Receptor binding of pancreatic spasmolytic polypeptide in intestinal mucosal cells and membranes

Abstract

Rat intestinal mucosal cells contain receptors for pancreatic spasmolytic polypeptide (PSP). The binding of 125I-PSP was rapid, saturable, reversible and specific. PSP competed with 125I-PSP for binding to the receptors and 10 −7 M of PSP half-maximally inhibited 125I-PSP binding. The normalized PSP dose-response graphs in intact cells and crude membranes were superimposable. Scatchard plots of PSP binding to membranes were curvilinear, indicating multiple classes of binding sites, negative cooperative interaction between sites or a combination of both. PSP increased the rate of dissociation of the 125I-PSP-receptor complex compared to the rate observed by dilution only, thus giving evidence that negative cooperative interaction may occur between PSP binding sites. The half-life of the fast dissociating complex was about 1.5 min and that of the slow dissociating complex 38 min. These values were independent of the receptor occupancy. The increased rate of dissociation at high receptor occupancy stemmed from a shift in the ratio of the pool sizes of fast and slow dissociating receptor complexes.