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AJP - Cell Physiology, Vol 256, Issue 4 C736-C749, Copyright © 1989 by American Physiological Society
ARTICLES |
C. P. Stewart, J. M. Winterhager, K. Heintze and K. U. Petersen
Abteilung Pharmakologie, Medizinischen Fakultat, Rheinisch-Westfalische Technische Hochschule Aachen, Federal Republic of Germany.
Guinea pig gallbladder epithelium secretes HCO3- by electroneutral mechanisms, resulting in transepithelial Cl- -HCO3- exchange. Adenosine 3',5'-cyclic monophosphate (cAMP) converts HCO3- secretion into an electrogenic process. This transformation was examined using voltage-clamp, pH-stat, and microelectrode techniques. Prostaglandin E1 (PGE1; 10(-6) M) was used to raise intracellular cAMP levels. It increased short-circuit current (Isc) by approximately 1.8 mumol.cm-2.h-1, an effect dependent on serosal HCO3- and, partly, on mucosal Cl-. Mucosal 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid (SITS; 10(-3) M) halved Isc, but only in Cl- containing solutions. PGE1 increased the secretory HCO3- flux from approximately 2.0 to approximately 2.7 mumol.cm-2.h-1 and reduced the absorptive HCO3- flux from approximately 1.1 to approximately 0.5 mumol.cm-2.h-1, with net HCO3- secretion accounting for the increase in Isc. During single-cell impalements, PGE1 depolarized the apical membrane by greater than 10 mV (transiently in the absence of HCO3-) and decreased the apparent ratio of membrane resistances (Ra/Rb) from 5-8 to a value close to zero. These effects were largely reduced in magnitude and rapidity by removing Cl- and HCO3- from both sides of the epithelium. Ion substitutions in the luminal perfusate revealed substantial Cl- and HCO3- permeabilities at the apical membrane under PGE1 conditions. Our results indicate that, in the presence of PGE1 (cAMP), HCO3- crosses the apical membrane by two different routes. A SITS-sensitive fraction leaves the cell in exchange for luminal Cl-, which, in turn, recycles into the lumen by electrodiffusion. The remaining HCO3- exits through a HCO3- conductive pathway.
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