IDENTIFICATION OF A PROSTACYCLIN RECEPTOR COUPLED TO THE ADENYLATE-CYCLASE SYSTEM VIA A STIMULATORY GTP-BINDING PROTEIN IN MOUSE MASTOCYTOMA P-815 CELLS

A stable analogue of prostacyclin, iloprost, specifically bound to 30,000 x g pellet (the membrane fraction) prepared from mouse mastocytoma P-815 cells. The binding was dependent on time, temperature and pH, and absolutely required a divalent cation. The equilibrium dissociation constant and the maximal concentration of the binding site as determined by Scatchard plot analysis were 10.4 nM and 1.12 pmol/mg of protein, respectively. The Hill coefficient was 1.0, indicating a single entity of binding site and no cooperativity. The binding site was highly specific for iloprost among PGs tested (iloprost > PGE1 > carbacyclin > PGE2). In contrast, the membrane fraction had the binding site specific for PGE2 and PGE1, which was distinct from the prostacyclin receptor. The dissociation of bound [3H]iloprost from the membrane fraction was specifically enhanced by guanine nucleotides. Furthermore, iloprost dose-dependently enhanced the activity of adenylate cyclase in a GTP-dependent manner. These results indicate that a specific prostacyclin receptor is coupled to the adenylate cyclase system via a stimulatory GTP-binding protein in mastocytoma cells. © 1990.