The intracellular chloride activity of rat kidney proximal tubular cells

The intracellular chloride activity of rat kidney proximal tubular cells

The intracellular Cl- activity was determined in rat kidney proximal tubular cells in vivo, using single-barreled Cl- sensitive microelectrodes filled with Corning no. 477913 liquid ion exchanger resin to measure VCl and using - in separate experiments - conventional KCl-filled microelectrodes to me...

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Bibliographic Details
Published in:Pflügers Archiv Vol. 399; no. 4; pp. 259 - 265
Main Authors: Cassola, A C, Mollenhauer, M, Frömter, E
Format: Journal Article
Language:English
Published: Germany 01-12-1983
Subjects:
Animals
Biological Transport, Active
Cell Membrane Permeability
Chlorides - metabolism
Intracellular Fluid - physiology
Kidney Tubules, Proximal - physiology
Male
Membrane Potentials
Microelectrodes
Rats
Rats, Inbred Strains
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Summary:The intracellular Cl- activity was determined in rat kidney proximal tubular cells in vivo, using single-barreled Cl- sensitive microelectrodes filled with Corning no. 477913 liquid ion exchanger resin to measure VCl and using - in separate experiments - conventional KCl-filled microelectrodes to measure the membrane potential, Vm. After correction for interference from other anions on VCl the intracellular Cl- activity averaged 13.1 mmol X l-1 SD +/- 4.5 mmol X l-1 (n = 96). This value is approximately two-fold higher than the intracellular equilibrium activity which can be calculated from the extracellular Cl- activity of 90-103 mmol X l-1 and Vm of -71.2 mV, SD +/- 4.9 mV (n = 23) to amount to 6.3 to 6.7 mmol X l-1. Since both cell membranes are permeable for Cl- ions, as concluded from luminal and/or peritubular Cl- substitution experiments, we conclude that the cellular Cl- accumulation above equilibrium results from transcellular active Cl- transport, the detailed mechanism of which is presently not known. From the slow decline of intracellular Cl- concentration after substitution of luminal Cl- by gluconate, however, we deduce that transcellular Cl- absorption is of minor importance in surface tubules of rat kidney under free flow and that the major part of transtubular Cl- flux is passive and paracellular.
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ISSN:0031-6768
DOI:10.1007/BF00652749