Chloride movement across the basolateral membrane of proximal tubule cells |
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Authors: | T. Shindo K. R. Spring |
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Affiliation: | (1) National Institutes of Health, National Heart, Lung, and Blood Institute, 20205 Bethesda, Maryland;(2) Present address: Department of Internal Medicine I, Nara Shijocho, Kashihara, 634 Nara, Japan |
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Abstract: | Summary Electrophysiologic and tracer experiments have shown that Cl– entersNecturus proximal tubule cells from the tubule lumen by a process coupled to the flow of Na+, and that Cl– entry is electrically silent. The mechanism of Cl– exit from the cell across the basolateral membrane has not been directly studied. To evaluate the importance of the movement of Cl– ions across the basolateral membrane, the relative conductance of Cl– to K+ was determined by a new method. Single-barrel ion-selective microelectrodes were used to measure intracellular Cl– and K+ as a function of basolateral membrane PD as it varied normally from tubule to tubule. Basolateral membrane Cl– conductance was about 10% of K+ conductance by this method. A second approach was to voltage clamp the basolateral PD to 20 mV above and below the spontaneous PD, while sensing intracellular Cl– activity with the second barrel of a double-barrel microelectrode. An axial wire electrode in the tubule lumen was used to pass current across the tubular wall and thereby vary the basolateral membrane PD. Cell Cl– activity was virtually unaffected by the PD changes. We conclude that Cl– leavesNecturus proximal tubule cells by a neutral mechanism, possibly coupled to the efflux of Na+ or K+. |
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