Stem Cell Reports (May 2019)

Neural Stem Cells of Parkinson's Disease Patients Exhibit Aberrant Mitochondrial Morphology and Functionality

  • Jonas Walter,
  • Silvia Bolognin,
  • Paul M.A. Antony,
  • Sarah L. Nickels,
  • Suresh K. Poovathingal,
  • Luis Salamanca,
  • Stefano Magni,
  • Rita Perfeito,
  • Fredrik Hoel,
  • Xiaobing Qing,
  • Javier Jarazo,
  • Jonathan Arias-Fuenzalida,
  • Tomasz Ignac,
  • Anna S. Monzel,
  • Laura Gonzalez-Cano,
  • Luis Pereira de Almeida,
  • Alexander Skupin,
  • Karl J. Tronstad,
  • Jens C. Schwamborn

Journal volume & issue
Vol. 12, no. 5
pp. 878 – 889

Abstract

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Summary: Emerging evidence suggests that Parkinson's disease (PD), besides being an age-associated disorder, might also have a neurodevelopment component. Disruption of mitochondrial homeostasis has been highlighted as a crucial cofactor in its etiology. Here, we show that PD patient-specific human neuroepithelial stem cells (NESCs), carrying the LRRK2-G2019S mutation, recapitulate key mitochondrial defects previously described only in differentiated dopaminergic neurons. By combining high-content imaging approaches, 3D image analysis, and functional mitochondrial readouts we show that LRRK2-G2019S mutation causes aberrations in mitochondrial morphology and functionality compared with isogenic controls. LRRK2-G2019S NESCs display an increased number of mitochondria compared with isogenic control lines. However, these mitochondria are more fragmented and exhibit decreased membrane potential. Functional alterations in LRRK2-G2019S cultures are also accompanied by a reduced mitophagic clearance via lysosomes. These findings support the hypothesis that preceding mitochondrial developmental defects contribute to the manifestation of the PD pathology later in life. : Walter, Bolognin and colleagues show the detection of mitochondrial phenotypes in NESCs derived from Parkinson's disease (PD) patients carrying the LRRK2-G2019S mutation. This supports the use of stem cells as a relevant model to study PD-associated mitochondrial defects associated to PD. Keywords: Parkinson's disease, LRRK2, neurodevelopment, stem cells, mitochondria, autophagy, mitophagy