哌仑西平对M2毒蕈碱型乙酰胆碱受体的反向激动剂活性。
Inverse agonist activity of pirenzepine at M2 muscarinic acetylcholine receptors.
作者信息
Daeffler L, Schmidlin F, Gies J P, Landry Y
机构信息
Laboratoire de Neuroimmunopharmacologie, INSERM U 425, Faculté de Pharmacie, Université Strasbourg I, Illkirch, France.
出版信息
Br J Pharmacol. 1999 Mar;126(5):1246-52. doi: 10.1038/sj.bjp.0702407.
Abstract
- The intrinsic properties of muscarinic ligands were studied through their binding properties and their abilities to modulate the GTPase activity of G proteins coupled to muscarinic M2 receptors in pig atrial sarcolemma. 2. Competition binding experiments were performed with [3H]-oxotremorine-M to assess the affinity of receptors coupled to G proteins (R*), with [3H]-N-methylscopolamine ([3H]-NMS) to estimate the affinities of coupled and uncoupled receptors (R*+R) and with [3H]-NMS in the presence of GppNHp to assess the affinity of uncoupled receptors (R). 3. The ranking of Ki values for the agonist carbachol was R*<<R*+R<<R (0.95, 124 and 1017 nM). Ki values for atropine and AF-DX 116 were similar for the three binding conditions (0.34, 0.42, 0.41 and 19, 22, 32 nM). The ranking of Ki values for pirenzepine was R*>R*+R>R (174, 155, 115 nM), suggesting inverse agonism. 4. The Vmax of the basal high affinity GTPase activity of pig atrial sarcolemma was increased by mastoparan and decreased by GPAnt-2 indicating the relevance of this activity to G proteins coupled to receptors (R*). The K(M) value (0.26-0.33 microM) was not modified by mastoparan or GPAnt-2. 5. Carbachol increased the Vmax of GTP hydrolysis (EC50 8.1+/-0.3 microM), whereas atropine and AF-DX 116, up to 1 mM, did not modify it. Pirenzepine decreased the Vmax of GTP hydrolysis (EC50 77.5+/-10.3 microM). This effect was enhanced when KCI was substituted for NaCl (EC50 11.0+/-0.8 microM) and was antagonized by atropine and AF-DX 116 (IC50 0.91+/-0.71 and 197+/-85 nM). 6. Pirenzepine is proposed as an inverse agonist and atropine and AF-DX 116 as neutral antagonists at the muscarinic M2 receptor.
摘要
- 通过毒蕈碱配体的结合特性及其调节与猪心房肌膜中毒蕈碱M2受体偶联的G蛋白GTP酶活性的能力,研究了其内在特性。2. 用[3H]-氧代震颤素-M进行竞争结合实验,以评估与G蛋白偶联的受体(R*)的亲和力,用[3H]-N-甲基东莨菪碱([3H]-NMS)估计偶联和未偶联受体(R*+R)的亲和力,并在GppNHp存在下用[3H]-NMS评估未偶联受体(R)的亲和力。3. 激动剂卡巴胆碱的Ki值排序为R*<<R*+R<<R(0.95、124和1017 nM)。阿托品和AF-DX 116在三种结合条件下的Ki值相似(0.34、0.42、0.41和19、22、32 nM)。哌仑西平的Ki值排序为R*>R*+R>R(174、155、115 nM),表明存在反向激动作用。4. 猪心房肌膜基础高亲和力GTP酶活性的Vmax被马斯托帕兰增加,被GPAnt-2降低,表明该活性与受体偶联的G蛋白(R*)相关。K(M)值(0.26 - 0.33 microM)未被马斯托帕兰或GPAnt-2改变。5. 卡巴胆碱增加了GTP水解的Vmax(EC50 8.1±0.3 microM),而阿托品和AF-DX 116在高达1 mM时未对其产生改变。哌仑西平降低了GTP水解的Vmax(EC50 77.5±10.3 microM)。当用KCl替代NaCl时,这种作用增强(EC50 11.0±0.8 microM),并被阿托品和AF-DX 116拮抗(IC50 0.91±0.71和197±85 nM)。6. 哌仑西平被认为是毒蕈碱M2受体的反向激动剂,阿托品和AF-DX 116是中性拮抗剂。
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