β-肾上腺素能受体阻滞剂卡维地洛和美托洛尔对SQT1和SQT2突变通道的不同作用。
Differential effects of the β-adrenoceptor blockers carvedilol and metoprolol on SQT1- and SQT2-mutant channels.
作者信息
Bodi Ilona, Franke Gerlind, Pantulu Naga Deepa, Wu Kezhong, Perez-Feliz Stefanie, Bode Christoph, Zehender Manfred, zur Hausen Axel, Brunner Michael, Odening Katja E
机构信息
Heart Center Freiburg University, Department of Cardiology and Angiology I, Freiburg, Germany.
出版信息
J Cardiovasc Electrophysiol. 2013 Oct;24(10):1163-71. doi: 10.1111/jce.12178. Epub 2013 May 29.
BACKGROUND
N588K-KCNH2 and V307L-KCNQ1 mutations lead to a gain-of-function of IKr and IKs thus causing short-QT syndromes (SQT1, SQT2). Combined pharmacotherapies using K(+) -channel-blockers and β-blockers are effective in SQTS. Since β-blockers can block IKr and IKs , we aimed at determining carvedilol's and metoprolol's electrophysiological effects on N588K-KCNH2 and V307L-KCNQ1 channels.
METHODS
Wild-type (WT)-KCNH2, WT-KCNQ1 and mutant N588K-KCNH2 and V307L-KCNQ1 channels were expressed in CHO-K1 or HEK-293T cells and IKs and IKr were recorded at baseline and during β-blocker exposure.
RESULTS
Carvedilol (10 μM) reduced IKs tail in WT- and V307L-KCNQ1 by 36.5 ± 5% and 18.6 ± 9% (P < 0.05). IC50 values were 16.3 μM (WT) and 46.1 μM (V307L), indicating a 2.8-fold decrease in carvedilol's IKs -blocking potency in V307L-KCNQ1. Carvedilol's (1 μM) inhibition of the IKr tail was attenuated in N588K-KCNH2 (4.5 ± 3% vs 50.3 ± 4%, WT, P < 0.001) with IC50 values of 2.8 μM (WT) and 25.4 μM (N588K). Carvedilol's IKr end-pulse inhibition, however, was increased in N588K-KCNH2 (10 μM, 60.7 ± 6% vs 36.5 ± 5%, WT, P < 0.01). Metoprolol (100 μM) reduced IKr end-pulse by 0.23 ± 3% (WT) and 74.1 ± 7% (N588K, P < 0.05), IKr tail by 32.9 ± 10% (WT) and 68.8 ± 7% (N588K, P < 0.05), and reduced IKs end-pulse by 18.3 ± 5% (WT) and 57.1 ± 11% (V307L, P < 0.05) and IKs tail by 3.3 ± 1% (WT) and 45.1 ± 13 % (V307L, P < 0.05), indicating an increased sensitivity to metoprolol in SQT mutated channels.
CONCLUSIONS
N588K-KCNH2 and V307L-KCNQ1 mutations decrease carvedilol's inhibition of the IKs or IKr tail but increase carvedilol's IKr end-pulse inhibition and metoprolol's inhibition of tail and end-pulse currents. These different effects on SQT1 and SQT2 mutated channels should be considered when using β-blocker therapy in SQTS patients.
背景
N588K-KCNH2和V307L-KCNQ1突变导致IKr和IKs功能增强,从而引起短QT综合征(SQT1、SQT2)。联合使用钾通道阻滞剂和β受体阻滞剂进行药物治疗对短QT综合征有效。由于β受体阻滞剂可阻断IKr和IKs,我们旨在确定卡维地洛和美托洛尔对N588K-KCNH2和V307L-KCNQ1通道的电生理作用。
方法
野生型(WT)-KCNH2、WT-KCNQ1以及突变型N588K-KCNH2和V307L-KCNQ1通道在CHO-K1或HEK-293T细胞中表达,并在基线和β受体阻滞剂作用期间记录IKs和IKr。
结果
卡维地洛(10 μM)使WT-KCNQ1和V307L-KCNQ1中的IKs尾电流分别降低36.5±5%和18.6±9%(P<0.05)。IC50值分别为16.3 μM(WT)和46.1 μM(V307L),表明卡维地洛对V307L-KCNQ1中IKs的阻断效力降低了2.8倍。卡维地洛(1 μM)对IKr尾电流的抑制在N588K-KCNH2中减弱(4.5±3%对50.3±4%,WT,P<0.001),IC50值分别为2.8 μM(WT)和25.4 μM(N588K)。然而,卡维地洛对IKr终末脉冲的抑制在N588K-KCNH2中增强(10 μM时,60.7±6%对36.5±5%,WT,P<0.01)。美托洛尔(100 μM)使WT中的IKr终末脉冲降低0.23±3%,N588K中降低74.1±7%(P<0.05);使WT中的IKr尾电流降低32.9±10%,N588K中降低68.8±7%(P<0.05);使WT中的IKs终末脉冲降低18.3±5%,V307L中降低57.1±11%(P<0.05);使WT中的IKs尾电流降低3.3±1%,V307L中降低45.1±13%(P<0.05),表明短QT综合征突变通道对美托洛尔的敏感性增加。
结论
N588K-KCNH2和V307L-KCNQ1突变降低了卡维地洛对IKs或IKr尾电流的抑制,但增强了卡维地洛对IKr终末脉冲的抑制以及美托洛尔对尾电流和终末脉冲电流的抑制。在短QT综合征患者中使用β受体阻滞剂治疗时,应考虑这些对SQT1和SQT2突变通道的不同影响。
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