Characterization of [3H]AF-DX 116 binding sites in the rat brain: Evidence for heterogeneity of muscarinic-M2 receptor sites

Abstract

This study shows that [³H]AF-DX 116 binds specifically, saturably, and with high affinity to putative muscarinic-M2 receptor sites in the rat brain. In homogenates of the hippocampus, cerebral cortex, striatum, thalamus, and cerebellum, [³H]AF-DX 116 appears to bind two subpopulations of muscarinic sites: one class of higher affinity sites (K_d < 4.0 nM) and one class of lower affinity sites (K_d > 50 nM, except in the cerebellum). The apparent maximal capacities (B_max) of [³H]AF-DX 116 sites in forebrain tissues ranged between 34 and 69 fmol/mg protein for the higher affinity site, and between 197 and 451 fmol/mg protein for the lower affinity site. In cerebellar homogenates, the maximal capacity of [³H]AF-DX 116 binding sites was 10.4 ± 0.4 (K_d = 1.9 ± 0.2 nM) and 39.1 ± 2.6 (K_d = 26 ± 7 nM) fmol/mg protein for the higher and the lower affinity site, respectively. Determination of the K_d for the higher and lower affinity [³H]AF-DX 116 sites from association and dissociation constants yielded similar values to those obtained from the saturation data. The ligand selectivity pattern reveals that AF-DX 116 is more potent than (–)QNB > atropine > methoctramine > 4-DAMP > gallamine > NMS > carbamylcholine > oxotremorine > pirenzepine > > nicotine in competing for the higher affinity [³H]AF-DX 116 sites. With few exceptions, the pattern was similar for the lower affinity sites. For example, (–)QNB was more potent than AF-DX 116 and pirenzepine was more potent than either oxotremorine or 4-DAMP at the lower affinity [³H]AF-DX 116 sites. In addition, pirenzepine was modestly more potent at the lower compared to the higher affinity sites. Neither the higher nor the lower affinity [³H]AF-DX 116 sites were sensitive to the effects of Gpp(NH)p or N-ethylmaleimide. In addition, the carbamylcholine-induced inhibition of [³H]AF-DX 116 binding to the higher and the lower affinity sites was altered by Gpp(NH)p and NEM, to a similar extent. However, Gpp(NH)p decreased the affinity of carbamylcholine (i.e., increased the IC₅₀), whereas N-ethylmaleimide had the opposite effect. Furthermore, N-ethylmaleimide also appeared to steepen the curve for the carbamylcholine-induced inhibition of [³H]AF-DX 116 binding, as evidenced by the increased n^H. Thus it appears that [³H]AF-DX 116 binds to two subsets of muscarinic-M2 receptors in the rat brain, which can be differentiated by their affinity for certain agonists and antagonists.