肾基底外侧膜上的硫酸盐转运由阴离子交换介导。

Renal sulfate transport at the basolateral membrane is mediated by anion exchange.

作者信息

Pritchard J B, Renfro J L

出版信息

Proc Natl Acad Sci U S A. 1983 May;80(9):2603-7. doi: 10.1073/pnas.80.9.2603.

DOI:10.1073/pnas.80.9.2603

PMID:6573673

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC393875/

Abstract

The transport of sulfate was studied in basolateral membrane (BLM) vesicles isolated from rat kidney cortex by centrifugation on a Percoll self-generating gradient. In contrast to sulfate transport at the luminal membrane, sulfate uptake by BLM vesicles was not sodium dependent. However, imposition of an inside greater than outside bicarbonate gradient stimulated BLM sulfate uptake nearly 10-fold and produced a transient overshoot of about 4-fold. This process appeared to become saturated at high concentrations of either bicarbonate or sulfate. Sulfate itself, thiosulfate, and hydroxyl, but not chloride or thiocyanate, were able to substitute for bicarbonate. None of these anions was as effective as bicarbonate. The sulfate/bicarbonate exchange was unaltered by manipulation of membrane potential, suggesting that it was electroneutral. Both bicarbonate stimulation and overshoot could be prevented by known inhibitors of anion transport, including mercuric chloride, 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid, and phloretin. Bicarbonate-stimulated sulfate uptake also was inhibited by thiosulfate, probenecid, and acetazolamide. Thus, rat kidney BLM vesicles showed carrier-mediated anion exchange. Its properties indicate that this carrier may participate in both reabsorptive and secretory sulfate transport.

摘要

通过在Percoll自生成梯度上离心，从大鼠肾皮质分离出基底外侧膜（BLM）囊泡，研究了硫酸盐的转运。与管腔膜上的硫酸盐转运不同，BLM囊泡对硫酸盐的摄取不依赖于钠。然而，施加内部碳酸氢盐梯度大于外部时，刺激BLM对硫酸盐的摄取增加近10倍，并产生约4倍的短暂超调。在高浓度的碳酸氢盐或硫酸盐时，这个过程似乎会饱和。硫酸盐本身、硫代硫酸盐和羟基，但不是氯离子或硫氰酸盐，能够替代碳酸氢盐。这些阴离子都不如碳酸氢盐有效。硫酸盐/碳酸氢盐交换不受膜电位操作的影响，表明它是电中性的。已知的阴离子转运抑制剂，包括氯化汞、4-乙酰氨基-4'-异硫氰酸基芪-2,2'-二磺酸和根皮素，都可以阻止碳酸氢盐刺激和超调。硫代硫酸盐、丙磺舒和乙酰唑胺也抑制碳酸氢盐刺激的硫酸盐摄取。因此，大鼠肾BLM囊泡表现出载体介导的阴离子交换。其特性表明，这种载体可能参与硫酸盐的重吸收和分泌转运。

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