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Genetic variation in KCNA5: impact on the atrial-specific potassium current IKur in patients with lone atrial fibrillation

Genetic factors may be important in the development of atrial fibrillation (AF) in the young. KCNA5 encodes the potassium channel α-subunit KV1.5, which underlies the voltage-gated atrial-specific potassium current IKur. KCNAB2 encodes KVβ2, a β-subunit of KV1.5, which increases IKur. Three studies...

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Published in:European heart journal 2013-05, Vol.34 (20), p.1517-1525
Main Authors: Christophersen, Ingrid E, Olesen, Morten S, Liang, Bo, Andersen, Martin N, Larsen, Anders P, Nielsen, Jonas B, Haunsø, Stig, Olesen, Søren-Peter, Tveit, Arnljot, Svendsen, Jesper H, Schmitt, Nicole
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Language:English
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Summary:Genetic factors may be important in the development of atrial fibrillation (AF) in the young. KCNA5 encodes the potassium channel α-subunit KV1.5, which underlies the voltage-gated atrial-specific potassium current IKur. KCNAB2 encodes KVβ2, a β-subunit of KV1.5, which increases IKur. Three studies have identified loss-of-function mutations in KCNA5 in patients with idiopathic AF. We hypothesized that early-onset lone AF is associated with high prevalence of genetic variants in KCNA5 and KCNAB2. The coding sequences of KCNA5 and KCNAB2 were sequenced in 307 patients with mean age of 33 years at the onset of lone AF, and in 216 healthy controls. We identified six novel non-synonymous mutations [E48G, Y155C, A305T (twice), D322H, D469E, and P488S] in KCNA5 in seven patients. None were present in controls. We identified a significantly higher frequency of rare deleterious variants in KCNA5 in the patients than in controls. The mutations were analysed with confocal microscopy and whole-cell patch-clamp techniques. The mutant proteins Y155C, D469E, and P488S displayed decreased surface expression and loss-of-function in patch-clamp studies, whereas E48G, A305T, and D322H showed preserved surface expression and gain-of-function for KV1.5. This study is the first to present gain-of-function mutations in KCNA5 in patients with early-onset lone AF. We identified three gain-of-function and three loss-of-function mutations. We report a high prevalence of variants in KCNA5 in these patients. This supports the hypothesis that both increased and decreased potassium currents enhance AF susceptibility.
ISSN:0195-668X
1522-9645
DOI:10.1093/eurheartj/ehs442