Monomeric alpha-synuclein exerts a physiological role on brain ATP synthase

MHR Ludtmann, PR Angelova, NN Ninkina… - Journal of …, 2016 - Soc Neuroscience
MHR Ludtmann, PR Angelova, NN Ninkina, S Gandhi, VL Buchman, AY Abramov
Journal of Neuroscience, 2016Soc Neuroscience
Misfolded α-synuclein is a key factor in the pathogenesis of Parkinson's disease (PD).
However, knowledge about a physiological role for the native, unfolded α-synuclein is
limited. Using brains of mice lacking α-, β-, and γ-synuclein, we report that extracellular
monomeric α-synuclein enters neurons and localizes to mitochondria, interacts with ATP
synthase subunit α, and modulates ATP synthase function. Using a combination of
biochemical, live-cell imaging and mitochondrial respiration analysis, we found that brain …
Misfolded α-synuclein is a key factor in the pathogenesis of Parkinson's disease (PD). However, knowledge about a physiological role for the native, unfolded α-synuclein is limited. Using brains of mice lacking α-, β-, and γ-synuclein, we report that extracellular monomeric α-synuclein enters neurons and localizes to mitochondria, interacts with ATP synthase subunit α, and modulates ATP synthase function. Using a combination of biochemical, live-cell imaging and mitochondrial respiration analysis, we found that brain mitochondria of α-, β-, and γ-synuclein knock-out mice are uncoupled, as characterized by increased mitochondrial respiration and reduced mitochondrial membrane potential. Furthermore, synuclein deficiency results in reduced ATP synthase efficiency and lower ATP levels. Exogenous application of low unfolded α-synuclein concentrations is able to increase the ATP synthase activity that rescues the mitochondrial phenotypes observed in synuclein deficiency. Overall, the data suggest that α-synuclein is a previously unrecognized physiological regulator of mitochondrial bioenergetics through its ability to interact with ATP synthase and increase its efficiency. This may be of particular importance in times of stress or PD mutations leading to energy depletion and neuronal cell toxicity.
SIGNIFICANCE STATEMENT Misfolded α-synuclein aggregations in the form of Lewy bodies have been shown to be a pathological hallmark in histological staining of Parkinson's disease (PD) patient brains. It is known that misfolded α-synuclein is a key driver in PD pathogenesis, but the physiological role of unfolded monomeric α-synuclein remains unclear. Using neuronal cocultures and isolated brain mitochondria of α-, β-, and γ-synuclein knock-out mice and monomeric α-synuclein, this current study shows that α-synuclein in its unfolded monomeric form improves ATP synthase efficiency and mitochondrial function. The ability of monomeric α-synuclein to enhance ATP synthase efficiency under physiological conditions may be of importance when α-synuclein undergoes the misfolding and aggregation reported in PD.
Soc Neuroscience
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