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  • Title: Electrophysiological effects of mucosal Cl- removal in Necturus gallbladder epithelium.
    Author: Stoddard JS, Reuss L.
    Journal: Am J Physiol; 1989 Sep; 257(3 Pt 1):C568-78. PubMed ID: 2506759.
    Abstract:
    The factors responsible for the cell membrane hyperpolarization elicited in Necturus gallbladder epithelium on Cl- removal from the mucosal bathing solution were evaluated with conventional and ion-sensitive microelectrode techniques. Cl- removal causes reversal of apical Cl- -HCO3- exchange, resulting in a fall in intracellular Cl- activity (aiCl) and an increase in intracellular pH (pHi). Concomitantly, the cell membranes hyperpolarize to values close to the K+ equilibrium potential (EK), aiNa falls, and aiK rises. The observed changes in membrane voltage are not attributable to a pHi-dependent increase in cell membrane K+ permeability (PK), because 1) the cell membrane resistances increased and 2) elevating solution partial pressure of CO2 (PCO2) to counterbalance the cellular alkalinization on mucosal Cl- removal caused a further hyperpolarization of the cell membranes to values greater than EK. This additional hyperpolarization was related to the activity of the Na+ pump, inasmuch as it was accompanied by an increase in aiNa and was ouabain sensitive. These results are consistent with, but do not prove, pump electrogenicity. During the period of Cl- removal from the mucosal bathing solution, the cell membrane depolarization caused by raising serosal K+ concentration was increased, whereas the depolarization caused by lowering serosal Cl- concentration was decreased, compared with substitutions under control conditions. These results indicate that mucosal Cl- removal causes a decrease in basolateral PCl, which we speculate could be due to a decrease in cell volume. We conclude that the hyperpolarization of the cell membranes on mucosal Cl- removal is primarily due to the combined effects of the fall in basolateral PCl and the increase in basolateral ECl.
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