Tsuboi Takashi, Lippiat Jonathan D, Ashcroft Frances M, Rutter Guy A
Department of Biochemistry, School of Medical Sciences, University of Bristol, University Walk, Bristol BS8 1TD, United Kingdom.
Proc Natl Acad Sci U S A. 2004 Jan 6;101(1):76-81. doi: 10.1073/pnas.0306347101. Epub 2003 Dec 17.
ATP-sensitive K(+) (K(ATP)) channels play important roles in the regulation of membrane excitability in many cell types. ATP inhibits channel activity by binding to a specific site formed by the N and C termini of the pore-forming subunit, Kir6.2, but the structural changes associated with this interaction remain unclear. Here, we use fluorescence resonance energy transfer (FRET) to study the ATP-dependent interaction between the N and C termini of Kir6.2 using a construct bearing fused cyan and yellow fluorescent proteins (ECFP-Kir6.2-EYFP). When expressed in human embryonic kidney cells, ECFP-Kir6.2-EYFP/SUR1 channels displayed FRET that was augmented by agonist stimulation and diminished by metabolic poisoning. Addition of ATP to permeabilized cells or isolated plasma membrane sheets increased FRET. FRET changes were abolished by Kir6.2 mutations that altered ATP-dependent channel closure and channel gating. In the wild-type channel, the ATP concentrations, which increased FRET (EC(50) = 1.36 mM), were significantly higher than those causing channel inhibition (IC(50) = 0.29 mM). Demonstrating the existence of intermolecular interactions, a dimeric construct comprising two molecules of Kir6.2 linked head-to-tail (ECFP-Kir6.2-Kir6.2-EYFP) displayed less FRET than the monomer in the absence of nucleotide but still exhibited ATP-dependent FRET increases (EC(50) = 1.52 mM) and channel inhibition. We conclude that binding of ATP to Kir6.2, (i). alters the interaction between the N- and C-terminal domains, (ii). probably involves both intrasubunit and intersubunit interactions, (iii). reflects ligand binding not channel gating, and (iv). occurs in intact cells when subplasmalemmal [ATP] changes in the millimolar range.
ATP敏感性钾通道(K(ATP)通道)在多种细胞类型的膜兴奋性调节中发挥重要作用。ATP通过与由孔形成亚基Kir6.2的N端和C端形成的特定位点结合来抑制通道活性,但与这种相互作用相关的结构变化仍不清楚。在这里,我们使用荧光共振能量转移(FRET),通过带有融合青色和黄色荧光蛋白的构建体(ECFP-Kir6.2-EYFP)来研究Kir6.2的N端和C端之间的ATP依赖性相互作用。当在人胚肾细胞中表达时,ECFP-Kir6.2-EYFP/SUR1通道显示出FRET,其通过激动剂刺激而增强,并因代谢中毒而减弱。向透化细胞或分离的质膜片中添加ATP会增加FRET。Kir6.2突变改变了ATP依赖性通道关闭和通道门控,从而消除了FRET变化。在野生型通道中,增加FRET的ATP浓度(EC(50)=1.36 mM)显著高于引起通道抑制的浓度(IC(50)=0.29 mM)。为了证明分子间相互作用的存在,一种由两个Kir6.2分子头尾相连组成的二聚体构建体(ECFP-Kir6.2-Kir6.2-EYFP)在无核苷酸时显示出比单体更少的FRET,但仍表现出ATP依赖性FRET增加(EC(50)=1.52 mM)和通道抑制。我们得出结论,ATP与Kir6.2的结合,(i).改变了N端和C端结构域之间的相互作用,(ii).可能涉及亚基内和亚基间相互作用,(iii).反映配体结合而非通道门控,并且(iv).当胞膜下[ATP]在毫摩尔范围内变化时在完整细胞中发生。