Mayorga-Wark O, Dubinsky W P, Schultz S G
Department of Integrative Biology, University of Texas Medical School at Houston 77225, USA.
Am J Physiol. 1995 Aug;269(2 Pt 1):C464-71. doi: 10.1152/ajpcell.1995.269.2.C464.
We have previously reported that basolateral membrane vesicles isolated from Necturus maculosa small intestinal epithelial cells and incorporated into planar phospholipid bilayers display a highly selective "maxi"-conductance K+ channel whose open-time probability is affected by voltage. We now report that this channel is inhibited by MgATP in the solution bathing the intracellular face of the channel but not by Mg2+ or the Na+ or K+ salts of ATP; the effects of MgATP can be prevented or reversed by MgADP. The channel is also inhibited by the nonhydrolyzable ATP analogue magnesium adenosine 5'-O-(3-thiotriphosphate) and the sulfonylurea derivatives tolbutamide and glibenclamide; all of these agents are effective in the intracellular compartment but not when added to the extracellular compartment alone. Channel activity is stimulated by the "K+ channel opener," diazoxide, which also reverses the effect of glibenclamide but not of MgATP. The possible role of this channel as a mediator of the parallelism between basolateral membrane Na(+)-K+ pump activity and the macroscopic K+ conductance of that barrier is discussed.
我们之前报道过,从黄斑钝口螈小肠上皮细胞分离并整合到平面磷脂双分子层中的基底外侧膜囊泡表现出一种高度选择性的“大电导”钾通道,其开放时间概率受电压影响。我们现在报道,该通道在灌流通道胞内面的溶液中受到MgATP的抑制,但不受Mg2+或ATP的钠盐或钾盐的抑制;MgADP可预防或逆转MgATP的作用。该通道也受到不可水解的ATP类似物腺苷5'-O-(3-硫代三磷酸)镁以及磺脲类衍生物甲苯磺丁脲和格列本脲的抑制;所有这些药物在胞内区室有效,但单独添加到胞外区室时无效。通道活性受到“钾通道开放剂”二氮嗪的刺激,二氮嗪也可逆转格列本脲的作用,但不能逆转MgATP的作用。本文讨论了该通道作为基底外侧膜钠钾泵活性与该屏障宏观钾电导之间平行关系的介质的可能作用。
