蛙皮上皮细胞的表面电位与钠内流
Surface potentials and sodium entry in frog skin epithelium.
作者信息
Benos D, Latorre R, Reyes J
出版信息
J Physiol. 1981 Dec;321:163-74. doi: 10.1113/jphysiol.1981.sp013977.
Abstract
- The effects which alterations in the surface potential of the apical membrane of isolated Rana catesbeiana skin have on Na entry were examined. 2. Changes in the external ionic strength have little effect upon the rate of Na transport across the frog skin epithelium. 3. Uranyl ion (UO2(2+), 2.5 mM) induces a +145 mV change in the surface potential of phosphatidylserine monolayers, and a +60mV change in the surface potential of monolayers made from phosphatidylcholine. 4. UO2(2+) inhibits the short-circuit current (Isc) by a maximum of 20% in R. catesbeiana skin, while stimulating Isc by 40% in R. temporaria skin. Neither Isc stimulation nor inhibition by UO2(2+) can be seen in the presence of 10(-4) M-amiloride. 5. From points 1 and 2 above, we conclude that the surface charge density in the neighbourhood of the Na-selective entry site located in the apical membrane is small (greater than 1e-/600 A2). The results obtained using UO2(2+) suggest that Na entry is not affected by changes in the membrane surface potential.
摘要
- 研究了分离的牛蛙皮肤顶端膜表面电位变化对钠进入的影响。2. 外部离子强度的变化对蛙皮上皮细胞钠转运速率影响很小。3. 铀酰离子(UO2(2+),2.5 mM)使磷脂酰丝氨酸单层膜的表面电位变化 +145 mV,使由磷脂酰胆碱制成的单层膜的表面电位变化 +60 mV。4. UO2(2+) 在牛蛙皮肤中最多可使短路电流(Isc)抑制20%,而在欧洲林蛙皮肤中使Isc 刺激增加40%。在存在10(-4) M氨氯吡脒的情况下,看不到UO2(2+) 对Isc 的刺激或抑制作用。5. 根据上述第1点和第2点,我们得出结论,位于顶端膜的钠选择性进入位点附近的表面电荷密度很小(大于1e-/600 A2)。使用UO2(2+) 获得的结果表明,钠进入不受膜表面电位变化的影响。
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