Ribalet B, Beigelman P M
Am J Physiol. 1980 Sep;239(3):C124-33. doi: 10.1152/ajpcell.1980.239.3.C124.
Ionic control mechanisms of mouse pancreatic beta-cell action potentials ("spikes"), in response to glucose, were studied by measuring membrane potentials with intracellular microelectrodes. The curve relating the peaks of the spikes to the log of the external calcium concentration above 10 mM has a slope of 25 mV/10-fold increase of Ca2+. This approaches the value predicted by the Nernst equation for a pure Ca2+ electrode. Increasing the external [Ca2+]o from 0 to 42.5 mM caused an increase in rates of spike depolarization and repolarization. Lowering [Ca2+]o or applying Ca2+ conductance blockers, including Co2+ (1.25 mM), Mn2+ (2mM), and D-600 (2 X 10(-4) M), caused a decrease in rates of spikes depolarization and repolarization, with an increase of [Ca2+]o reversing this effect. Higher concentrations of these Ca2+-conductance blockers eliminated the spike activity. Quinidine at a high concentration (10(-3) M) blocked spike repolarization. Tetraethylammonium (TEA, 25 mM) increased spike amplitude and duration. Therefore, it is concluded that Ca2+ entry during the spike affects potassium permeability, which is inhibited by TEA. Also, there is a competitive binding between Co2+, Mn2+, Mg2+, and Ca2+, the charge carrier. These cations may have an additional action of substituting for Ca2+ to "stabilize" the membrane.
通过使用细胞内微电极测量膜电位,研究了小鼠胰腺β细胞动作电位(“尖峰”)对葡萄糖的离子控制机制。将尖峰峰值与高于10 mM的外部钙浓度的对数相关的曲线,其斜率为Ca2+每增加10倍,斜率变化25 mV。这接近能斯特方程对纯Ca2+电极预测的值。将外部[Ca2+]o从0增加到42.5 mM会导致尖峰去极化和复极化速率增加。降低[Ca2+]o或应用Ca2+电导阻滞剂,包括Co2+(1.25 mM)、Mn2+(2 mM)和D - 600(2×10(-4) M),会导致尖峰去极化和复极化速率降低,而增加[Ca2+]o可逆转这种效应。这些Ca2+电导阻滞剂的更高浓度会消除尖峰活动。高浓度(10(-3) M)的奎尼丁会阻断尖峰复极化。四乙铵(TEA,25 mM)会增加尖峰幅度和持续时间。因此,可以得出结论,尖峰期间Ca2+的进入会影响钾通透性,而TEA会抑制这种通透性。此外,Co2+、Mn2+、Mg2+和电荷载体Ca2+之间存在竞争性结合。这些阳离子可能具有替代Ca2+以“稳定”膜的额外作用。
