Stimulation of L‐type calcium channels increases tyrosine hydroxylase and dopamine in ventral midbrain cells induced from somatic cells

Malvin Jefri; Scott Bell; Huashan Peng; Nuwan Hettige; Gilles Maussion; Vincent Soubannier; Hanrong Wu; Heika Silveira; Jean‐Francois Theroux; Luc Moquin; Xin Zhang; Zahia Aouabed; Jeyashree Krishnan; Liam A. O'Leary; Lilit Antonyan; Ying Zhang; Vincent McCarty; Naguib Mechawar; Alain Gratton; Andreas Schuppert; Thomas M. Durcan; Edward A. Fon; Carl Ernst

doi:10.1002/sctm.18-0180

Stem Cells Translational Medicine (Jun 2020)

Stimulation of L‐type calcium channels increases tyrosine hydroxylase and dopamine in ventral midbrain cells induced from somatic cells

Malvin Jefri,
Scott Bell,
Huashan Peng,
Nuwan Hettige,
Gilles Maussion,
Vincent Soubannier,
Hanrong Wu,
Heika Silveira,
Jean‐Francois Theroux,
Luc Moquin,
Xin Zhang,
Zahia Aouabed,
Jeyashree Krishnan,
Liam A. O'Leary,
Lilit Antonyan,
Ying Zhang,
Vincent McCarty,
Naguib Mechawar,
Alain Gratton,
Andreas Schuppert,
Thomas M. Durcan,
Edward A. Fon,
Carl Ernst

Affiliations

Malvin Jefri: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Scott Bell: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Huashan Peng: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Nuwan Hettige: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Gilles Maussion: Department of Neurology and Neurosurgery Montreal Neurological Institute Montreal Quebec Canada
Vincent Soubannier: Department of Neurology and Neurosurgery Montreal Neurological Institute Montreal Quebec Canada
Hanrong Wu: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Heika Silveira: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Jean‐Francois Theroux: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Luc Moquin: Department of Psychiatry McGill University and Douglas Hospital Research Institute Montreal Quebec Canada
Xin Zhang: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Zahia Aouabed: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Jeyashree Krishnan: Institute for Computational Biomedicine, Aachen University Aachen Germany
Liam A. O'Leary: Department of Psychiatry McGill University and Douglas Hospital Research Institute Montreal Quebec Canada
Lilit Antonyan
Ying Zhang: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Vincent McCarty: Psychiatric Genetics Group McGill University Montreal Quebec Canada
Naguib Mechawar: Department of Psychiatry McGill University and Douglas Hospital Research Institute Montreal Quebec Canada
Alain Gratton: Department of Psychiatry McGill University and Douglas Hospital Research Institute Montreal Quebec Canada
Andreas Schuppert: Institute for Computational Biomedicine, Aachen University Aachen Germany
Thomas M. Durcan: Department of Neurology and Neurosurgery Montreal Neurological Institute Montreal Quebec Canada
Edward A. Fon: Department of Neurology and Neurosurgery Montreal Neurological Institute Montreal Quebec Canada
Carl Ernst: Psychiatric Genetics Group McGill University Montreal Quebec Canada

DOI: https://doi.org/10.1002/sctm.18-0180
Journal volume & issue: Vol. 9, no. 6
pp. 697 – 712

Abstract

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Abstract Making high‐quality dopamine (DA)‐producing cells for basic biological or small molecule screening studies is critical for the development of novel therapeutics for disorders of the ventral midbrain. Currently, many ventral midbrain assays have low signal‐to‐noise ratio due to low levels of cellular DA and the rate‐limiting enzyme of DA synthesis, tyrosine hydroxylase (TH), hampering discovery efforts. Using intensively characterized ventral midbrain cells derived from human skin, which demonstrate calcium pacemaking activity and classical electrophysiological properties, we show that an L‐type calcium agonist can significantly increase TH protein levels and DA content and release. Live calcium imaging suggests that it is the immediate influx of calcium occurring simultaneously in all cells that drives this effect. Genome‐wide expression profiling suggests that L‐type calcium channel stimulation has a significant effect on specific genes related to DA synthesis and affects expression of L‐type calcium receptor subunits from the CACNA1 and CACNA2D families. Together, our findings provide an advance in the ability to increase DA and TH levels to improve the accuracy of disease modeling and small molecule screening for disorders of the ventral midbrain, including Parkinson's disease.

Published in Stem Cells Translational Medicine

ISSN: 2157-6564 (Print); 2157-6580 (Online)
Publisher: Oxford University Press
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Cytology
Website: https://academic.oup.com/stcltm

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