大鼠肾脏皮质小管腔内酸化的动力学
Kinetics of luminal acidification in cortical tubules of the rat kidney.
作者信息
Giebisch G, Malnic G, De Mello G B, De Mello Aires M
出版信息
J Physiol. 1977 Jun;267(3):571-99. doi: 10.1113/jphysiol.1977.sp011827.
Abstract
- Some kinetic aspects of renal tubular acidification were studied in proximal and distal tubules of the rat kidney by combining stationary microperfusion methods and continuous measurements of luminal pH changes of phosphate or bicarbonate buffers by means of antimony electrodes. The analysis included the measurement of steady-state pH, steady-state buffer concentrations and acidification half-times. From these data, net rates of tubular bicarbonate reabsorption and of H ion secretion were obtained since it was shown that the rate of phosphate acidification provides a realistic estimate of H ion secretion. 2. Experiments were performed in control rats, in animals undergoing metabolic acidosis or alkalosis and in control and acidotic rats receiving the carbonic anydrase inhibitor Diamox. 3. In all experiments, the rates of tubular bicarbonate reabsorption and of phosphate acidification (H ion secretion) were proportional to luminal buffer levels. The changes of luminal acid concentrations followed first-order kinetics. 4. Steady-state transepithelial pH differences were reduced in metabolic alkalosis and after diamox but augmented during metabolic acidosis. 5. Acidification half-times were prolonged in metabolic acidosis and after Diamox but remained similar to control levels in metabolic alkalosis. 6. From the observation that both bicarbonate reabsorption and phosphate acidification are similarly affected by these experimental manoeuvres, it is concluded that H ion secretion plays a key role in both transport processes.
摘要
- 通过结合固定微灌注方法以及利用锑电极连续测量磷酸盐或碳酸氢盐缓冲液管腔内pH值变化,对大鼠肾脏近端和远端小管的肾小管酸化动力学的某些方面进行了研究。分析内容包括稳态pH值、稳态缓冲液浓度以及酸化半衰期的测量。从这些数据中得出了肾小管碳酸氢盐重吸收和氢离子分泌的净速率,因为已表明磷酸盐酸化速率可切实估算氢离子分泌。2. 在对照大鼠、处于代谢性酸中毒或碱中毒状态的动物以及接受碳酸酐酶抑制剂二氮嗪的对照和酸中毒大鼠身上进行了实验。3. 在所有实验中,肾小管碳酸氢盐重吸收速率和磷酸盐酸化(氢离子分泌)速率与管腔内缓冲液水平成正比。管腔内酸浓度的变化遵循一级动力学。4. 代谢性碱中毒时以及使用二氮嗪后,稳态跨上皮pH差值减小,但在代谢性酸中毒时增大。5. 酸化半衰期在代谢性酸中毒时以及使用二氮嗪后延长,但在代谢性碱中毒时与对照水平相似。6. 基于碳酸氢盐重吸收和磷酸盐酸化均受到这些实验操作类似影响的观察结果,得出结论:氢离子分泌在这两个转运过程中均起关键作用。
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