van Bever Laurianne, Poitry Serge, Faure Cécile, Norman Robert I, Roatti Angela, Baertschi Alex J
Department of Physiology, Centre Médical Universitarie, Geneva 1204, Switzerland.
Am J Physiol Heart Circ Physiol. 2004 Aug;287(2):H850-9. doi: 10.1152/ajpheart.00054.2004. Epub 2004 Mar 25.
Cardiomyocytes express mRNA for all major subunits of ATP-sensitive potassium (K(ATP)) channels: KIR6.1, KIR6.2, SUR1A, SUR2A, and SUR2B. It has remained controversial as to whether KIR6.1 may associate with KIR6.2 to form the tetrameric pore of K(ATP) channels in cardiomyocytes. To explore this possibility, cultured rat cardiomyocytes were examined for an inhibition of K(ATP) current by overexpression of pore loop-mutated (inactive) KIR6.x. Bicistronic plasmids were constructed encoding loop-mutated (AFA or SFG for GFG) rat KIR6.x followed by EGFP. In ventricular myocytes, the overexpression of KIR6.1SFG-pIRES(2)-EGFP or KIR6.2AFA-pIRES(2)-EGFP DNA caused, after 72 h, a major decrease of K(ATP) current density of 85.8% and 82.7%, respectively (P < 0.01), relative to EGFP controls (59 +/- 9 pA/pF). In atrial myocytes, overexpression of these pore-mutated KIR6.x by 6.0-fold and 10.6-fold, as assessed by quantitative immunohistochemistry, caused a decrease of K(ATP) current density of 73.7% and 58.5%, respectively (P < 0.01). Expression of wild-type rat KIR6.2 increased the ventricular and atrial K(ATP) current density by 58.3% and 42.9%, respectively (P < 0.01), relative to corresponding EGFP controls, indicating a reserve of SUR to accommodate increased KIR6.x trafficking to the sarcolemma. The results favor the view that KIR6.1 may associate with KIR6.2 to form heterotetrameric pores of native K(ATP) channels in cardiomyocytes.
心肌细胞表达所有主要亚基的ATP敏感性钾(K(ATP))通道的mRNA:KIR6.1、KIR6.2、SUR1A、SUR2A和SUR2B。关于KIR6.1是否可能与KIR6.2结合形成心肌细胞中K(ATP)通道的四聚体孔,一直存在争议。为了探究这种可能性,通过过表达孔环突变(无活性)的KIR6.x来检测培养的大鼠心肌细胞的K(ATP)电流抑制情况。构建了双顺反子质粒,编码环突变(AFA或SFG替代GFG)的大鼠KIR6.x,随后是EGFP。在心室肌细胞中,KIR6.1SFG-pIRES(2)-EGFP或KIR6.2AFA-pIRES(2)-EGFP DNA的过表达在72小时后分别导致K(ATP)电流密度相对于EGFP对照(59±9 pA/pF)大幅下降85.8%和82.7%(P<0.01)。在心房肌细胞中,通过定量免疫组织化学评估,这些孔突变的KIR6.x过表达6.0倍和10.6倍,分别导致K(ATP)电流密度下降73.7%和58.5%(P<0.01)。相对于相应的EGFP对照,野生型大鼠KIR6.2的表达分别使心室和心房的K(ATP)电流密度增加58.3%和42.9%(P<0.01),表明存在SUR储备以适应增加的KIR6.x向肌膜的转运。结果支持这样的观点,即KIR6.1可能与KIR6.2结合形成心肌细胞中天然K(ATP)通道的异源四聚体孔。
