Karlmark B, Jaeger P, Giebisch G
Am J Physiol. 1983 Nov;245(5 Pt 1):F584-92. doi: 10.1152/ajprenal.1983.245.5.F584.
Free-flow micropuncture studies were performed on superficial rat tubules and titratable acid (TA), sodium and potassium concentrations, and tubular pH were measured in control, acutely K-loaded, and chronically K-depleted animals. The proximal tubule is a key site of TA formation. Under control conditions, significant amounts of TA were lost along the loop of Henle. TA delivery (in pmol X min-1) to the late proximal tubule (LP) was 23.66 +/- 2.38 (mean +/- SE), that to the early distal tubule (ED) was 17.24 +/- 1.73, and little further loss occurred along more distally located nephron sites. In acute hyperkalemia, urinary TA excretion (in mumol X min-1) was lower than under control conditions (0.56 +/- 0.04 vs. 1.01 +/- 0.07); TA delivery to the LP (18.50 +/- 1.93) was slightly reduced compared with the controls (a change not reaching statistical significance). TA delivery to the ED was also reduced (11.54 +/- 1.04); significant amounts of TA were lost along the loop of Henle and a significant further loss occurred along the distal tubule since TA delivery to the late distal tubule (LD) was only 7.41 +/- 0.83. As luminal pH along both proximal and distal tubules in K-loaded rats was indistinguishable from that of control rats, a major factor responsible for decreased distal TA formation in K-loaded animals was diminished buffer delivery. In chronic potassium depletion urinary TA excretion was also lowered (0.30 +/- 0.06); only a moderate part of this effect was due to increased pH along the nephron. Increased buffer reabsorption along the proximal tubule (TA delivery to LP was 14.32 +/- 2.01) contributed mainly to the reduced rate of titratable acid excretion.
对大鼠浅表肾小管进行了自由流动微穿刺研究,并在对照动物、急性钾负荷动物和慢性钾缺乏动物中测量了可滴定酸(TA)、钠和钾的浓度以及肾小管pH值。近端小管是TA形成的关键部位。在对照条件下,大量的TA在髓袢中丢失。输送到近端小管晚期(LP)的TA(以pmol×min-1计)为23.66±2.38(平均值±标准误),输送到远端小管早期(ED)的为17.24±1.73,在更远端的肾单位部位几乎没有进一步的丢失。在急性高钾血症中,尿TA排泄(以μmol×min-1计)低于对照条件下(0.56±0.04对1.01±0.07);与对照相比,输送到LP的TA(18.50±1.93)略有减少(变化未达到统计学显著性)。输送到ED的TA也减少了(11.54±1.04);大量的TA在髓袢中丢失,并且在远端小管中进一步显著丢失,因为输送到远端小管晚期(LD)的TA仅为7.41±0.83。由于钾负荷大鼠近端和远端小管的管腔pH值与对照大鼠的无法区分,导致钾负荷动物远端TA形成减少的一个主要因素是缓冲物质输送减少。在慢性钾缺乏时,尿TA排泄也降低了(0.30±0.06);这种效应只有一部分是由于整个肾单位pH值升高所致。近端小管缓冲物质重吸收增加(输送到LP的TA为14.32±2.01)主要导致了可滴定酸排泄率降低。
