Liu F Y, Cogan M G, Rector F C
Am J Physiol. 1984 Nov;247(5 Pt 2):F822-6. doi: 10.1152/ajprenal.1984.247.5.F822.
To assess whether proximal luminal fluid becomes hypotonic with respect to plasma, free-flow micropuncture measurements were made sequentially from the end-proximal tubule to Bowman's space in 10 tubules of hydropenic Munich-Wistar rats. Osmolality in Bowman's space was 2.8 +/- 0.3 mosmol less than in plasma. Tubular fluid osmolality fell along the tubule and by the end-proximal tubule was 7.5 +/- 0.7 mosmol/kg less than in plasma or 4.7 mosmol/kg less than in Bowman's space. Since luminal fluid became hypotonic, the reabsorbate was hypertonic. The transepithelial osmotic water permeability (Pf) was calculated using simultaneously measured water reabsorption rates. The osmotic gradient responsible for water reabsorption was assumed to be either lumen-to-reabsorbate or lumen-to-peritubular plasma, with a reflection coefficient for sodium chloride of 0.7-1.0. The Pf was then estimated to be between 0.2 and 2.0 cm/s in the first millimeter of tubule and to have fallen to 0.1-0.2 cm/s by the end of the tubule. In conclusion, luminal hypotonicity develops in the rat proximal convoluted tubule and must be considered as part of the osmotic driving force for water reabsorption.
为评估近端管腔液相对于血浆是否变为低渗,对10只禁水的慕尼黑-威斯塔大鼠的肾小管进行了从近端小管末端到鲍曼囊的连续自由流微穿刺测量。鲍曼囊中的渗透压比血浆低2.8±0.3毫摩尔/千克。肾小管液渗透压沿肾小管下降,到近端小管末端时比血浆低7.5±0.7毫摩尔/千克,或比鲍曼囊中低4.7毫摩尔/千克。由于管腔液变为低渗,重吸收液为高渗。使用同时测量的水重吸收率计算跨上皮渗透水通透性(Pf)。假定负责水重吸收的渗透梯度为管腔到重吸收液或管腔到肾小管周血浆,氯化钠的反射系数为0.7-1.0。然后估计Pf在肾小管的第一毫米处为0.2至2.0厘米/秒,到肾小管末端时降至0.1-0.2厘米/秒。总之,大鼠近端曲管中会出现管腔低渗,必须将其视为水重吸收渗透驱动力的一部分。
