[No authors listed]
The human cardiac fast transient outward K+ channel is composed of the KV4.3 α subunit encoded by KCND3 and the K+ channelâinteracting protein 2 (KChIP2) β subunit, and determines the early repolarization of the action potential (AP). Two human mutations (G600R and L450F) in KV4.3 are associated with Brugada syndrome and they increase the KV4.3/KChIP2âencoded fast transient outward K+ current (Ito,f) and cause the stable loss of the AP dome. However, the detailed mechanisms underlying the gain of Ito,f function by these two mutations are largely unknown. The experiments in the present study were undertaken to investigate the effect of these mutations and the underlying mechanism. Whole cell patchâclamp recording was performed in HEKâ293 cells expressing KV4.3âwildâtype (WT) and KV4.3 mutants with KChIP2. The two individual mutantâencoded currents were significantly increased but the kinetics of the channels affected by the two mutations were different. The two mutations slowed KV4.3/KChIP2âencoded channel inactivation; they did not increase the recovery from the KV4.3/KChIP2âencoded channel inactivation. Western blotting showed that total KV4.3 protein was significantly augmented in HEKâ293 cells expressing the two individual mutants with KChIP2. Furthermore, immunofluorescence confocal microscopy demonstrated that the KV4.3 channel protein was expressed more in the cell membrane compared to the cytoplasm in cells that expressed individual mutants with KChIP2. Also, KChIP2 increased the amount of channel protein in the cell membrane of KV4.3 mutants significantly more than KV4.3âWT. Reverse transcriptionâpolymerase chain reaction showed that KV4.3 mRNA was not significantly changed by individual mutations in the presence of KChIP2. Taken together, the present study revealed that the mutations cause a gainâofâfunction of KV4.3/KChIP2âencoded channels by increasing membrane protein expression and slowing channel inactivation.
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