Reyes R, Duprat F, Lesage F, Fink M, Salinas M, Farman N, Lazdunski M
Institut de Pharmacologie Moléculaire et Cellulaire, CNRS-UPR 411, 660 route des Lucioles, Sophia Antipolis, 06560 Valbonne, France.
J Biol Chem. 1998 Nov 20;273(47):30863-9. doi: 10.1074/jbc.273.47.30863.
A complementary DNA encoding a novel K+ channel, called TASK-2, was isolated from human kidney and its gene was mapped to chromosome 6p21. TASK-2 has a low sequence similarity to other two pore domain K+ channels, such as TWIK-1, TREK-1, TASK-1, and TRAAK (18-22% of amino acid identity), but a similar topology consisting of four potential membrane-spanning domains. In transfected cells, TASK-2 produces noninactivating, outwardly rectifying K+ currents with activation potential thresholds that closely follow the K+ equilibrium potential. As for the related TASK-1 and TRAAK channels, the outward rectification is lost at high external K+ concentration. The conductance of TASK-2 was estimated to be 14.5 picosiemens in physiological conditions and 59.9 picosiemens in symmetrical conditions with 155 mM K+. TASK-2 currents are blocked by quinine (IC50 = 22 microM) and quinidine (65% of inhibition at 100 microM) but not by the other classical K+ channel blockers tetraethylammonium, 4-aminopyridine, and Cs+. They are only slightly sensitive to Ba2+, with less than 17% of inhibition at 1 mM. As TASK-1, TASK-2 is highly sensitive to external pH in the physiological range. 10% of the maximum current was recorded at pH 6. 5 and 90% at pH 8.8. Unlike all other cloned channels with two pore-forming domains, TASK-2 is essentially absent in the brain. In human and mouse, TASK-2 is mainly expressed in the kidney, where in situ hybridization shows that it is localized in cortical distal tubules and collecting ducts. This localization, as well as its functional properties, suggest that TASK-2 could play an important role in renal K+ transport.
从人肾中分离出一种编码新型钾通道(称为TASK - 2)的互补DNA,并将其基因定位于6号染色体p21区域。TASK - 2与其他双孔结构域钾通道(如TWIK - 1、TREK - 1、TASK - 1和TRAAK)的序列相似性较低(氨基酸同一性为18 - 22%),但其拓扑结构相似,由四个潜在的跨膜结构域组成。在转染细胞中,TASK - 2产生非失活的外向整流钾电流,其激活电位阈值紧密跟随钾平衡电位。与相关的TASK - 1和TRAAK通道一样,在高细胞外钾浓度下外向整流消失。在生理条件下,TASK - 2的电导估计为14.5皮西门子,在155 mM钾的对称条件下为59.9皮西门子。TASK - 2电流被奎宁(IC50 = 22 microM)和奎尼丁(100 microM时抑制65%)阻断,但不被其他经典的钾通道阻滞剂四乙铵、4 - 氨基吡啶和铯离子阻断。它们对钡离子仅稍有敏感性,在1 mM时抑制率小于17%。与TASK - 1一样,TASK - 2在生理范围内对细胞外pH高度敏感。在pH 6.5时记录到最大电流的10%,在pH 8.8时记录到90%。与所有其他具有两个孔形成结构域的克隆通道不同,TASK - 2在脑中基本不存在。在人和小鼠中,TASK - 2主要在肾中表达,原位杂交显示其定位于皮质远端小管和集合管。这种定位及其功能特性表明,TASK - 2可能在肾脏钾转运中起重要作用。
