Radioligand binding to muscarinic receptors of bovine aortic endothelial cells

Abstract

Muscarinic receptors on endothelial cells of bovine thoracic aorta were characterized by binding assays in which (−)‐[³H]‐N‐methyl quinuclidinyl benzilate ([³H]‐NMeQNB) was used as radioligand. Binding of [³H]‐NMeQNB to crude membranes of freshly isolated endothelial cells was atropine‐displaceable and of high affinity (K_D = 0.48 nm) to a single class of sites (maximum binding capacity: 14 ± 3 fmol mg⁻¹ protein). Stereospecificity of the binding sites was demonstrated in experiments in which [³H]‐NMeQNB binding was inhibited by dexetimide in the nanomolar range (K_I = 0.63 nm) and by levetimide, its stereoisomer in the micromolar range (K_I = 3.2 μm) (selectivity factor: ∼5000). Drug competition curves indicated a single class of binding sites for antagonists and the following apparant affinities (K_I, nm): methyl atropine: 1.1; 4‐diphenylacetoxy N‐methyl piperidine methyl bromide (4‐DAMP): 3.4; pirenzepine: 16; 11‐[2‐(diethylamino‐methyl)‐1‐piperidinyl‐acetyl]‐5,11‐dihydro‐6H‐pyrido(2,3‐b)1,4‐benzodiazepine‐6‐one (AF‐DX 116): 2.500. Competition of acetylcholine with [³H]‐NMeQNB was best described by two affinity sites (or states) (K_H = 0.82 μm, K_L = 1.6 μm). In the presence of guanylimido diphosphate [Gpp(NH)p] (100 μm), acetylcholine affinity (IC₅₀) was slightly, but significantly reduced (factor ∼4). Binding of [³H]‐NMeQNB to freshly harvested intact cells was also atropine‐displaceable, stereospecific (selectivity factor: ∼3500) and of high affinity (K_D = 0.35 nm). The maximum binding capacity (9 ± 2 fmol mg⁻¹ total cell protein) was comparable to that of membranes and corresponded to ∼900 binding sites per endothelial cell. Binding to enzymatically harvested and cultured endothelial cells, or membranes derived therefrom, showed no atropine‐displaceable binding. The results suggest that (1) bovine aortic endothelial cells contain muscarinic binding sites with all necessary criteria of functional muscarinic receptors; (2) the receptor most closely corresponds to the M₁ subtype and is of comparatively very low density, and (3) cultured endothelial cells lose their receptors during isolation or culture procedures.