近端曲管的水重吸收能力:大鼠肾脏的微灌注研究
Water reabsorption capacity of the proximal convoluted tubule: a microperfusion study on rat kidney.
作者信息
Corman B, Roinel N, De Rouffignac C
出版信息
J Physiol. 1981 Jul;316:379-92. doi: 10.1113/jphysiol.1981.sp013795.
Abstract
- The differences in the water reabsorption capacity observed from one proximal tubule to another were investigated in vivo by continuous microperfusion. 2. Two to seven loops were punctured along the same tubule. The [3H]inulin, 22Na, [14C]glucose, sodium, chloride and magnesium concentrations as well as the osmolality of the collected samples were studied as a function of the perfused length. 3. With Ringer bicarbonate solution perfused in Saclay Wistar rats, the water reabsorption capacity ranged from 0 to 3 nl . min-1 . mm-1 depending on the tubule. This reabsorption rate was closely correlated with the unidirectional reabsorption flux of sodium, and with the rise in tubular chloride and magnesium concentrations. 4. In Munich Wistar rats with glomeruli accessible at the kidney surface, tubule perfusion with a Ringer bicarbonate solution showed that the highest water reabsorption rates per mm of tubule were found for the perfusion sites closest to the glomerulus; water fluxes were also positively correlated with glucose transport. 5. In a second series of experiments on Saclay rats, perfusion of a Ringer solution containing a high chloride concentration (137 m-equiv/l.) was unable to increase the water reabsorption rate compared to the control perfusion; here again, water fluxes were positively correlated with glucose transport.
摘要
- 通过连续微灌注在体内研究了从一个近端小管到另一个近端小管观察到的水重吸收能力差异。2. 沿同一小管穿刺两到七个袢。研究了收集样本中[3H]菊粉、22Na、[14C]葡萄糖、钠、氯和镁的浓度以及渗透压与灌注长度的关系。3. 在萨克莱Wistar大鼠中用林格碳酸氢盐溶液灌注时,根据小管不同,水重吸收能力范围为0至3 nl·min-1·mm-1。这种重吸收率与钠的单向重吸收通量以及小管中氯和镁浓度的升高密切相关。4. 在肾表面可触及肾小球的慕尼黑Wistar大鼠中,用林格碳酸氢盐溶液进行小管灌注显示,对于最靠近肾小球的灌注部位,每毫米小管的水重吸收速率最高;水通量也与葡萄糖转运呈正相关。5. 在对萨克莱大鼠进行的第二系列实验中,与对照灌注相比,灌注含高氯浓度(137 m-当量/升)的林格溶液无法提高水重吸收速率;同样,水通量与葡萄糖转运呈正相关。
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