Granitzer M, Nagel W
Physiologisches Institut, Universität München, Federal Republic of Germany.
Pflugers Arch. 1990 Oct;417(2):207-12. doi: 10.1007/BF00370701.
The effect of Ba2+ on basolateral membrane conductance (gi) in isolated frog skins was analysed. Response patterns were different in tissues with high and low spontaneous intracellular potential. At high (negative) potentials, serosal Ba2+ inhibited gi as is expected of a potent K+ channel blocker, whereas in tissues with low potential, gi remained unchanged or even increased after Ba2+. The direction of change in gi was also dependent on the magnitude of gi under control conditions. Decrease of gi was only observed at high gi in the control period. In contrast, gi increased if control values of gi were below 0.5 mS/cm2. In tissues with spontaneously low intracellular potential, an inhibitory effect of Ba2+ on gi could be induced by hyperpolarization of the basolateral membrane with transepithelial voltage perturbation. Under these conditions, voltage-dependent, inward rectifying K+ channels are activated, which are Ba2(+)-sensitive. Furthermore, hyperpolarization of the basolateral membrane potential (Vi) during Ba2+ rapidly decreased gi. These results suggest that Ba2+, in addition to blocking K+ channels, activates (presumably unspecific) basolateral membrane channels. This dual effect, which is obvious in tissues with low spontaneous gi, might similarly exist in tissues with high control gi. Identification, however, is virtually impossible due to the large decrease in potassium conductance.
分析了Ba2+对离体蛙皮基底外侧膜电导(gi)的影响。在细胞内自发电位高低不同的组织中,反应模式有所不同。在高(负)电位时,浆膜Ba2+抑制gi,这正如强效钾通道阻滞剂所预期的那样,而在低电位组织中,Ba2+作用后gi保持不变甚至增加。gi的变化方向还取决于对照条件下gi的大小。仅在对照期gi较高时才观察到gi降低。相反,如果gi的对照值低于0.5 mS/cm2,则gi会增加。在细胞内自发电位较低的组织中,通过跨上皮电压扰动使基底外侧膜超极化,可诱导Ba2+对gi产生抑制作用。在这些条件下,电压依赖性内向整流钾通道被激活,这些通道对Ba2+敏感。此外,在Ba2+存在期间基底外侧膜电位(Vi)的超极化迅速降低了gi。这些结果表明,Ba2+除了阻断钾通道外,还激活(可能是非特异性的)基底外侧膜通道。这种双重效应在自发gi较低的组织中很明显,在对照gi较高的组织中可能同样存在。然而,由于钾电导大幅降低,实际上无法识别这种双重效应。
