Identification and localization of 5-HT1P receptors in the guinea pig pancreas

Abstract

Enteropancreatic 5-hydroxytryptamine (5-HT)-immunoreactive nerve fibers have recently been described. To test the hypothesis that pancreas contains 5-HT receptors similar to those that characterize the enteric nervous system, binding of 5-[3H]HT to pancreatic membranes was investigated. Membranes were prepared by differential centrifugation from guinea pig pancreas, and binding of 5-[3H]HT was measured by use of a rapid filtration assay. Alternatively, 5-[3H]HT-binding sites were analyzed and located by radioautography on frozen sections of unfixed pancreas. The 5-HT1P receptor-specific antagonist, N-acetyl-5-hydroxytryptophyl-5-hydroxytryptophan amide (5-HTP-DP), was used to define nonspecific binding in all assays. High-affinity reversible binding of 5-[3H]HT to pancreatic membranes was found. Good agreement was observed when Kd was determined from saturation isotherms (Kd = 2.1 +/- 0.4 nM; Bmax = 0.6 +/- 0.07 pmol/mg protein) or from the ratio of association and dissociation constants (2.7 +/- 0.04 nM). As is true of 5-[3H]HT binding to enteric 5-HT1P receptors, binding of 5-[3H]HT to pancreatic membranes was inhibited by 5-HTP-DP, 5- and 6-hydroxyindalpine (agonists at 5-HT1P receptors), and guanine nucleotides. In contrast, binding of 5-[3H]HT to pancreatic membranes was not inhibited by a variety of compounds known to bind to other types of 5-HT receptor, to the neuronal 5-HT transporter, to alpha- or beta-adrenoceptors, or to dopamine receptors. We concluded that pancreas contains 5-HT1P receptors with properties similar to those of bowel. Radioautography and immunocytochemistry with an anti-idiotypic antibody that recognizes 5-HT receptors revealed that pancreatic 5-HT1P receptors (identified with appropriate inhibitors of 5-[3H]HT or antibody binding) were concentrated in ganglia, nerves, and unidentified cells in both exocrine and endocrine pancreas. These observations suggest that future studies of 5-HT's role in pancreatic physiology should concentrate on enteropancreatic innervation and 5-HT1P receptors.