Glucagon acts through its own receptors in the presence of functional glucagon-like peptide-1 receptors on hamster insulinoma

Abstract

The observations that glucagon binds to glucagon-like peptide-1 (tGLP- 1) receptors have raised the question of whether glucagon receptors mediate the insulinotropic effect of glucagon. We have investigated the presence and selective activation of glucagon and tGLP-1 receptors on tumor-derived cells. Northern blot analysis detected either glucagon or tGLP-1 receptor messenger RNA in hamster (HIT) and mouse (βTC3) β-cell lines, respectively, whereas both receptor messenger RNA were revealed in Syrian hamster insulinoma. Their expression in insulinoma plasma membranes was confirmed by specific covalent labeling with either [125I]glucagon or [125I]tGLP-1. Both glucagon and tGLP-1 receptors showed a single class of high affinity binding sites with respective K(d) values of 1.11 ± 0.11 and 0.82 ± 0.11 nM. [125I]tGLP binding was dose dependently inhibited with a hierarchy of exendin-4 > tGLP- 1 > exendin-(9-39) > oxyntomodulin > glucagon. [125I]Glucagon binding was only inhibited by glucagon and oxyntomodulin. Both glucagon and tGLP-1 increased cAMP formation in insulinoma plasma membranes in a dose-dependent manner, with ED50 values of 170.0 ± 25.0 and 3.1 ± 0.4 pM, respectively. Exendin-(9-39), a tGLP-1 receptor antagonist, inhibited tGLP-1-induced, but not glucagon-induced, cAMP formation. Our data demonstrate on hamster insulinoma the presence of high affinity glucagon and tGLP-1 receptors selectively coupled to adenylyl cyclase. The observed low affinity of tGLP-1 receptors for glucagon sustains the idea that each hormone has a direct insulinotropic effect.