Effect of norepinephrine on intracellular pH in kidney proximal tubule: role of Na+-(HCO-3)n cotransport

Abstract

We examined the effect of norepinephrine (NE) on intracellular pH (pHi) and activity of Na+ (aNai) in the isolated perfused kidney proximal tubule of Ambystoma, using single-barreled voltage and ion-selective microelectrodes. In control HCO-3 Ringer, addition of 10(-6) M NE to the bath reversibly depolarized the basolateral membrane potential (V1), the luminal membrane potential (V2), and the transepithelial potential difference (V3) and increased pHi by 0. 14 +/- 0.02. These effects were mimicked by isoproterenol but were abolished after pretreatment with SITS or in the absence of CO2/HCO-3. Removal of bath Na+ depolarized V1 and V2, hyperpolarized V3, and decreased pHi. These effects are largely mediated by the electrogenic Na+-(HCO-3)n cotransporter. In the presence of NE, the effects of Na+ removal on membrane potential differences and the rate of change of pHi were significantly smaller. Reducing bath HCO-3 concentration from 10 to 2 mM at constant CO2 (pH 6.8) depolarized V1 and V2, decreased pHi, and lowered aNai. These changes are also due to Na+-(HCO-3)n. In the presence of NE, reducing bath [HCO-3] caused a smaller depolarizations of V1 and V2, and the rate of pHi decrease was significantly reduced. Our results indicate: 1) NE causes an increase in pHi; 2) the NE-induced alkalinization is mediated by a SITS-sensitive and HCO-3-dependent transporter on the basolateral membrane; and 3) in the presence of NE, the reduced effects caused by basolateral HCO-3 changes or Na+ removal are indicative of an inhibitory effect of NE on Na+-(HCO-3)n cotransport.