Scientific Reports (Mar 2021)

The difficulty to model Huntington’s disease in vitro using striatal medium spiny neurons differentiated from human induced pluripotent stem cells

  • Kim Le Cann,
  • Alec Foerster,
  • Corinna Rösseler,
  • Andelain Erickson,
  • Petra Hautvast,
  • Sebastian Giesselmann,
  • Daniel Pensold,
  • Ingo Kurth,
  • Markus Rothermel,
  • Virginia B. Mattis,
  • Geraldine Zimmer-Bensch,
  • Stephan von Hörsten,
  • Bernd Denecke,
  • Tim Clarner,
  • Jannis Meents,
  • Angelika Lampert

DOI
https://doi.org/10.1038/s41598-021-85656-x
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 16

Abstract

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Abstract Huntington’s disease (HD) is an autosomal dominant neurodegenerative disorder caused by an expanded polyglutamine repeat in the huntingtin gene. The neuropathology of HD is characterized by the decline of a specific neuronal population within the brain, the striatal medium spiny neurons (MSNs). The origins of this extreme vulnerability remain unknown. Human induced pluripotent stem cell (hiPS cell)-derived MSNs represent a powerful tool to study this genetic disease. However, the differentiation protocols published so far show a high heterogeneity of neuronal populations in vitro. Here, we compared two previously published protocols to obtain hiPS cell-derived striatal neurons from both healthy donors and HD patients. Patch-clamp experiments, immunostaining and RT-qPCR were performed to characterize the neurons in culture. While the neurons were mature enough to fire action potentials, a majority failed to express markers typical for MSNs. Voltage-clamp experiments on voltage-gated sodium (Nav) channels revealed a large variability between the two differentiation protocols. Action potential analysis did not reveal changes induced by the HD mutation. This study attempts to demonstrate the current challenges in reproducing data of previously published differentiation protocols and in generating hiPS cell-derived striatal MSNs to model a genetic neurodegenerative disorder in vitro.