Decher N, Uyguner O, Scherer C R, Karaman B, Yüksel-Apak M, Busch A E, Steinmeyer K, Wollnik B
Aventis Pharma Deutschland GmbH, DG Cardiovascular Diseases, D-65926, Frankfurt am Main, Germany.
Cardiovasc Res. 2001 Nov;52(2):255-64. doi: 10.1016/s0008-6363(01)00374-1.
The Ca(2+) independent transient outward K(+) current (I(to1)) in the heart is responsible for the initial phase of repolarization. The hKv4.3 K(+) channel alpha-subunit contributes to the I(to1) current in many regions of the human heart. Consistently, downregulation of hKv4.3 transcripts in heart failure and atrial fibrillation is linked to reduction in I(to1) conductance. The recently cloned KChIP family of calcium sensors has been shown to modulate A-type potassium channels of the Kv4 K(+) channel subfamily.
We describe the cloning and tissue distribution of hKChIP2, as well as its functional interaction with hKv4.3 after expression in Xenopus oocytes. Furthermore, we isolated a short splice variant of the hKChIP2 gene (hKCNIP2), which represents the major hKChIP2 transcript. Northern blot analyses revealed that hKChIP2 is expressed in the human heart and occurs in the adult atria and ventricles but not in the fetal heart. Upon coexpression with hKv4.3 both hKChIP2 isoforms increased the current amplitude, slowed the inactivation and increased the recovery from inactivation of hKv4.3 currents. For the first time we analyzed the influence of a KChIP protein on the voltage of half-maximal inactivation of Kv4 channels. We demonstrate that the hKChIP2 isoforms shifted the half-maximal inactivation to more positive potentials, but to a different extent. By elucidating the genomic structure, we provide important information for future analysis of the hKCNIP2 gene in candidate disorders. In the course of this work we mapped the hKCNIP2 gene to chromosome 10q24.
Heteromeric hKv4.3/hKChIP2 currents more closely resemble native epicardial I(to1), suggesting that hKChIP2 is a true beta-subunit of human cardiac I(to1). As a result hKChIP2 might play a role in cardiac diseases, where a contribution of I(to1) has been shown.
心脏中不依赖Ca(2+)的瞬时外向K(+)电流(I(to1))负责复极化的初始阶段。人心脏许多区域的I(to1)电流由hKv4.3 K(+)通道α亚基介导。同样,心力衰竭和心房颤动时hKv4.3转录本的下调与I(to1)电导降低有关。最近克隆的钙传感器KChIP家族已被证明可调节Kv4 K(+)通道亚家族的A型钾通道。
我们描述了hKChIP2的克隆及组织分布,以及其在非洲爪蟾卵母细胞中表达后与hKv4.3的功能相互作用。此外,我们分离出hKChIP2基因的一个短剪接变体(hKCNIP2),它是hKChIP2的主要转录本。Northern印迹分析显示hKChIP2在人心脏中表达,存在于成人的心房和心室,但不存在于胎儿心脏。与hKv4.3共表达时,两种hKChIP2同工型均增加电流幅度,减慢失活速度,并增加hKv4.3电流从失活状态的恢复。我们首次分析了KChIP蛋白对Kv4通道半数最大失活电压的影响。我们证明hKChIP2同工型将半数最大失活电压移向更正电位,但程度不同。通过阐明基因组结构,我们为未来在候选疾病中分析hKCNIP2基因提供了重要信息。在这项工作中,我们将hKCNIP2基因定位于染色体10q24。
异源hKv4.3/hKChIP2电流更接近天然心外膜I(to1),提示hKChIP2是人心脏I(to1)的真正β亚基。因此,hKChIP2可能在已证明有I(to1)参与的心脏疾病中起作用。
