Oleic acid interacts with GPR40 to induce Ca2+signaling in rat islet β-cells: mediation by PLC and L-type Ca2+channel and link to insulin release

Abstract

It has long been thought that long-chain free fatty acids (FFAs) stimulate insulin secretion via mechanisms involving their metabolism in pancreatic β-cells. Recently, it was reported that FFAs function as endogenous ligands for GPR40, a G protein-coupled receptor, to amplify glucose-stimulated insulin secretion in an insulinoma cell line and rat islets. However, signal transduction mechanisms for GPR40 in β-cells are little known. The present study was aimed at elucidating GPR40-linked Ca2+signaling mechanisms in rat pancreatic β-cells. We employed oleic acid (OA), an FFA that has a high affinity for the rat GPR40, and examined its effect on cytosolic Ca2+concentration ([Ca2+]i) in single β-cells by fura 2 fluorescence imaging. OA at 1–10 μM concentration-dependently increased [Ca2+]iin the presence of 5.6, 8.3, and 11.2 mM, but not 2.8 mM, glucose. OA-induced [Ca2+]iincreases at 11.2 mM glucose were inhibited in β-cells transfected with small interfering RNA targeted to rat GPR40 mRNA. OA-induced [Ca2+]iincreases were also inhibited by phospholipase C (PLC) inhibitors, U73122 and neomycin, Ca2+-free conditions, and an L-type Ca2+channel blocker, nitrendipine. Furthermore, OA increased insulin release from isolated islets at 8.3 mM glucose, and it was markedly attenuated by PLC and L-type Ca2+channel inhibitors. These results demonstrate that OA interacts with GPR40 to increase [Ca2+]ivia PLC- and L-type Ca2+channel-mediated pathway in rat islet β-cells, which may be link to insulin release.