Van Driessche W
J Physiol. 1984 Nov;356:79-95. doi: 10.1113/jphysiol.1984.sp015454.
The K+ permeability of the apical membrane of frog skin (Rana temporaria) was analysed by recording the short-circuit current and its fluctuations in the presence of a mucosa-to-serosa-oriented K+ concentration gradient. Loading of the animals with KCl resulted in an augmentation of the Ba2+-blockade component of the short-circuit current and the plateau value of the K+-dependent relaxation noise. Poisoning of active transport and exposing both sides of the epithelium to KCl Ringer solution caused an increase of the K+ current and its fluctuations recorded after restoring the inward-oriented K+ gradient. Serosal quinidine (5 X 10(-4) M), which is thought to increase intracellular Ca2+ activity, depressed the K+ current and the relaxation noise. This effect was completely reversible. Removal of Na+ from the serosal solution, which is known to result in an elevation of intracellular Ca2+ by abolishing the driving force for the Na+/Ca2+ exchanger, also reduced the K+ current and the Lorentzian plateau. Both parameters returned to their control values after restoring the Na+ gradient across the basolateral membranes. It is concluded from these experiments that the apical K+ permeability is controlled by factors which depend on the intracellular K+ and Ca2+ concentration and that the apical K+ channels may constitute a pathway for K+ secretion.
通过记录短路电流及其在存在黏膜到浆膜方向的钾离子浓度梯度时的波动,分析了蛙皮(林蛙)顶端膜的钾离子通透性。给动物注射氯化钾导致短路电流的钡离子阻断成分增加以及钾离子依赖性弛豫噪声的平台值增加。抑制主动转运并使上皮细胞两侧暴露于氯化钾林格氏液中,在恢复内向的钾离子梯度后,记录到的钾离子电流及其波动增加。浆膜侧的奎尼丁(5×10⁻⁴ M)被认为会增加细胞内钙离子活性,降低了钾离子电流和弛豫噪声。这种效应是完全可逆的。从浆膜溶液中去除钠离子,已知这会通过消除钠钙交换体的驱动力导致细胞内钙离子升高,也降低了钾离子电流和洛伦兹平台。在恢复跨基底外侧膜的钠离子梯度后,这两个参数都恢复到对照值。从这些实验得出的结论是,顶端钾离子通透性受依赖于细胞内钾离子和钙离子浓度的因素控制,并且顶端钾离子通道可能构成钾离子分泌的途径。