Hayslett J P, Kashgarian M, Epstein F H
J Clin Invest. 1968 Apr;47(4):774-99. doi: 10.1172/JCI105772.
The functional correlates of compensatory renal hypertrophy were studied by micropuncture techniques in rats after the removal of one kidney. The glomerular filtration rate increased to roughly the same extent in the whole kidney and in individual surface nephrons, resulting in a greater amount of sodium delivered to the tubules for reabsorption. The fraction of the glomerular filtrate absorbed [determined from the tubular fluid-to-plasma ratio (TF/P) for inulin] remained unchanged in both proximal and distal portions of the nephron. The way in which the tubules adjusted to nephrectomy, however, differed in proximal and distal convolutions. After nephrectomy, the reabsorptive half-time, indicated by the rate of shrinkage of a droplet of saline in a tubule blocked with oil, was unchanged in the proximal tubule but significantly shortened in the distal convoluted tubule. Nevertheless, steady-state concentrations of sodium in an isolated raffinose droplet in the distal as well as the proximal tubule were the same in hypertrophied kidneys as in control animals. Possible reasons for this paradox are discussed. Transit time through the proximal tubules was unchanged by compensatory hypertrophy, but transit time to the distal tubules was prolonged. Changes in renal structure resulting from compensatory hypertrophy were also found to differ in the proximal and the distal protions of the nephron. Although tubular volume increased in both protions, the volume increase was twice as great in the proximal tubule as in the distal. In order, therefore, for net reabsorption to increase in the distal tubule, where the changes in tubular volume are not so marked, an increase in reabsorptive capacity per unit length of tubule is required. This increase is reflected in the shortening of reabsorptive half-time in the oil-blocked distal tubule that was actually observed.
采用微穿刺技术对一侧肾切除大鼠的代偿性肾肥大功能相关因素进行了研究。全肾和单个浅表肾单位的肾小球滤过率升高幅度大致相同,导致输送至肾小管进行重吸收的钠量增加。在肾单位的近端和远端,肾小球滤液的重吸收分数(根据菊粉的肾小管液与血浆比率(TF/P)确定)均保持不变。然而,肾小管适应肾切除的方式在近端和远端曲部有所不同。肾切除后,用油阻塞的肾小管中一滴盐水的收缩率表示的重吸收半衰期在近端小管中未发生变化,但在远端曲管中显著缩短。尽管如此,肥大肾的远端小管和近端小管中,孤立的棉子糖液滴中的钠稳态浓度与对照动物相同。文中讨论了这一矛盾现象的可能原因。代偿性肥大未改变近端小管的通过时间,但延长了至远端小管的通过时间。还发现,代偿性肥大导致的肾结构变化在肾单位的近端和远端也有所不同。虽然两个部分的肾小管体积均增加,但近端小管的体积增加是远端的两倍。因此,为了使体积变化不太明显的远端小管净重吸收增加,需要每单位长度肾小管的重吸收能力增加。实际观察到的油阻塞远端小管重吸收半衰期缩短就反映了这种增加。