early MSA-parkinsonism (MSA-P) patients and compared to healthy controls.
Methods: We have used combined phosphorus and proton magnetic resonance spectroscopy to measure high- and low-energy phosphates in the basal ganglia of early (Hoehn and Yahr stage I-III), probable MSA-P patients (N = 9) compared to healthy controls (N = 9).
Results: No significant changes in the high energy phosphates and other parameters reflecting the energy status of the cells were found in the basal ganglia of MSA-P patients compared to healthy controls. N-acetylaspartate was significantly reduced in MSA-P compared to healthy controls and correlated with the Unified Multiple System Atrophy Rating Scale.
Conclusion: Brain energy metabolism in early MSA-P is not impaired, despite the presence of impaired neuronal integrity. This may imply that mitochondrial dysfunction may not play a primary role in the pathophysiology of MSA, at least in European populations.
Keywords: COQ2 gene mutations; Energy metabolism; Mitochondrial dysfunction; Multiple system atrophy; Phosphorus spectroscopy.
Copyright © 2015 Elsevier Ltd. All rights reserved.
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