细胞体积变化对牛蛙皮肤（泽蛙）膜离子通透性和钠转运的影响。

Effects of cell volume changes on membrane ionic permeabilities and sodium transport in frog skin (Rana ridibunda).

作者信息

Costa P M, Fernandes P L, Ferreira H G, Ferreira K T, Giraldez F

机构信息

Laboratorio de Fisiologia, Instituto Gulbenkian de Ciencia, Oeiras, Portugal.

出版信息

J Physiol. 1987 Dec;393:1-17. doi: 10.1113/jphysiol.1987.sp016806.

DOI:10.1113/jphysiol.1987.sp016806

PMID:2451735

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1192376/

Abstract

Membrane potential and conductances and short-circuit current were continuously measured with microelectrodes and conventional electrophysiological techniques in a stripped preparation of frog skin epithelium. The effects of the removal of chloride or sodium ions and the concentration or dilution of the serosal (inner) bathing solution were studied. 2. Chloride- or sodium-free solutions produced a cell depolarization of about 30 mV in parallel with a fall in the short-circuit current. Mucosal and serosal membrane conductances both decreased and the sodium permeability of the mucosal barrier was calculated to fall to about one-half its value in standard Ringer solution. The observed decrease in the short-circuit current is probably related to the combined effect of the decrease in sodium permeability and the decrease in the driving force across the mucosal membrane. 3. The removal of chloride or sodium ions reduced the depolarization caused by serosal perfusion with high-potassium solutions (50 mM-KCl). The ratio of the change in cell membrane potential under short-circuit conditions to the change in the potassium equilibrium potential (delta Ec(s.c.)/delta EK), was 0.59 in standard Ringer solution and 0.26 and 0.24 after the removal of chloride or sodium respectively. The depolarizing effect of barium-containing solutions (2 mM-BaCl2) was also markedly reduced in chloride- or sodium-free solutions, suggesting a decrease of the potassium selectivity of the serosal membrane in these conditions. 4. Increasing the osmolality of the serosal bathing solution produced similar effects, i.e. cell depolarization, fall in the short-circuit current and membrane conductances and reduction of the depolarizing effect of high-potassium and barium solutions. On the contrary, dilution of the serosal bath produced the opposite effects, consistent with an increase in the serosal permeability to potassium. 5. The effects of chloride- or sodium-free solutions were reversed by the dilution of the serosal bath. Cells repolarized when exposed to low-osmolality solutions after being in the absence of serosal chloride or sodium. The repolarization ran in parallel with the restoration of the short-circuit current and the potassium selectivity of the serosal membrane. 6. The results show that the effects produced by the removal of sodium or chloride ions from the serosal bathing solution are most probably mediated by a reduction in cell volume. Cell volume changes would lead to changes in the serosal membrane selectivity to potassium and thus to changes in cell membrane potential and sodium transport.(ABSTRACT TRUNCATED AT 400 WORDS)

摘要

在蛙皮上皮剥脱制剂中，采用微电极和传统电生理技术连续测量膜电位、电导和短路电流。研究了去除氯离子或钠离子以及改变浆膜（内侧）浴液浓度或稀释度的影响。2. 无氯或无钠溶液使细胞去极化约30 mV，同时短路电流下降。黏膜和浆膜的电导均降低，黏膜屏障的钠通透性经计算降至标准林格液中其值的约二分之一。观察到的短路电流下降可能与钠通透性降低和跨黏膜膜驱动力降低的综合作用有关。3. 去除氯离子或钠离子可降低高钾溶液（50 mM - KCl）浆膜灌注引起的去极化。在短路条件下，细胞膜电位变化与钾平衡电位变化的比值（δEc(s.c.)/δEK），在标准林格液中为0.59，去除氯离子或钠离子后分别为0.26和0.24。含钡溶液（2 mM - BaCl2）的去极化作用在无氯或无钠溶液中也明显降低，表明在这些条件下浆膜对钾的选择性降低。4. 增加浆膜浴液的渗透压产生类似的效果，即细胞去极化、短路电流和膜电导下降以及高钾和钡溶液去极化作用减弱。相反，稀释浆膜浴产生相反的效果，这与浆膜对钾的通透性增加一致。5. 无氯或无钠溶液的作用可通过稀释浆膜浴来逆转。在无浆膜氯或钠的情况下，细胞暴露于低渗溶液时会复极化。复极化与短路电流的恢复以及浆膜对钾的选择性恢复同时发生。6. 结果表明，从浆膜浴液中去除钠离子或氯离子所产生的作用很可能是由细胞体积减小介导的。细胞体积变化会导致浆膜对钾的选择性改变，从而导致细胞膜电位和钠转运的改变。（摘要截断于400字）