| Literature DB >> 25420144 |
Cas Simons1, Lachlan D Rash1, Joanna Crawford1, Linlin Ma1, Ben Cristofori-Armstrong1, David Miller2, Kelin Ru1, Gregory J Baillie1, Yasemin Alanay3, Adeline Jacquinet4, François-Guillaume Debray4, Alain Verloes5, Joseph Shen6, Gözde Yesil7, Serhat Guler7, Adnan Yuksel7, John G Cleary8, Sean M Grimmond9, Julie McGaughran10, Glenn F King1, Michael T Gabbett11, Ryan J Taft12.
Abstract
Temple-Baraitser syndrome (TBS) is a multisystem developmental disorder characterized by intellectual disability, epilepsy, and hypoplasia or aplasia of the nails of the thumb and great toe. Here we report damaging de novo mutations in KCNH1 (encoding a protein called ether à go-go, EAG1 or KV10.1), a voltage-gated potassium channel that is predominantly expressed in the central nervous system (CNS), in six individuals with TBS. Characterization of the mutant channels in both Xenopus laevis oocytes and human HEK293T cells showed a decreased threshold of activation and delayed deactivation, demonstrating that TBS-associated KCNH1 mutations lead to deleterious gain of function. Consistent with this result, we find that two mothers of children with TBS, who have epilepsy but are otherwise healthy, are low-level (10% and 27%) mosaic carriers of pathogenic KCNH1 mutations. Consistent with recent reports, this finding demonstrates that the etiology of many unresolved CNS disorders, including epilepsies, might be explained by pathogenic mosaic mutations.Entities:
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Year: 2014 PMID: 25420144 DOI: 10.1038/ng.3153
Source DB: PubMed Journal: Nat Genet ISSN: 1061-4036 Impact factor: 38.330