Molecular Brain (Mar 2020)

A rare CACNA1H variant associated with amyotrophic lateral sclerosis causes complete loss of Cav3.2 T-type channel activity

  • Robin N. Stringer,
  • Bohumila Jurkovicova-Tarabova,
  • Sun Huang,
  • Omid Haji-Ghassemi,
  • Romane Idoux,
  • Anna Liashenko,
  • Ivana A. Souza,
  • Yuriy Rzhepetskyy,
  • Lubica Lacinova,
  • Filip Van Petegem,
  • Gerald W. Zamponi,
  • Roger Pamphlett,
  • Norbert Weiss

DOI
https://doi.org/10.1186/s13041-020-00577-6
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 11

Abstract

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Abstract Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disorder characterized by the progressive loss of cortical, brain stem and spinal motor neurons that leads to muscle weakness and death. A previous study implicated CACNA1H encoding for Cav3.2 calcium channels as a susceptibility gene in ALS. In the present study, two heterozygous CACNA1H variants were identified by whole genome sequencing in a small cohort of ALS patients. These variants were functionally characterized using patch clamp electrophysiology, biochemistry assays, and molecular modeling. A previously unreported c.454GTAC > G variant produced an inframe deletion of a highly conserved isoleucine residue in Cav3.2 (p.ΔI153) and caused a complete loss-of-function of the channel, with an additional dominant-negative effect on the wild-type channel when expressed in trans. In contrast, the c.3629C > T variant caused a missense substitution of a proline with a leucine (p.P1210L) and produced a comparatively mild alteration of Cav3.2 channel activity. The newly identified ΔI153 variant is the first to be reported to cause a complete loss of Cav3.2 channel function. These findings add to the notion that loss-of-function of Cav3.2 channels associated with rare CACNA1H variants may be risk factors in the complex etiology of ALS.

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