Yokoshiki H, Sunagawa M, Seki T, Sperelakis N
Department of Molecular Physiology, College of Medicine, University of Cincinnati, Ohio 45267-0576, USA.
Am J Physiol. 1998 Jan;274(1):C25-37. doi: 10.1152/ajpcell.1998.274.1.C25.
ATP-sensitive K+ (KATP) channels are therapeutic targets for several diseases, including angina, hypertension, and diabetes. This is because stimulation of KATP channels is thought to produce vasorelaxation and myocardial protection against ischemia, whereas inhibition facilitates insulin secretion. It is well known that native KATP channels are inhibited by ATP and sulfonylurea (SU) compounds and stimulated by nucleotide diphosphates and K+ channel-opening drugs (KCOs). Although these characteristics can be shared with KATP channels in different tissues, differences in properties among pancreatic, cardiac, and vascular smooth muscle (VSM) cells do exist in terms of the actions produced by such regulators. Recent molecular biology and electrophysiological studies have provided useful information toward the better understanding of KATP channels. For example, native KATP channels appear to be a complex of a regulatory protein containing the SU-binding site [sulfonylurea receptor (SUR)] and an inward-rectifying K+ channel (Kir) serving as a pore-forming subunit. Three isoforms of SUR (SUR1, SUR2A, and SUR2B) have been cloned and found to have two nucleotide-binding folds (NBFs). It seems that these NBFs play an essential role in conferring the MgADP and KCO sensitivity to the channel, whereas the Kir channel subunit itself possesses the ATP-sensing mechanism as an intrinsic property. The molecular structure of KATP channels is thought to be a heteromultimeric (tetrameric) assembly of these complexes: Kir6.2 with SUR1 (SUR1/Kir6.2, pancreatic type), Kir6.2 with SUR2A (SUR2A/ Kir6.2, cardiac type), and Kir6.1 with SUR2B (SUR2B/Kir6.1, VSM type) [i.e., (SUR/Kir6.x)4]. It remains to be determined what are the molecular connections between the SUR and Kir subunits that enable this unique complex to work as a functional KATP channel.
ATP敏感性钾离子(KATP)通道是包括心绞痛、高血压和糖尿病在内的多种疾病的治疗靶点。这是因为人们认为刺激KATP通道可产生血管舒张作用并对心肌起到抗缺血保护作用,而抑制该通道则有助于胰岛素分泌。众所周知,天然KATP通道受ATP和磺脲类(SU)化合物抑制,受二磷酸核苷酸和钾离子通道开放剂(KCOs)刺激。尽管不同组织中的KATP通道可能具有这些共同特性,但在胰腺、心脏和血管平滑肌(VSM)细胞中,这些调节剂所产生的作用在特性方面确实存在差异。最近的分子生物学和电生理学研究为更好地理解KATP通道提供了有用信息。例如,天然KATP通道似乎是一种复合物,由含有SU结合位点的调节蛋白[磺脲类受体(SUR)]和作为孔形成亚基的内向整流钾离子通道(Kir)组成。已克隆出SUR的三种同工型(SUR1、SUR2A和SUR2B),并发现它们具有两个核苷酸结合结构域(NBFs)。似乎这些NBFs在赋予通道对MgADP和KCO的敏感性方面起着至关重要的作用,而Kir通道亚基本身具有作为固有特性的ATP传感机制。KATP通道的分子结构被认为是这些复合物的异源多聚体(四聚体)组装:Kir6.2与SUR1(SUR1/Kir6.2,胰腺型)、Kir6.2与SUR2A(SUR2A/Kir6.2,心脏型)以及Kir6.1与SUR2B(SUR2B/Kir6.1,VSM型)[即(SUR/Kir6.x)4]。SUR和Kir亚基之间的分子连接是什么,使得这种独特的复合物能够作为功能性KATP通道发挥作用,这还有待确定。
