S3近端小管中自发的管腔pH不平衡。在氨和碳酸氢盐转运中的作用。

Spontaneous luminal disequilibrium pH in S3 proximal tubules. Role in ammonia and bicarbonate transport.

作者信息

Kurtz I, Star R, Balaban R S, Garvin J L, Knepper M A

出版信息

J Clin Invest. 1986 Oct;78(4):989-96. doi: 10.1172/JCI112690.

DOI:10.1172/JCI112690

PMID:3760195

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC423740/

Abstract

We determined whether a spontaneous luminal disequilibrium pH, pHdq (pH measured - pH equilibrium), was present in isolated perfused rabbit S2 and S3 proximal tubules. Luminal pH was measured by perfusing with the fluorescent pH probe 1,4-DHPN, and the equilibrium pH was calculated from the measured collected total CO2 and dissolved CO2 concentrations. S2 tubules failed to generate a spontaneous pHdq. S3 tubules generated a spontaneous acidic pHdq of -0.46 +/- 0.15 (P less than 0.05), which was obliterated following the addition of carbonic anhydrase (0.1 mg/ml) to the perfusate. In S3 tubules perfused and bathed in 4 mM total ammonia, luminal total ammonia rose from 4.08 +/- 0.05 mM (perfusate) to 4.95 +/- 0.20 mM (collected fluid) (P less than 0.02). Carbonic anhydrase added to the perfusate prevented the rise in the collected total ammonia concentration. We conclude that the rabbit S3 proximal tubule lacks functional luminal carbonic anhydrase. The acidic pHdq in the S3 segment enhances the diffusion of NH3 into the lumen. In contrast, the S2 segment has functional luminal carbonic anhydrase.

摘要

我们测定了在分离灌注的兔S2和S3近端小管中是否存在自发的管腔不平衡pH值（pHdq，测量的pH值减去平衡pH值）。通过用荧光pH探针1,4 - DHPN灌注来测量管腔pH值，并根据测量的收集到的总二氧化碳和溶解二氧化碳浓度计算平衡pH值。S2小管未能产生自发的pHdq。S3小管产生了-0.46±0.15的自发酸性pHdq（P<0.05），在向灌注液中加入碳酸酐酶（0.1mg/ml）后该值消失。在灌注液和浴液中总氨浓度为4mM的情况下，S3小管中的管腔总氨浓度从灌注液中的4.08±0.05mM升至收集液中的4.95±0.20mM（P<0.02）。向灌注液中加入碳酸酐酶可防止收集到的总氨浓度升高。我们得出结论，兔S3近端小管缺乏功能性管腔碳酸酐酶。S3段的酸性pHdq增强了NH3向管腔的扩散。相比之下，S2段具有功能性管腔碳酸酐酶。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/143f/423740/b3abfcd78b0d/jcinvest00109-0142-a.jpg

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S3近端小管中自发的管腔pH不平衡。在氨和碳酸氢盐转运中的作用。

Spontaneous luminal disequilibrium pH in S3 proximal tubules. Role in ammonia and bicarbonate transport.

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