Journal
CELLULAR PHYSIOLOGY AND BIOCHEMISTRY
Volume 29, Issue 5-6, Pages 809-818Publisher
KARGER
DOI: 10.1159/000178470
Keywords
Oocyte; Kv7.1; KvLQT1; KCNE; Heart; Arrhythmia
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Funding
- Deutsche Forschungsgemeinschaft [DFG SE 1077/3-1, DFG Schu1082/3-1, Schu1082/3-1]
- RUB
- Fondation Leducq, Paris, France
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Background: Cardiac action potential repolarisation is determined by K+ currents including I-Ks . I-Ks channels are heteromeric channels composed of KCNQ1 and KCNE beta-subunits. Mutations in KCNQ1 are associated with sinus bradycardia, familial atrial fibrillation (fAF) and/or short QT syndrome as a result of gain-of-function, and long QT syndrome (LQTS) due to loss-of- function in the ventricles. Here, we report that the missense mutation R231C located in S4 voltage sensor domain is associated with a combined clinical phenotype of sinus bradycardia, fAF and LQTS. We aim to understand the molecular basis of the complex clinical phenotype. Methods: We expressed and functionally analyzed the respective channels kinetics in Xenopus laevis oocytes. The molecular nature of the residue R231 was studied by homology modeling and molecular dynamics simulation. Results: As a result, the mutation reduced voltage sensitivity of channels, possibly due to neutralization of the positive charge of the arginine side chain substituted by cysteine. Modeling suggested that the charge carrying side chain of R231 is positioned suitably to transfer transmembrane voltages into conformational energy. Further, the mutation altered the functional interactions with KCNE subunits. Conclusion: The mutation acted in a beta-subunit dependent manner, suggesting I-Ks function altered by the presence of different KCNE subunits in sinus node, atria and ventricles as the molecular basis of sinus bradycardia, fAF and LQTS in mutation carriers. Copyright (c) 2012 S. Karger AG, Basel
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