Photoaffinity labeling of rat pancreatic cholecystokinin type A receptor antagonist binding sites demonstrates the presence of a truncated cholecystokinin type A receptor.

During the past few years, several antagonist ligands for cholecystokinin (CCK) receptors have been discovered, but the mechanism of action of these candidate drugs, as well as the nature of their molecular targets, remains poorly documented. In a previous study, we developed a new antagonist radioligand, 125I-Bolton-Hunter-labeled JMV-179, for the CCK-A receptor (CCK-AR), to analyze CCK antagonist binding sites in pancreatic plasma membranes. We found that 125I-Bolton-Hunter-labeled JMV-179 identified 4 times as many sites as did an agonist radioligand, although agonists were able to interact competitively with the entire population of antagonist sites. In the present work, using biochemical approaches we have identified and characterized CCK antagonist binding sites in pancreatic plasma membranes. We synthesized the photoactivable antagonist probe 125I-azidosalicyclic acid (ASA)-JMV-179. The binding of 125I-ASA-JMV-179 to plasma membranes was inhibited by JMV-179 (IC50, 6 +/- 2 nM), by (Thr28, Ahx31)-CCK-25-33 (IC50, 1.2 +/- 0.5 nM), and by the nonpeptide CCK-AR antagonist L-364,718 (IC50, 2 +/- 1 nM). Photoaffinity labeling using pancreatic membranes or acini demonstrated that 125I-ASA-JMV-179 detected a new 47-50-kDa protein in addition to the 85-100-kDa CCK-AR. The 47-50-kDa protein was not directly detected by a photoactivable agonist, but agonists could inhibit its covalent labeling by 125I-ASA-JMV-179 (IC50 for (Thr28,Ahx31)-CCK-25-33, 15 nM). In competition assays using nonsolubilized or solubilized membranes, this protein displayed binding features of the CCK-AR and was retained on immobilized wheat germ agglutinin, as was the CCK-AR. To further characterize the 47-50-kDa protein, deglycosylation and protease digestions were performed, and the digestion products were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Protease digestions of both the CCK-AR and the 47-50-kDa protein yielded identical labeled fragments, demonstrating a structural relationship between the two proteins. The CCK-AR, which has three potential sites for N-glycosylation on the amino-terminal extracellular domain and one on the second extracytoplasmic loop, was deglycosylated to a 42-kDa peptide. The 47-50-kDa protein was deglycosylated to a 35-kDa peptide. These data, and the localization of the labeled fragments in the amino acid sequence of the receptor, suggest that the 47-50-kDa protein represents a CCK-AR lacking its amino-terminal extracellular domain.(ABSTRACT TRUNCATED AT 400 WORDS)

Biochemical characterization of a subtype pancreatic cholecystokinin receptor and of its agonist binding domain.

This study was undertaken in order to improve photoaffinity labelling efficiency of pancreatic cholecystokinin receptor by the cleavable probe 125I-ASD-(Thr28,Ahx31)-CCK-25-33 and to further characterize the denaturated receptor and its agonist binding domain. Membrane bound pancreatic cholecystokinin receptor was specifically labelled by 125I-ASD-(Thr28,Ahx31)-CCK-25-33 as a component of Mr approximately 85,000-100,000. The efficiency of the photolabelling was 3-4%. Performing photolysis on [125I-ASD-(Thr28,Ahx31)-CCK-25-33-receptor] complexes solubilized by CHAPS did not affect specificity of the labelling reaction but enhanced its efficiency so that up to 10% of the receptor site population could be cross-linked. Several lectins were tested for their ability to recognize and purify the cholecystokinin receptor denaturated by Nonidet P-40. Wheat germ agglutinin provided the best recovery and purification rate. The receptor was fully adsorbed on immobilized wheat germ agglutinin, while only a fraction was retained on ricin II (28%) and Ulex europaeus (58%), thus suggesting that the receptor is heterogeneously glycosylated. Finally, major labelled receptor fragments were generated by enzymatic digestion. There were: endoproteinase Glu-C----Mr approximately 34,000; endoproteinase Glu-C/trypsin----Mr approximately 12,000; chymotrypsin/endoproteinase Glu-C----Mr approximately 16,000 and 12,000. The fragment of Mr approximately 34,000 was deglycosylated to a component of Mr approximately 22,000 whereas the other fragments were insensitive to deglycosylation Such results strongly suggest that cholecystokinin binding occurs in a non-glycosylated domain of the cholecystokinin receptor protein.