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AJP - Cell Physiology, Vol 252, Issue 2 C121-C127, Copyright © 1987 by American Physiological Society
ARTICLES |
S. E. Guggino, W. B. Guggino, N. Green and B. Sacktor
The conductive properties of a clone of medullary thick ascending limb (MTAL) cells (GRB-MAL1) were assessed using conventional microelectrodes and the patch clamp technique. The apical cell membrane potential (Va) of MTAL cells was -46 +/- 3 mV. Addition of Ba2+ (1 mM) to the apical solution induced a 22 +/- 2 mV depolarization of Va, whereas furosemide hyperpolarized Va by -5 +/- 1 mV. In the cell-attached patch configuration, the most frequently occurring channel had a single channel conductance of 121 +/- 5 pS and carried outward current. In excised patches, current movement was down the electrochemical K+ gradient. Fluctuations were activated by depolarization of Va and by increasing Ca2+ concentration on the intracellular face. Micromolar amounts of Ba2+ on the intracellular face of the membrane inhibited channel activity. We conclude that cultures of MTAL cells GRB-MAL1 retain at least two of the properties of the mature phenotype, namely, an apical K+ conductance and a sensitivity to loop diuretics; the most frequently occurring channel in the apical cell membrane is a Ca2+-activated, maxi-K+ channel; and, finally Ca2+-activated K+ channels may play a role in generating the apical K+ conductance in cultured MTAL cells.
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