Gillard M, Waelbroeck M, Christophe J
Mol Pharmacol. 1987 Jul;32(1):100-8.
We compared the binding characteristics of muscarinic receptors labeled by [3H]oxotremorine-M ([3H]oxo-M) in homogenates of brain cortex and heart from rat. In both tissues [3H]oxo-M bound, with the same KD (6.5 nM), to a fraction of the receptors labeled by [3H]-N-methylscopolamine ([3H]NMS). This [3H]oxo-M receptor population represented, respectively, 15-20% and 35-40% of the total number of [3H]NMS receptors in cortex and heart. The three unlabeled agonists oxotremorine, carbamylcholine, and pilocarpine, when tested in competition with [3H]oxo-M, displayed a homogeneous super high affinity toward [3H]oxo-M-labeled receptors, and were unable to discriminate between brain and heart receptors labeled by [3H]oxo-M. By contrast, selective muscarinic antagonists showed some selectivity for either brain or heart [3H]oxo-M-labeled receptors. We analyzed competition curves between [3H]oxo-M and secoverine, pirenzepine, AF-DX 116, dicyclomine, or gallamine, assuming the existence of one or two receptor subclasses. Heart muscarinic receptors labeled by [3H]oxo-M were homogeneous M2 receptors of the C type with very low affinity for pirenzepine (Ki = 400 nM). Brain [3H]oxo-M-labeled receptors were heterogeneous receptors, with 30% (the B type) having a higher affinity for dicyclomine and a lower affinity for AF-DX 116 and gallamine than cardiac receptors, whereas the remaining 70% (the C type) showed "cardiac-like" binding properties. Both [3H]oxo-M-labeled subtypes in cortex homogenates had a low affinity for pirenzepine, indicating that [3H]oxo-M labeled only B and C (M2) receptors in this tissue. GTP inhibited completely [3H]oxo-M binding in heart homogenates with an IC50 at 300 nM. In cortex homogenates, GTP showed the same potency, but its efficacy was much lower (with only 30% maximal inhibition). [3H]oxo-M dissociation kinetics were monophasic in heart homogenates and biphasic in cortex homogenates. [3H]oxo-M dissociation from both tissues was slowed by gallamine and d-tubocurarine and accelerated by GTP. We found no correlation between B versus C [3H]oxo-M receptors, GTP-sensitive versus GTP-insensitive receptors, and rapidly versus slowly dissociating receptors, suggesting that [3H] oxo-M labeled a large variety of muscarinic receptor-regulatory protein complexes, all having an SH affinity for agonists.
我们比较了用[3H]氧代震颤素-M([3H]oxo-M)标记的毒蕈碱受体在大鼠大脑皮层和心脏匀浆中的结合特性。在这两种组织中,[3H]oxo-M以相同的解离常数(KD = 6.5 nM)与一部分用[3H]-N-甲基东莨菪碱([3H]NMS)标记的受体结合。该[3H]oxo-M受体群体分别占皮层和心脏中[3H]NMS受体总数的15%-20%和35%-40%。当与[3H]oxo-M竞争测试时,三种未标记的激动剂氧代震颤素、氨甲酰胆碱和毛果芸香碱对[3H]oxo-M标记的受体表现出均一的超高亲和力,并且无法区分大脑和心脏中由[3H]oxo-M标记的受体。相比之下,选择性毒蕈碱拮抗剂对大脑或心脏中[3H]oxo-M标记的受体表现出一定的选择性。我们分析了[3H]oxo-M与西维美林、哌仑西平、AF-DX 116、双环维林或加拉明之间的竞争曲线,假设存在一个或两个受体亚类。用[3H]oxo-M标记的心脏毒蕈碱受体是C型的均一M2受体,对哌仑西平的亲和力非常低(Ki = 400 nM)。大脑中[3H]oxo-M标记的受体是异质受体,其中30%(B型)对双环维林的亲和力较高,对AF-DX 116和加拉明的亲和力低于心脏受体,而其余70%(C型)表现出“类似心脏”的结合特性。皮层匀浆中两种[3H]oxo-M标记的亚型对哌仑西平的亲和力都很低,表明[3H]oxo-M在该组织中仅标记了B和C(M2)受体。GTP完全抑制心脏匀浆中[3H]oxo-M的结合,IC50为300 nM。在皮层匀浆中,GTP表现出相同的效力,但其效能要低得多(最大抑制仅为30%)。[3H]oxo-M的解离动力学在心脏匀浆中是单相的,在皮层匀浆中是双相的。加拉明和d-筒箭毒碱减慢了[3H]oxo-M从两种组织中的解离,而GTP加速了这种解离。我们发现B型与C型[3H]oxo-M受体、GTP敏感型与GTP不敏感型受体以及快速解离型与缓慢解离型受体之间没有相关性,这表明[3H]oxo-M标记了多种毒蕈碱受体-调节蛋白复合物,所有这些复合物对激动剂都具有SH亲和力。
