Karniski L P, Aronson P S
Am J Physiol. 1987 Sep;253(3 Pt 2):F513-21. doi: 10.1152/ajprenal.1987.253.3.F513.
We evaluated the mechanisms of chloride transport in microvillus membrane vesicles isolated from the rabbit renal cortex. The presence of Cl-formate exchange was confirmed. Outward gradients of oxaloacetate, HCO3, acetate, lactate, succinate, sulfate, and p-aminohippurate (PAH) stimulated the rate of Cl uptake minimally (less than 25%) or not at all. However, an outward gradient of oxalate stimulated Cl uptake by 70%, and an outward Cl gradient induced uphill oxalate uptake, indicating Cl-oxalate exchange. Moreover, an outward formate gradient induced uphill oxalate uptake, indicating formate-oxalate exchange. Studies of inhibitor and substrate specificity indicated the probable operation of at least two separate anion exchangers in mediating Cl transport. The Cl-formate exchanger accepted Cl and formate as substrates, had little or no affinity for oxalate, was sensitive to inhibition by furosemide, and was less sensitive to inhibition by 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS). The Cl (formate)-oxalate exchanger also accepted Cl and formate as substrates but had high affinity for oxalate, was highly sensitive to inhibition by DIDS, and was less sensitive to inhibition by furosemide. The Cl-formate exchanger was electroneutral, whereas the Cl (formate)-oxalate exchanger was electrogenic. We conclude that at least two separate anion exchangers mediating Cl transport are present on the luminal membrane of the rabbit proximal tubule cell. These exchangers may play important roles in mediating transtubular Cl and oxalate transport in this nephron segment.
我们评估了从兔肾皮质分离的微绒毛膜囊泡中氯离子转运的机制。证实了存在氯离子-甲酸根交换。草酰乙酸、碳酸氢根、乙酸根、乳酸根、琥珀酸根、硫酸根和对氨基马尿酸(PAH)的外向梯度对氯离子摄取速率的刺激最小(小于25%)或根本没有刺激。然而,草酸根的外向梯度刺激氯离子摄取增加70%,而氯离子外向梯度诱导草酸根的上坡摄取,表明存在氯离子-草酸根交换。此外,甲酸根外向梯度诱导草酸根的上坡摄取,表明存在甲酸根-草酸根交换。抑制剂和底物特异性研究表明,在介导氯离子转运过程中可能存在至少两种独立的阴离子交换体。氯离子-甲酸根交换体以氯离子和甲酸根作为底物,对草酸根几乎没有或没有亲和力,对呋塞米抑制敏感,对4,4'-二异硫氰基芪-2,2'-二磺酸(DIDS)抑制不太敏感。氯离子(甲酸根)-草酸根交换体也以氯离子和甲酸根作为底物,但对草酸根有高亲和力,对DIDS抑制高度敏感,对呋塞米抑制不太敏感。氯离子-甲酸根交换体是电中性的,而氯离子(甲酸根)-草酸根交换体是生电性的。我们得出结论,兔近端小管细胞腔膜上存在至少两种独立的介导氯离子转运的阴离子交换体。这些交换体可能在介导该肾单位节段的跨小管氯离子和草酸根转运中发挥重要作用。
