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The Journal of General Physiology, Vol 83, 801-818, Copyright © 1984 by The Rockefeller University Press

ARTICLES

Cl-/HCO3- exchange at the apical membrane of Necturus gallbladder

L Reuss and JL Costantin

The hypothesis of Cl-/HCO3- exchange across the apical membrane of the epithelial cells of Necturus gallbladder was tested by means of measurements of extracellular pH (pHo), intracellular pH (pHi), and Cl- activity (alpha Cli) with ion-sensitive microelectrodes. Luminal pH changes were measured after stopping mucosal superfusion with a solution of low buffering power. Under control conditions, the luminal solution acidifies when superfusion is stopped. Shortly after addition of the Na+/H+ exchange inhibitor amiloride (10(-3) M) to the superfusate, alkalinization was observed. During prolonged (10 min) exposure to amiloride, no significant pHo change occurred. Shortly after amiloride removal, luminal acidification increased, returning to control rates in 10 min. The absence of Na+ in the superfusate (TMA+ substitution) caused changes in the same direction, but they were larger than those observed with amiloride. Removal of Cl- (cyclamate or sulfate substitution) caused a short-lived increase in the rate of luminal acidification, followed by a return to control values (10-30 min). Upon re-exposure to Cl-, there was a transient reduction of luminal acidification. The initial increase in acidification produced by Cl- removal was partially inhibited by SITS (0.5 mM). The pHi increased rapidly and reversibly when the Cl- concentration of the mucosal bathing solution was reduced to nominally 0 mM. The pHi changes were larger in 10 mM HCO3-Ringer's than in 1 mM HEPES-Ringer's, which suggests that HCO3- is transported in exchange for Cl-. In both HEPES- and HCO3-Ringer's, SITS inhibited the pHi changes. Finally, intracellular acidification or alkalinization (partial replacement of NaCl with sodium propionate or ammonium chloride, respectively) caused a reversible decrease or increase of alpha Cli. These results support the hypothesis of apical membrane Cl-/HCO3- exchange, which can be dissociated from Na+/H+ exchange and operates under control conditions. The coexistence at the apical membrane of Na+/H+ and Cl-/HCO3- antiports suggests that NaCl entry can occur through these transporters.
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