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Title: PARK2 patient neuroprogenitors show increased mitochondrial sensitivity to copper.

Authors: Aboud, Asad A; Tidball, Andrew M; Kumar, Kevin K; Neely, M Diana; Han, Bingying; Ess, Kevin C; Hong, Charles C; Erikson, Keith M; Hedera, Peter; Bowman, Aaron B

Published In Neurobiol Dis, (2015 Jan)

Abstract: Poorly-defined interactions between environmental and genetic risk factors underlie Parkinson's disease (PD) etiology. Here we tested the hypothesis that human stem cell derived forebrain neuroprogenitors from patients with known familial risk for early onset PD will exhibit enhanced sensitivity to PD environmental risk factors compared to healthy control subjects without a family history of PD. Two male siblings (SM and PM) with biallelic loss-of-function mutations in PARK2 were identified. Human induced pluripotent stem cells (hiPSCs) from SM, PM, and four control subjects with no known family histories of PD or related neurodegenerative diseases were utilized. We tested the hypothesis that hiPSC-derived neuroprogenitors from patients with PARK2 mutations would show heightened cell death, mitochondrial dysfunction, and reactive oxygen species generation compared to control cells as a result of exposure to heavy metals (PD environmental risk factors). We report that PARK2 mutant neuroprogenitors showed increased cytotoxicity with copper (Cu) and cadmium (Cd) exposure but not manganese (Mn) or methyl mercury (MeHg) relative to control neuroprogenitors. PARK2 mutant neuroprogenitors also showed a substantial increase in mitochondrial fragmentation, initial ROS generation, and loss of mitochondrial membrane potential following Cu exposure. Our data substantiate Cu exposure as an environmental risk factor for PD. Furthermore, we report a shift in the lowest observable effect level (LOEL) for greater sensitivity to Cu-dependent mitochondrial dysfunction in patients SM and PM relative to controls, correlating with their increased genetic risk for PD.

PubMed ID: 25315681 Exiting the NIEHS site

MeSH Terms: Adult; Cadmium/metabolism*; Cell Line; Copper/metabolism*; Genetic Predisposition to Disease; Humans; Induced Pluripotent Stem Cells/metabolism*; Male; Manganese/metabolism; Membrane Potential, Mitochondrial; Methylmercury Compounds/metabolism; Mitochondria/metabolism*; Mutation; Neural Stem Cells/metabolism*; Parkinson Disease/genetics; Parkinson Disease/metabolism*; Risk Factors; Ubiquitin-Protein Ligases*

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Last Reviewed: October 07, 2024