Regulation of ligand binding to cardiac muscarinic receptors by ammonium ion and guanine nucleotides

Guanine nucleotides and Na⁺ are known to regulate ligand binding to cardiac muscarinic receptors, which are netagively couple to the adenylate cyclase system. In the present study, we found that NH₄⁺ was more potent than Na⁺ or other monovalent cations in regulating the affinity of the muscarinic receptor for agonists and antagonists. The effect of NH₄⁺ (or Na⁺) on the binding of the antagonist ³H]quinuclidinyl benzilate (QNB) to muscarinic receptors in homogenates of embryonic chick hearts depended on the assay buffer used. NH₄⁺ increased K_d in phosphate buffer or histidine and increased B_max in Tris. NH_f4⁺ (0.1 M) increased the IC₅₀ value for actylcholine inhibition of ³H]QNB binding 20-fold compared to 3–4-fold with 0.1 M Na⁺ or K⁺. Furthermore, NH₄⁺ could substitute for and was more potent than Na⁺ in producing synergistic effects with GppNH]p to reduce the affinity of the receptor of acetylcholine. Tris depressed these effects. GppNH]p plus 0.4 M NH₄Cl totally converted the receptor population to a low affinity agonist state and increased the IC₅₀ for acetylcholine by more than 2000-fold. Two conclusions can be made from the present results. First, NH₄⁺ appears to be the most potent effector yet studied of the monovalent cation site of the muscarinic receptor system. Second, the use of Tris in muscarinic receptor ligand binding assays will produce anomalous results concerning the properties of both agonist antagonist binding to the receptor.