@article{8188efb271e64ef7a09ce8ae965ef46c,
title = "Mitochondrial and Clearance Impairment in p.D620N VPS35 Patient-Derived Neurons",
abstract = "Background: VPS35 is part of the retromer complex and is responsible for the trafficking and recycling of proteins implicated in autophagy and lysosomal degradation, but also takes part in the degradation of mitochondrial proteins via mitochondria-derived vesicles. The p.D620N mutation of VPS35 causes an autosomal-dominant form of Parkinson's disease (PD), clinically representing typical PD. Objective: Most of the studies on p.D620N VPS35 were performed on human tumor cell lines, rodent models overexpressing mutant VPS35, or in patient-derived fibroblasts. Here, based on identified target proteins, we investigated the implication of mutant VPS35 in autophagy, lysosomal degradation, and mitochondrial function in induced pluripotent stem cell-derived neurons from a patient harboring the p.D620N mutation. Methods: We reprogrammed fibroblasts from a PD patient carrying the p.D620N mutation in the VPS35 gene and from two healthy donors in induced pluripotent stem cells. These were subsequently differentiated into neuronal precursor cells to finally generate midbrain dopaminergic neurons. Results: We observed a decreased autophagic flux and lysosomal mass associated with an accumulation of α-synuclein in patient-derived neurons compared to controls. Moreover, patient-derived neurons presented a mitochondrial dysfunction with decreased membrane potential, impaired mitochondrial respiration, and increased production of reactive oxygen species associated with a defect in mitochondrial quality control via mitophagy. Conclusion: We describe for the first time the impact of the p.D620N VPS35 mutation on autophago-lysosome pathway and mitochondrial function in stem cell-derived neurons from an affected p.D620N carrier and define neuronal phenotypes for future pharmacological interventions.",
keywords = "Parkinson's disease, VPS35, induced pluripotent stem cells, mitochondrial impairment, α-synuclein",
author = "Zo{\'e} Hanss and Larsen, {Simone B.} and Paul Antony and Pauline Mencke and Fran{\c c}ois Massart and Javier Jarazo and Schwamborn, {Jens C.} and Barbuti, {Peter A.} and Mellick, {George D.} and Rejko Kr{\"u}ger",
note = "Funding Information: RK has received research grants from Fonds National de Recherche de Luxembourg (FNR) as Coordinator of the National Centre for Excellence in Research on Parkinson's disease (NCER‐PD), Coordinator of the Study on COvid‐19 National survey for assessing VIral spread by Non‐affected CarriErs (CON‐VINCE). RK received as well as speaker's honoraria and/or travel grants from Abbvie, Zambon and Medtronic and he participated as PI or site‐PI for industry sponsored clinical trials without receiving honoraria. Financial Disclosure/Conflict of Interest: Funding Information: We would like to thank the Fond National de la Recherche for its financial support for this study. Patient fibroblasts were obtained from Griffith University. We would like to thank Prof. Peter Silburn for clinical updates on this patient. Control fibroblasts were obtained from the Neuro-Biobank of the University of Tuebingen, Germany (https://www.hih-tuebingen.de/en/about-us/core-facilities/biobank/). This biobank is supported by the local University, the Hertie Institute, and the DZNE. We thank Christine Bus from the University of Tuebingen for the plasmids and protocol for reprogramming. pX330-U6-Chimeric_BB-CBh-hSpCas9 was a gift from Feng Zhang (Addgene plasmid # 42230). AAVS1 SA-2A-puro-pA donor was a gift from Rudolf Jaenisch (Addgene plasmid # 22075). We would like to thank Prof. T. Graham and A. Sargsyan from the University of Utah for kindly providing us with the pHluorin construct. Funding Information: This study was supported by grants from the Fond National de Recherche within the PEARL programme (FNR/P13/6682797 to R.K.), the NCER‐PD programme (NCER13/BM/11264123), and by the European Union's Horizon2020 research and innovation programme under grant agreement No. 692320 (WIDESPREAD; CENTRE‐PD). This project was also supported by the European Union's Horizon 2020 research and innovation programme under grant agreement No. 668738, SysMedPD. J.J. is supported by a Pelican award from the Fondation du Pelican de Mie et Pierre Hippert‐Faber. Funding Information: Patient fibroblasts were obtained from Griffith University. We would like to thank Prof. Peter Silburn for clinical updates on this patient. Control fibroblasts were obtained from the Neuro‐Biobank of the University of Tuebingen, Germany ( https://www.hih-tuebingen.de/en/about-us/core-facilities/biobank/ ). This biobank is supported by the local University, the Hertie Institute, and the DZNE. We thank Christine Bus from the University of Tuebingen for the plasmids and protocol for reprogramming. pX330‐U6‐Chimeric_BB‐CBh‐hSpCas9 was a gift from Feng Zhang (Addgene plasmid # 42230). AAVS1 SA‐2A‐puro‐pA donor was a gift from Rudolf Jaenisch (Addgene plasmid # 22075). We would like to thank Prof. T. Graham and A. Sargsyan from the University of Utah for kindly providing us with the pHluorin construct. Publisher Copyright: {\textcopyright} 2020 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.",
year = "2021",
month = mar,
doi = "10.1002/mds.28365",
language = "English",
volume = "36",
pages = "704--715",
journal = "Movement Disorders",
issn = "0885-3185",
publisher = "John Wiley & Sons Inc.",
number = "3",
}