大鼠结肠体内的钠转运与短路电流及醛固酮的作用
Sodium transport and short-circuit current in rat colon in vivo and the effect of aldosterone.
作者信息
Edmonds C J, Marriott J
出版信息
J Physiol. 1970 Nov;210(4):1021-39. doi: 10.1113/jphysiol.1970.sp009255.
Abstract
- A method for measurement of short-circuit current and for applying a voltage clamp to segments of rat colon in vivo is described.2. The mucosa behaved as an ohmic resistor of average resistance 154 Omega/cm(2) although brief transient effects were frequently observed. Tissue resistance was independent of considerable changes in ionic strength and composition of the luminal solution.3. The short-circuit current averaged 120 muA/cm(2) in normal rats. Aldosterone intravenously raised the p.d., short-circuit current rising proportionately and tissue resistance being unchanged. The effects of various modifications of the intraluminal solution in respect to composition, hydrostatic pressure and pH were examined. An increase in the osmolality of the luminal solution sufficient to abolish water absorption did not affect p.d. or short-circuit current.4. The short-circuit current measured with 150 mM-NaCl in the lumen was almost completely accounted for by active Na absorption both in normal and aldosterone-treated rats. The changes in Na efflux rate produced by voltage clamping suggested that only part of Na efflux was due to simple diffusion. With lower [NaCl] in the lumen, the short-circuit current exceeded that atributable to active Na absorption, the discrepancy increasing with reduction of [NaCl].5. The luminal [Na] at which Na efflux and influx rates were equal was reduced by aldosterone, an effect which is probably responsible for the low stool [Na] of aldosterone treated animals. The significance of this finding in terms of the mode of action of aldosterone is discussed.
摘要
本文描述了一种测量大鼠结肠段短路电流并对其进行电压钳制的体内实验方法。
尽管经常观察到短暂的瞬态效应,但黏膜表现为平均电阻为154Ω/cm²的欧姆电阻。组织电阻与管腔溶液离子强度和成分的显著变化无关。
正常大鼠的短路电流平均为120μA/cm²。静脉注射醛固酮可提高跨膜电位,短路电流相应增加,而组织电阻不变。研究了管腔溶液在成分、静水压和pH值方面各种改变的影响。管腔溶液渗透压的增加足以消除水吸收,但不影响跨膜电位或短路电流。
无论在正常大鼠还是醛固酮处理的大鼠中,管腔内使用150mM-NaCl测量的短路电流几乎完全由主动钠吸收引起。电压钳制引起的钠外流率变化表明,只有部分钠外流是由于简单扩散。当管腔内[NaCl]较低时,短路电流超过了可归因于主动钠吸收的电流,随着[NaCl]的降低,差异增大。
醛固酮降低了钠外流和内流速率相等时的管腔[Na],这一效应可能是醛固酮处理动物粪便[Na]低的原因。讨论了这一发现对醛固酮作用方式的意义。
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