A Cav3.2 T-type calcium channel point mutation has splice-variant-specific effects on function and segregates with seizure expression in a polygenic rat model of absence epilepsy

Kim L. Powell, Stuart M. Cain, Caroline Ng, Shreerang Sirdesai, Laurence S. David, Mervyn Kyi, Esperanza Garcia, John R. Tyson, Christopher A. Reid, Melanie Bahlo, Simon J. Foote, Terrance P. Snutch, Terence J. O'Brien

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Low-voltage-activated, or T-type, calcium (Ca2+) channels are believed to play an essential role in the generation of absence seizures in the idiopathic generalized epilepsies (IGEs). We describe a homozygous, missense, single nucleotide (G to C) mutation in the Cav3.2 T-type Ca2 2+ channel gene (Cacna1h) in the genetic absence epilepsy rats from Strasbourg (GAERS) model of IGE. The GAERS Cav3.2 mutation (gcm) produces an arginine to proline (R1584P) substitution in exon 24 of Cacna1h, encoding a portion of the III-IV linker region in Cav3.2. gcm segregates codominantly with the number of seizures and time in seizure activity in progeny of an F1 intercross. We have further identified two major thalamic Cacna1h splice variants, either with or without exon 25. gcm introduced into the splice variants acts "epistatically," requiring the presence of exon 25 to produce significantly faster recovery from channel inactivation and greater charge transference during high-frequency bursts. This gain-of-function mutation, the first reported in the GAERS polygenic animal model, has a novel mechanism of action, being dependent on exonic splicing for its functional consequences to be expressed.

Original languageEnglish
Pages (from-to)371-380
Number of pages10
JournalThe Journal of Neuroscience
Issue number2
Publication statusPublished - 14 Jan 2009
Externally publishedYes


  • Absence seizures
  • Genetic absence epilepsy rats from strasbourg
  • Idiopathic generalized epilepsy
  • Point mutation
  • Splice variant
  • T-type calcium channel

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