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Absence epilepsy in apathetic, a spontaneous mutant mouse lacking the h channel subunit, HCN2.


ABSTRACT: Analysis of naturally occurring mutations that cause seizures in rodents has advanced understanding of the molecular mechanisms underlying epilepsy. Abnormalities of I(h) and h channel expression have been found in many animal models of absence epilepsy. We characterized a novel spontaneous mutant mouse, apathetic (ap/ap), and identified the ap mutation as a 4 base pair insertion within the coding region of Hcn2, the gene encoding the h channel subunit 2 (HCN2). We demonstrated that Hcn2(ap) mRNA is reduced by 90% compared to wild type, and the predicted truncated HCN2(ap) protein is absent from the brain tissue of mice carrying the ap allele. ap/ap mice exhibited ataxia, generalized spike-wave absence seizures, and rare generalized tonic-clonic seizures. ap/+ mice had a normal gait, occasional absence seizures and an increased severity of chemoconvulsant-induced seizures. These findings help elucidate basic mechanisms of absence epilepsy and suggest HCN2 may be a target for therapeutic intervention.

SUBMITTER: Chung WK 

PROVIDER: S-EPMC2643333 | biostudies-literature | 2009 Mar

REPOSITORIES: biostudies-literature

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Absence epilepsy in apathetic, a spontaneous mutant mouse lacking the h channel subunit, HCN2.

Chung Wendy K WK   Shin Minyoung M   Jaramillo Thomas C TC   Leibel Rudolph L RL   LeDuc Charles A CA   Fischer Stuart G SG   Tzilianos Efthia E   Gheith Ayman A AA   Lewis Alan S AS   Chetkovich Dane M DM  

Neurobiology of disease 20081225 3


Analysis of naturally occurring mutations that cause seizures in rodents has advanced understanding of the molecular mechanisms underlying epilepsy. Abnormalities of I(h) and h channel expression have been found in many animal models of absence epilepsy. We characterized a novel spontaneous mutant mouse, apathetic (ap/ap), and identified the ap mutation as a 4 base pair insertion within the coding region of Hcn2, the gene encoding the h channel subunit 2 (HCN2). We demonstrated that Hcn2(ap) mRN  ...[more]

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