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Literature DB >> 25915598

Mutations in KCNH1 and ATP6V1B2 cause Zimmermann-Laband syndrome.

Fanny Kortüm¹, Viviana Caputo², Christiane K Bauer³, Lorenzo Stella⁴, Andrea Ciolfi⁵, Malik Alawi⁶, Gianfranco Bocchinfuso⁴, Elisabetta Flex⁵, Stefano Paolacci⁷, Maria Lisa Dentici⁸, Paola Grammatico⁹, Georg Christoph Korenke¹⁰, Vincenzo Leuzzi¹¹, David Mowat¹², Lal D V Nair¹³, Thi Tuyet Mai Nguyen¹⁴, Patrick Thierry¹⁵, Susan M White¹⁶, Bruno Dallapiccola⁸, Antonio Pizzuti², Philippe M Campeau¹⁷, Marco Tartaglia¹⁸, Kerstin Kutsche¹.

Abstract

Zimmermann-Laband syndrome (ZLS) is a developmental disorder characterized by facial dysmorphism with gingival enlargement, intellectual disability, hypoplasia or aplasia of nails and terminal phalanges, and hypertrichosis. We report that heterozygous missense mutations in KCNH1 account for a considerable proportion of ZLS. KCNH1 encodes the voltage-gated K(+) channel Eag1 (Kv10.1). Patch-clamp recordings showed strong negative shifts in voltage-dependent activation for all but one KCNH1 channel mutant (Gly469Arg). Coexpression of Gly469Arg with wild-type KCNH1 resulted in heterotetrameric channels with reduced conductance at positive potentials but pronounced conductance at negative potentials. These data support a gain-of-function effect for all ZLS-associated KCNH1 mutants. We also identified a recurrent de novo missense change in ATP6V1B2, encoding the B2 subunit of the multimeric vacuolar H(+) ATPase, in two individuals with ZLS. Structural analysis predicts a perturbing effect of the mutation on complex assembly. Our findings demonstrate that KCNH1 mutations cause ZLS and document genetic heterogeneity for this disorder.

Entities: Chemical Disease Gene Mutation

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Year: 2015 PMID： 25915598 DOI： 10.1038/ng.3282

Source DB: PubMed Journal: Nat Genet ISSN： 1061-4036 Impact factor: 38.330

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