Hill J H, Cortas N, Walser M
J Clin Invest. 1973 Jan;52(1):185-9. doi: 10.1172/JCI107163.
Urinary hemibladders obtained from toads soaked in water or saline were treated with aldosterone, 10(-6) M, either 1(1/2) or 16 h after mounting. After 2(1/2) h exposure to the hormone, short-circuit current was increased by 110-192% and open-circuit potential by 20-44% as compared with untreated paired hemibladders. Mucosal cells were then assayed for sodium-potassium-stimulated adenosine triphosphatase (ATPase). No increase occurred in activity per milligram protein or in the portion of total activity dependent on sodium. Activity at low sodium concentrations was also measured and analyzed by means of the Hill equation in terms of K, the apparent dissociation constant of the enzyme-sodium complex, and n, a number that expresses the degree of interaction between binding sites. Neither K nor n was significantly altered by aldosterone. A few experiments were also carried out at low ATP concentrations (0.3 mM); again no change in sodium-dependent activity was noted. The results indicate that aldosterone does not stimulate sodium transport by increasing the quantity of sodium-potassium adenosine triphosphatase in mucosal cells or the dependence of this activity on sodium or ATP concentrations.
将浸泡在水或盐水中的蟾蜍的膀胱取出,在安装后1.5小时或16小时用10(-6)M醛固酮处理。与未经处理的配对膀胱相比,在暴露于该激素2.5小时后,短路电流增加了110 - 192%,开路电位增加了20 - 44%。然后测定黏膜细胞中钠钾刺激的三磷酸腺苷酶(ATP酶)。每毫克蛋白质的活性或依赖于钠的总活性部分均未增加。还在低钠浓度下测量了活性,并通过希尔方程分析了酶 - 钠复合物的表观解离常数K和表示结合位点之间相互作用程度的数字n。醛固酮对K和n均无显著改变。还在低ATP浓度(0.3 mM)下进行了一些实验;同样未观察到钠依赖性活性的变化。结果表明,醛固酮不会通过增加黏膜细胞中钠钾三磷酸腺苷酶的量或该活性对钠或ATP浓度的依赖性来刺激钠转运。