ATP敏感性钾通道的孔形成亚基Kir6.2的基因破坏易引发儿茶酚胺诱导的室性心律失常。

Genetic disruption of Kir6.2, the pore-forming subunit of ATP-sensitive K+ channel, predisposes to catecholamine-induced ventricular dysrhythmia.

作者信息

Liu Xiao-Ke, Yamada Satsuki, Kane Garvan C, Alekseev Alexey E, Hodgson Denice M, O'Cochlain Fearghas, Jahangir Arshad, Miki Takashi, Seino Susumu, Terzic Andre

机构信息

Division of Cardiovascular Diseases, Department of Medicine, Mayo Clinic, Rochester, MN 55905, USA.

出版信息

Diabetes. 2004 Dec;53 Suppl 3:S165-8. doi: 10.2337/diabetes.53.suppl_3.s165.

DOI:10.2337/diabetes.53.suppl_3.s165

PMID:15561906

Abstract

Metabolic-sensing ATP-sensitive K+ channels (KATP channels) adjust membrane excitability to match cellular energetic demand. In the heart, KATP channel activity has been linked to homeostatic shortening of the action potential under stress, yet the requirement of channel function in securing cardiac electrical stability is only partially understood. Here, upon catecholamine challenge, disruption of KATP channels, by genetic deletion of the pore-forming Kir6.2 subunit, produced defective cardiac action potential shortening, predisposing the myocardium to early afterdepolarizations. This deficit in repolarization reserve, demonstrated in Kir6.2-knockout hearts, translated into a high risk for induction of triggered activity and ventricular dysrhythmia. Thus, intact KATP channel function is mandatory for adequate repolarization under sympathetic stress providing electrical tolerance against triggered arrhythmia.

摘要

代谢感应性ATP敏感性钾通道（KATP通道）可调节膜兴奋性，以匹配细胞的能量需求。在心脏中，KATP通道活性与应激状态下动作电位的稳态缩短有关，但对于该通道功能在确保心脏电稳定性方面的必要性，目前仅得到部分理解。在此，在儿茶酚胺刺激下，通过基因敲除形成孔道的Kir6.2亚基来破坏KATP通道，导致心脏动作电位缩短出现缺陷，使心肌易于发生早期后去极化。在Kir6.2基因敲除心脏中表现出的这种复极储备不足，转化为诱发触发活动和室性心律失常的高风险。因此，完整的KATP通道功能对于交感神经应激下的充分复极是必需的，可为触发心律失常提供电耐受性。

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ATP敏感性钾通道的孔形成亚基Kir6.2的基因破坏易引发儿茶酚胺诱导的室性心律失常。

Genetic disruption of Kir6.2, the pore-forming subunit of ATP-sensitive K+ channel, predisposes to catecholamine-induced ventricular dysrhythmia.

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