Direct binding studies on ileal and cardiac muscarinic receptors

Abstract

1 Functional studies have indicated that muscarinic receptors in cardiac tissue differ from those in the ileum. In the present study ileal and cardiac muscarinic receptors identified by [³H]-N-methyl scopolamine ([³H]-NMS) were characterized and the selectivity of currently available ileal and atrial selective antagonists determined. 2 In terms of the current functional classification of muscarinic receptors both ileal and cardiac muscarinic receptors were of the M₂ subtype based upon their low affinity for pirenzepine. 3 Cyclohexylphenyl(2-piperidinoethyl)silanol (CPPS), a highly ileal selective antagonist in functional studies, was unable to distinguish between ileal and atrial muscarinic receptors identified in binding studies. Furthermore, although AF-DX 116 and dicyclomine were able to differentiate atrial and ileal muscarinic receptors, neither compound was more than 2 fold selective. These data indicate that it is not possible to subclassify ileal and atrial muscarinic receptors using direct ligand binding studies with these antagonists. 4 In circular ileal smooth muscle, apparent heterogeneity of the M₂ muscarinic receptor population was observed. Thus AF-DX 116 identified two populations of sites with affinities differing by 30 fold. These two populations of M₂ muscarinic receptors may represent the typical M₂ muscarinic receptors identified in cardiac tissue and the more recently discovered ‘gland type’ M₂ muscarinic receptors. 5 The circular ileal smooth muscle tissue homogenate was able to decrease dramatically the apparent affinity of adiphenine. This activity, which appeared to result from a phenylmethylsulphonylfluoride (PMSF) sensitive protease effect, should be considered when conducting studies using this tissue preparation and compounds of similar structure to adiphenine.