蛙皮对钠的摄取及其经上皮钠转运抑制剂的调节作用。
Sodium uptake by frog skin and its modification by inhibitors of transepithelial sodium transport.
作者信息
Erlij D, Smith M W
出版信息
J Physiol. 1973 Jan;228(1):221-39. doi: 10.1113/jphysiol.1973.sp010083.
Abstract
- The suitability of inulin and mannitol as markers of the diffusional space that exists between the surface of frog skin and the outer barrier to sodium transport has been compared in experiments designed to measure the rapid uptake of sodium.2. Inulin and mannitol both equilibrate finally with the same space at the outer surface of the frog skin, but the rate at which this equilibration occurs is considerably faster for mannitol.3. The dependence of the rapid uptake of sodium on the concentration of sodium in the external medium, using mannitol to correct for extracellular sodium, can be described by simple saturation kinetics with an apparent K(m) for sodium entry of 24 mM and a maximal rate of uptake of 1.28 muequiv/cm(2). hr.4. The effect of amiloride is to inhibit sodium uptake, the degree of inhibition depending both on the concentration of sodium in the external medium and on the level of transepithelial transport normally maintained by the skin.5. Ouabain inhibits sodium uptake when the tissue has been pre-incubated in sodium containing medium. It has no effect on sodium uptake if the pre-incubation takes place in sodium free medium.6. A short-circuit current and potential difference can be elicited across frog skin in the presence of ouabain, by increasing the concentration of sodium bathing the outside surface. This potential and short-circuit current is abolished by the presence of amiloride.7. These results provide direct evidence that amiloride acts to stop entry of sodium into the transport compartment and suggest that the ouabain inhibition of sodium uptake is mediated primarily through an increase of epithelial sodium concentration.
摘要
在旨在测量钠快速摄取的实验中,比较了菊粉和甘露醇作为青蛙皮肤表面与钠转运外部屏障之间存在的扩散空间标志物的适用性。
菊粉和甘露醇最终都与青蛙皮肤外表面的同一空间达到平衡,但甘露醇达到这种平衡的速度要快得多。
使用甘露醇校正细胞外钠,钠的快速摄取对外部介质中钠浓度的依赖性可以用简单的饱和动力学来描述,钠进入的表观K(m)为24 mM,最大摄取速率为1.28微当量/平方厘米·小时。
氨氯吡咪的作用是抑制钠的摄取,抑制程度既取决于外部介质中钠的浓度,也取决于皮肤正常维持的跨上皮转运水平。
当组织在含钠培养基中预孵育时,哇巴因抑制钠的摄取。如果在无钠培养基中进行预孵育,它对钠的摄取没有影响。
在哇巴因存在的情况下,通过增加浸泡外表面的钠浓度,可以在青蛙皮肤上引发短路电流和电位差。氨氯吡咪的存在会消除这种电位和短路电流。
这些结果提供了直接证据,表明氨氯吡咪的作用是阻止钠进入转运隔室,并表明哇巴因对钠摄取的抑制主要是通过上皮钠浓度的增加介导的。
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