P2Y receptors mediate Ca2+signaling in duodenocytes and contribute to duodenal mucosal bicarbonate secretion

Abstract

Since little is known about the role of P2Y receptors (purinoceptors) in duodenal mucosal bicarbonate secretion (DMBS), we sought to investigate the expression and function of these receptors in duodenal epithelium. Expression of P2Y2receptors was detected by RT-PCR in mouse duodenal epithelium and SCBN cells, a duodenal epithelial cell line. UTP, a P2Y2-receptor agonist, but not ADP (10 μM), significantly induced murine duodenal short-circuit current and DMBS in vitro; these responses were abolished by suramin (300 μM), a P2Y-receptor antagonist, or 2-aminoethoxydiphenyl borate (2-APB; 100 μM), a store-operated channel blocker. Mucosal or serosal addition of UTP induced a comparable DMBS in wild-type mice, but markedly impaired response occurred in P2Y2knockout mice. Acid-stimulated DMBS in vivo was significantly inhibited by suramin (1 mM) or PPADS (30 μM). Both ATP and UTP, but not ADP (1 μM), raised cytoplasmic-free Ca2+concentrations ([Ca2+]cyt) with similar potencies in SCBN cells. ATP-induced [Ca2+]cytwas attenuated by U-73122 (10 μM), La3+(30 μM), or 2-APB (10 μM), but was not significantly affected by nifedipine (10 μM). UTP (1 μM) induced a [Ca2+]cyttransient in Ca2+-free solutions, and restoration of external Ca2+(2 mM) raised [Ca2+]cytdue to capacitative Ca2+entry. La3+(30 μM), SK&F96365 (30 μM), and 2-APB (10 μM) inhibited UTP-induced Ca2+entry by 92, 87, and 94%, respectively. Taken together, our results imply that activation of P2Y2receptors enhances DMBS via elevation of [Ca2+]cytthat likely results from an initial increase in intracellular Ca2+release followed by extracellular Ca2+entry via store-operated channel.