Department of Pharmacology, Centro de Investigación Biomédica en Red de Salud Mental, University of the Basque Country UPV/EHU CIBERSAM, 48940, Leioa, Bizkaia, Spain.
Biocruces Bizkaia Health Research Institute, Barakaldo, Bizkaia, Spain.
Pharmacol Rep. 2021 Aug;73(4):1079-1095. doi: 10.1007/s43440-021-00253-z. Epub 2021 Apr 20.
G-protein-coupled receptors (GPCRs) have an enormous biochemical importance as they bind to diverse extracellular ligands and regulate a variety of physiological and pathological responses. G-protein activation measures the functional consequence of receptor occupancy at one of the earliest receptor-mediated events. Receptor coupling to G-proteins promotes the GDP/GTP exchange on Gα subunits. Thus, modulation of the binding of the poorly hydrolysable GTP analog [S]GTPγS to the Gα-protein subunit can be used as a functional approach to quantify GPCR interaction with agonist, antagonist or inverse agonist drugs. In order to determine receptor-mediated selective activation of the different Gα-proteins, [S]GTPγS binding assays combined with immunodetection by specific antibodies have been developed and applied to physiological and pathological brain conditions. Currently, immunoprecipitation with magnetic beads and scintillation proximity assays are the most habitual techniques for this purpose. The present review summarizes the different procedures, advantages and limitations of the [S]GTPγS binding assays combined with selective Gα-protein sequestration methods. Experience of functional coupling of several GPCRs to different Gα-proteins and recommendations for optimal performance in brain membranes are described. One of the biggest opportunities opened by these techniques is that they enable evaluation of biased agonism in the native tissue, which results in high interest in drug discovery. The available results derived from application of these functional methodologies to study GPCR dysfunctions in neuro-psychiatric disorders are also described. In conclusion, [S]GTPγS binding combined with antibody-mediated immunodetection represents an useful method to separately evaluate the functional activity of drugs acting on GPCRs over each Gα-protein subtype.
G 蛋白偶联受体(GPCRs)具有巨大的生化重要性,因为它们与多种细胞外配体结合,并调节各种生理和病理反应。G 蛋白的激活测量了受体占据的功能后果之一,即在最早的受体介导事件之一。受体与 G 蛋白偶联促进 Gα 亚基上 GDP/GTP 的交换。因此,调节与 Gα-蛋白亚基结合的难水解 GTP 类似物 [S]GTPγS 的结合可以用作定量 GPCR 与激动剂、拮抗剂或反向激动剂药物相互作用的功能方法。为了确定受体介导的不同 Gα-蛋白的选择性激活,已经开发并应用了 [S]GTPγS 结合测定法与特异性抗体的免疫检测相结合,用于生理和病理脑条件。目前,免疫沉淀与磁珠和闪烁接近测定法是最常用的技术。本综述总结了 [S]GTPγS 结合测定法与选择性 Gα-蛋白隔离方法相结合的不同程序、优点和局限性。描述了几种 GPCR 与不同 Gα-蛋白的功能偶联的经验以及在脑膜中获得最佳性能的建议。这些技术带来的最大机会之一是,它们能够在天然组织中评估偏向激动作用,这导致在药物发现方面产生了浓厚的兴趣。还描述了应用这些功能方法学研究神经精神障碍中 GPCR 功能障碍的可用结果。总之,[S]GTPγS 结合与抗体介导的免疫检测相结合代表了一种有用的方法,可以分别评估作用于 GPCR 的药物对每种 Gα-蛋白亚型的功能活性。
