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  • Title: Acid pH and weak acids induce Na--Cl cotransport in the rabbit urinary bladder.
    Author: Ifshin MS, Johnson KE, Eaton DC.
    Journal: J Membr Biol; 1983; 76(2):151-64. PubMed ID: 6644796.
    Abstract:
    We have described a coupled Na--Cl entry step at the apical membrane of a tight epithelium, the rabbit urinary bladder. Mucosal pH values, more acid than 4.6, stimulate a 20 to 40-fold increase in mucosal-to-serosal Na+ and Cl- flux. The flux increase is almost completely blocked by low concentrations of of bumetanide. The transepithelial movement of Na+ and Cl- is normally electroneutral; however, when weak acids (such as acetate) are present in the mucosal solution, the acid-induced increase in flux is accompanied by a large increase in short-circuit current. Besides blockage by bumetanide, both the increase in flux and short-circuit current are blocked by: (1) Na+-free solutions on the mucosa; (2) Cl--free solutions on the mucosa; (3) phosphodiesterase inhibitors; (4) ouabain in the serosal solution; (5) K+-free solutions on the serosa; and (6) HCO3--free solutions on the serosa. The increase in the fluxes and the short-circuit current is unaffected by: (1) amiloride application in the mucosal solution; (2) mucosally applied stilbene derivatives which block Cl-/HCO3- exchange (SITS); and (3) Cl--free solutions applied to the serosa. We interpret these results to imply a coupled Na--Cl uptake step at the apical membrane which is stimulated by intracellular acetate (or (pH). The uptake step leads to a movement of Na+ and Cl- across the basolateral membrane, which is mediated by the Na+, K+-ATPase and a Na/Cl/HCO3- exchange mechanism. Our results demonstrate that "tight" epithelia may, under appropriate circumstances, demonstrate mechanisms of ion movement which are similar to "leaky" epithelia.
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