氯离子/甲酸交换与甲酸循环：一种氯离子跨上皮细胞膜主动转运的机制。

Chloride/formate exchange with formic acid recycling: a mechanism of active chloride transport across epithelial membranes.

作者信息

Karniski L P, Aronson P S

出版信息

Proc Natl Acad Sci U S A. 1985 Sep;82(18):6362-5. doi: 10.1073/pnas.82.18.6362.

DOI:10.1073/pnas.82.18.6362

PMID:3862136

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC391054/

Abstract

The pathways for transport of Cl- and formate in microvillus membrane vesicles isolated from rabbit renal cortex were evaluated. An outward formate gradient stimulated the uptake of Cl-, and an outward Cl- gradient stimulated the uptake of formate, indicating Cl-/formate exchange. In addition, an inside alkaline pH gradient induced the accumulation of formate, consistent with nonionic diffusion of formic acid. Although an inward Na+ gradient also stimulated uphill formate accumulation, suggesting Na+/formate cotransport, this effect was abolished when ionophores were used to prevent the generation of a transmembrane pH gradient, indicating an indirect coupling of formic acid transport to Na+/H+ exchange. An inside alkaline pH gradient only minimally stimulated the uptake of 82Br-, used as tracer for Cl-, confirming the absence of appreciable Cl-/OH- exchange. However, the same pH gradient in the presence of a physiologic formate concentration (0.2 mM) markedly stimulated 82Br- influx. These data suggest that Cl-/formate exchange with recycling of formic acid by nonionic diffusion is a potential mechanism for active Cl- absorption across the luminal membrane in the proximal tubule and perhaps in other epithelia.

摘要

对从兔肾皮质分离出的微绒毛膜囊泡中氯离子（Cl-）和甲酸根离子（甲酸盐）的转运途径进行了评估。外向的甲酸盐梯度刺激了氯离子的摄取，外向的氯离子梯度刺激了甲酸盐的摄取，这表明存在Cl-/甲酸盐交换。此外，内向碱性pH梯度诱导了甲酸盐的积累，这与甲酸的非离子扩散一致。虽然内向的钠离子（Na+）梯度也刺激了甲酸盐的上坡积累，提示存在Na+/甲酸盐共转运，但当使用离子载体来阻止跨膜pH梯度的产生时，这种效应被消除，这表明甲酸转运与Na+/H+交换存在间接偶联。内向碱性pH梯度仅对用作氯离子示踪剂的82Br-摄取有最小程度的刺激，证实不存在明显的Cl-/OH-交换。然而，在生理浓度的甲酸盐（0.2 mM）存在下，相同的pH梯度显著刺激了82Br-内流。这些数据表明，通过非离子扩散进行甲酸循环的Cl-/甲酸盐交换是近端小管及可能其他上皮细胞跨腔膜主动吸收氯离子的一种潜在机制。

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