猪远端结肠中氨氯地平敏感钠转运的产后发育
Post-natal development of amiloride sensitive sodium transport in pig distal colon.
作者信息
Cremaschi D, Ferguson D R, Hénin S, James P S, Meyer G, Smith M W
出版信息
J Physiol. 1979 Jul;292:481-94. doi: 10.1113/jphysiol.1979.sp012866.
Abstract
- Both electrophysiological properties and unidirectional Na and Cl fluxes have been determined across distal colons taken from pigs during early post-natal development. 2. The transmural potential difference (Vms) was 5 mV in the new-born and 10 mV in the 4 day old colon. The short circuit current (Scc) showed a three to sixfold increase during the first 10 days of post-natal life. The microvillar membrane potential (Vm) fell from about -45 mV in the new-born to -40 mV in the 4 day old colon. 3. Amiloride had no effect on Vms, Scc or Vm, measured in the new-born animal. It reduced Vms and Scc, caused a hyperpolarization of Vm and increased the microvillar membrane/basolateral membrane resistance ratio (Rm/Rs) in colons taken from older animals. 4. The Scc of distal colons taken from new-born and 1 day old pigs was only half that predicted from unidirectional measurements of Na flux. This discrepancy, which could not be completely accounted for by net CL absorption, disappeared in the older animals. 5. Net transport of Na doubled during the first 24 h of post-natal life. Part of this transport took place through an amiloride sensitive, non-electrogenic, pathway. 6. It is suggested that Na uses mainly a non-electrogenic pathway to cross the mucosa of the new-born pig. This pathway is replaced by an electrogenic amiloride sensitive mechanism in older animals. Aldosterone is thought to initiate these changes in Na tranport.
摘要
- 已经测定了新生仔猪出生后早期发育阶段远端结肠的电生理特性以及单向钠和氯通量。2. 新生仔猪结肠的跨壁电位差(Vms)为5 mV,4日龄结肠为10 mV。短路电流(Scc)在出生后的头10天内增加了三到六倍。微绒毛膜电位(Vm)从新生仔猪的约 -45 mV降至4日龄结肠的 -40 mV。3. 氨氯地平对新生动物测量的Vms、Scc或Vm没有影响。它降低了Vms和Scc,导致Vm超极化,并增加了取自年长动物结肠的微绒毛膜/基底外侧膜电阻比(Rm/Rs)。4. 取自新生仔猪和1日龄仔猪远端结肠的Scc仅为单向钠通量测量预测值的一半。这种差异(不能完全由氯的净吸收来解释)在年长动物中消失。5. 钠的净转运在出生后的头24小时内增加了一倍。这种转运部分通过氨氯地平敏感的非电生途径进行。6. 有人认为,钠主要通过非电生途径穿过新生仔猪的黏膜。在年长动物中,这种途径被电生的氨氯地平敏感机制所取代。醛固酮被认为引发了钠转运的这些变化。
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