Emmons C
Research and Medicine Service, West Los Angeles Veterans Affairs Medical Center, California, USA.
Am J Physiol. 1996 Oct;271(4 Pt 2):F799-805. doi: 10.1152/ajprenal.1996.271.4.F799.
To investigate halide selectivity patterns of cortical collecting duct (CCD) intercalated cells (ICs), intracellular pH (pHi) was measured in perfused rabbit outer CCD ICs in Na(+)-free, HCO-3-buffered, 115 mM Cl solutions. Apical anion exchange activity was measured as the dpH/dt after lumen Cl- replacement with gluconate. The perfusate was randomly changed to equimolar Br-, F-, or I-. Addition of Br- to the lumen in place of gluconate caused a brisk acidification similar to that with Cl- return. The acidification rate with I- replacement was only approximately 25% of that seen with Cl- readdition, and F- substitution resulted in a small alkalinization. In a separate protocol, each halide was substituted for lumen Cl-. Replacement of lumen Cl- with Br- resulted in intracellular acidification, whereas F- substitution caused an increase in pHi similar to that with gluconate. A slower rate of alkalinization was seen with I-. Separate tubules were perfused and bathed in Cl(-)-free gluconate solutions for 10 min, and then either Cl- or Br- was returned to the lumen. Similar rates of acidification were found with either Cl- or Br- return. Taken together, the results show that, at a halide concentration of 115 mM, the halide selectivity transport pattern of the apical anion exchanger of CCD ICs is Cl- = Br- > I- > F-.
为研究皮质集合管(CCD)闰细胞(ICs)的卤化物选择性模式,在无钠、含碳酸氢根缓冲的115 mM氯离子溶液中灌注兔外皮质集合管闰细胞,测量细胞内pH值(pHi)。顶端阴离子交换活性通过用葡萄糖酸盐替代管腔氯离子后的dpH/dt来测量。灌注液随机更换为等摩尔的溴离子、氟离子或碘离子。用溴离子代替葡萄糖酸盐加入管腔会引起快速酸化,类似于氯离子回流时的情况。用碘离子替代时的酸化速率仅约为重新加入氯离子时的25%,而用氟离子替代则导致轻微碱化。在另一个实验方案中,每种卤化物替代管腔氯离子。用溴离子替代管腔氯离子导致细胞内酸化,而用氟离子替代则导致pHi升高,类似于用葡萄糖酸盐替代时的情况。用碘离子时碱化速率较慢。分别用无氯离子的葡萄糖酸盐溶液灌注和浸泡分离的肾小管10分钟,然后将氯离子或溴离子重新加入管腔。氯离子或溴离子回流时发现酸化速率相似。综上所述,结果表明,在卤化物浓度为115 mM时,皮质集合管闰细胞顶端阴离子交换器的卤化物选择性转运模式为Cl- = Br- > I- > F-。
