Parkinson's disease-associated human ATP13A2 (PARK9) deficiency causes zinc dyshomeostasis and mitochondrial dysfunction

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Abstract

Human ATP13A2 (PARK9), a lysosomal type 5 P-type ATPase, has been associated with autosomal recessive early-onset Parkinson's disease (PD).ATP13A2encodes a protein that is highly expressed in neurons andis predicted to function as a cation pump, although the substrate specificity remains unclear. Accumulation of zinc and mitochondrial dysfunction are established aetiological factors that contribute to PD; however, their underlying molecular mechanisms are largely unknown. Using patient-derived human olfactory neurosphere cultures, which harbour loss-of-function mutations in both alleles of ATP13A2, we identified a low intracellular free zinc ion concentration ([Zn2+]i), altered expression of zinc transporters and impaired sequestration of Zn2+into autophagy-lysosomal pathway-associated vesicles, indicating that zinc dyshomeostasis occurs in the setting of ATP13A2 deficiency. Pharmacological treatments that increased [Zn2+]ialso induced the production of reactive oxygen species and aggravation of mitochondrial abnormalities that gave rise tomitochondrial depolarization, fragmentation and cell death due to ATP depletion. The toxic effect of Zn2+was blocked by ATP13A2 overexpression, Zn2+chelation, antioxidant treatment and promotion of mitochondrial fusion. Taken together, these results indicate that human ATP13A2 deficiency results in zinc dyshomeostasis and mitochondrial dysfunction. Our data provide insights into the molecular mechanisms of zinc dyshomeostasis in PD and its contribution to mitochondrial dysfunction with ATP13A2 as amolecular link between the two distinctive aetiological factors of PD. © The Author 2014. Published by Oxford University Press. All rights reserved.

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Park, J. S., Koentjoro, B., Veivers, D., Mackay-Sim, A., & Sue, C. M. (2014). Parkinson’s disease-associated human ATP13A2 (PARK9) deficiency causes zinc dyshomeostasis and mitochondrial dysfunction. Human Molecular Genetics, 23(11), 2802–2815. https://doi.org/10.1093/hmg/ddt623

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