Inhibition of bicarbonate reabsorption in the rat proximal tubule by activation of luminal P2Y1receptors

Abstract

The present study used a stationary microperfusion technique to investigate in vivo the effect of P2Y₁receptor activation on bicarbonate reabsorption in the rat proximal tubule. Proximal tubules were perfused with a bicarbonate Ringer solution before flow was stopped by means of an oil block. The recovery of lumen pH from the initial value (pH 8.0) to stationary values (pH ∼6.7) was recorded by a H⁺-sensitive microelectrode inserted downstream of the perfusion pipette and oil block. The stationary pH value and the t of pH recovery were used to calculate bicarbonate reabsorption ( J_HCO3). Both EIPA and bafilomycin A1 caused significant reductions in proximal tubule J_HCO3, consistent with the established contributions of Na/H exchange and H⁺-ATPase to proximal tubule HCO₃reabsorption. The nucleotides ADP and, to a lesser extent, ATP reduced J_HCO3but AMP and UTP were without effect. 2MeSADP, a highly selective agonist of the P2Y₁receptor, reduced J_HCO3in a dose-dependent manner. MRS-2179, a P2Y₁receptor-specific antagonist, abolished the effect of 2MeSADP, whereas theophylline, an antagonist of adenosine (P1) receptors, did not. The inhibitory action of 2MeSADP was blocked by inhibition of protein kinase C and reduced by inhibition of protein kinase A. The effects of EIPA and 2MeSADP were not additive. The data provide functional evidence for P2Y₁receptors in the apical membrane of the rat proximal tubule: receptor activation impairs acidification in this nephron segment.