蛙皮中的细胞内离子活性。

Intracellular ionic activities in frog skin.

作者信息

Nagel W, Garcia-Diaz J F, Armstrong W M

出版信息

J Membr Biol. 1981;61(2):127-34. doi: 10.1007/BF02007639.

DOI:10.1007/BF02007639

Abstract

Intracellular Na+, K+, and Cl- activities (aiNa, aiK, aiCl) and transapical membrane potentials (V0) were measured with liquid ion-exchanger and open-tip microelectrodes in isolated short-circuited frog skins (R. pipiens) incubated at 23 degrees C in normal amphibian Ringer's solution. Under control conditions aiNa = 14 +/- 3 mM, aiK = 132 +/- 10 mM and aiCl = 18 +/- 3 mM (SD). The value of aiCl is 4.4 times the value corresponding to electrochemical equilibrium for this ion. Thus, Cl- is actively accumulated by epithelial cells of the frog skin. Shortly after addition of amiloride (2--5 microM) to the apical bathing medium, aiK, aiNa, and aiCl were essentially unchanged although V0 had hyperpolarized by about 30--40 mV. During long-term exposure to amiloride aiK and aiCl did not change significantly, V0 depolarized by about 16 mV from the maximal value and aiNa decreased to 8 +/- 3 mM. Immediately after exposure to amiloride the transmembrane driving force for Na+ increased from 124 to 154 mV. During further exposure to amiloride, despite changes in both V0 and aiNa, this driving force remained virtually constant. Since Isc during this period was close to zero, it is suggested that the observed driving force for Na+ under these condition approximates the maximal driving force generated by the Na+--K+ ATP-ase pump in the basolateral cell membrane.

摘要

在23摄氏度下于正常两栖类任氏液中孵育的离体短路青蛙皮肤（豹蛙）中，使用液体离子交换器和开口尖端微电极测量细胞内的Na⁺、K⁺和Cl⁻活性（aiNa、aiK、aiCl）以及跨顶端膜电位（V0）。在对照条件下，aiNa = 14 ± 3 mM，aiK = 132 ± 10 mM，aiCl = 18 ± 3 mM（标准差）。aiCl的值是该离子电化学平衡对应值的4.4倍。因此，Cl⁻被青蛙皮肤上皮细胞主动积累。在顶端浴液中加入氨氯吡脒（2 - 5 μM）后不久，aiK、aiNa和aiCl基本未变，尽管V0超极化了约30 - 40 mV。在长期暴露于氨氯吡脒期间，aiK和aiCl没有显著变化，V0从最大值去极化了约16 mV，aiNa降至8 ± 3 mM。暴露于氨氯吡脒后立即，Na⁺的跨膜驱动力从124 mV增加到154 mV。在进一步暴露于氨氯吡脒期间，尽管V0和aiNa都发生了变化，但该驱动力实际上保持恒定。由于在此期间短路电流（Isc）接近零，表明在这些条件下观察到的Na⁺驱动力接近基底外侧细胞膜中Na⁺ - K⁺ ATP酶泵产生的最大驱动力。

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蛙皮中的细胞内离子活性。

Intracellular ionic activities in frog skin.

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