对毒蕈碱型M2乙酰胆碱受体具有超生理效能的激动剂。

Agonists with supraphysiological efficacy at the muscarinic M2 ACh receptor.

作者信息

Schrage R, Seemann W K, Klöckner J, Dallanoce C, Racké K, Kostenis E, De Amici M, Holzgrabe U, Mohr K

机构信息

Pharmacology & Toxicology Section, Institute of Pharmacy, University of Bonn, Bonn, Germany.

出版信息

Br J Pharmacol. 2013 May;169(2):357-70. doi: 10.1111/bph.12003.

DOI:10.1111/bph.12003

PMID:23062057

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3651662/

Abstract

BACKGROUND AND PURPOSE

Artificial agonists may have higher efficacy for receptor activation than the physiological agonist. Until now, such 'superagonism' has rarely been reported for GPCRs. Iperoxo is an extremely potent muscarinic receptor agonist. We hypothesized that iperoxo is a 'superagonist'.

EXPERIMENTAL APPROACH

Signalling of iperoxo and newly synthesized structural analogues was compared with that of ACh at label-free M2 muscarinic receptors applying whole cell dynamic mass redistribution, measurement of G-protein activation, evaluation of cell surface agonist binding and computation of operational efficacies.

KEY RESULTS

In CHO-hM2 cells, iperoxo significantly exceeds ACh in Gi /Gs signalling competence. In the orthosteric loss-of-function mutant M2 -Y104(3.33) A, the maximum effect of iperoxo is hardly compromised in contrast to ACh. 'Superagonism' is preserved in the physiological cellular context of MRC-5 human lung fibroblasts. Structure-signalling relationships including iperoxo derivatives with either modified positively charged head group or altered tail suggest that 'superagonism' of iperoxo is mechanistically based on parallel activation of the receptor protein via two orthosteric interaction points.

CONCLUSION AND IMPLICATIONS

Supraphysiological agonist efficacy at muscarinic M2 ACh receptors is demonstrated for the first time. In addition, a possible underlying molecular mechanism of GPCR 'superagonism' is provided. We suggest that iperoxo-like orthosteric GPCR activation is a new avenue towards a novel class of receptor activators.

摘要

背景与目的

人工合成激动剂对受体激活的效力可能高于生理性激动剂。到目前为止，G蛋白偶联受体（GPCRs）的这种“超激动作用”鲜有报道。iperoxo是一种极强效的毒蕈碱受体激动剂。我们推测iperoxo是一种“超激动剂”。

实验方法

在无标记的M2毒蕈碱受体上，应用全细胞动态质量再分布、G蛋白激活测量、细胞表面激动剂结合评估以及操作效力计算，比较iperoxo和新合成的结构类似物与乙酰胆碱（ACh）的信号传导情况。

关键结果

在CHO-hM2细胞中，iperoxo在Gi /Gs信号传导能力上显著超过ACh。在正构功能缺失突变体M2 -Y104(3.33) A中，与ACh相反，iperoxo的最大效应几乎未受影响。在MRC-5人肺成纤维细胞的生理细胞环境中，“超激动作用”得以保留。包括带正电荷头部基团修饰或尾部改变的iperoxo衍生物在内的结构-信号关系表明，iperoxo的“超激动作用”在机制上基于通过两个正构相互作用点对受体蛋白的平行激活。

结论与意义

首次证明了毒蕈碱M2型乙酰胆碱受体存在超生理激动剂效力。此外，还提供了GPCR“超激动作用”可能的潜在分子机制。我们认为，类似iperoxo的正构GPCR激活是通向一类新型受体激活剂的新途径。

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