Gα protein signaling bias at 5-HT1A receptor.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Rana Alabdali, L. Franchini, C. Orlandi
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Abstract

Serotonin 1A receptor (5-HT1AR) is a clinically relevant target because of its involvement in several central and peripheral functions including sleep, temperature homeostasis, processing of emotions, and response to stress. As a G Protein Coupled Receptor (GPCR) activating numerous Gai/o/z family members, 5-HT1AR can potentially modulate multiple intracellular signaling pathways in response to different therapeutics. Here, we applied a cell-based BRET assay to quantify how ten structurally diverse 5-HT1AR agonists exert biased signaling by differentially stimulating Gai/o/z family members. Our concentration-response analysis of the activation of each Gai/o/z protein revealed unique potency and efficacy profiles of selected agonists when compared to the reference 5-HT. Overall, our analysis of signaling bias identified groups of ligands sharing comparable G protein activation selectivity and also drugs with unique selectivity profiles. We observed, for example, a strong bias of F-15599 toward the activation of Gαi3 that was unique among the agonists tested: we found a biased factor of +2.19 when comparing the activation of Gαi3 versus Gαi2 by F-15599, while it was -0.29 for 8-OH-DPAT. Similarly, vortioxetine showed a biased factor of +1.06 for Gαz versus GαoA, while it was -1.38 for vilazodone. Considering that alternative signaling pathways are regulated downstream of each Ga protein, our data suggest that the unique pharmacological properties of the tested agonists could result in multiple unrelated cellular outcomes. Further investigation is needed to reveal how this type of ligand bias could affect cellular responses and to illuminate molecular mechanisms underlying therapeutic profile and side effects of each drug. Significance Statement Serotonin 1a receptor (5-HT1AR) activates several members of the Gi/o/z protein family. Here, we examined ten structurally diverse and clinically relevant agonists acting on 5-HT1AR and identified distinctive bias patterns among G proteins. Considering the diversity of their intracellular effectors and signaling properties, this data reveal novel mechanisms underlying both therapeutic and undesirable effects.
5-HT1A受体的Gα蛋白信号偏倚。
5-羟色胺1A受体(5-HT1AR)是一个临床相关的靶标,因为它参与一些中枢和外周功能,包括睡眠、温度稳态、情绪处理和应激反应。作为一种G蛋白偶联受体(GPCR), 5-HT1AR可以激活许多Gai/o/z家族成员,在不同的治疗方法下可能调节多种细胞内信号通路。在这里,我们应用基于细胞的BRET分析来量化10种结构不同的5-HT1AR激动剂如何通过不同刺激Gai/o/z家族成员来发挥偏倚信号。我们对每种Gai/o/z蛋白激活的浓度-反应分析显示,与参考5-HT相比,所选择的激动剂具有独特的效力和功效。总的来说,我们对信号偏倚的分析确定了具有相似G蛋白活化选择性的配体群和具有独特选择性谱的药物。例如,我们观察到,F-15599对g - αi3激活的强烈偏倚在测试的激动剂中是独一无二的:我们发现,当比较F-15599对g - αi3和g - αi2的激活时,F-15599的偏倚因子为+2.19,而8-OH-DPAT的偏倚因子为-0.29。同样,沃替西汀对Gαz和GαoA的偏倚因子为+1.06,而对维拉唑酮的偏倚因子为-1.38。考虑到不同的信号通路在每个Ga蛋白的下游受到调节,我们的数据表明,所测试的激动剂的独特药理学特性可能导致多种不相关的细胞结果。需要进一步的研究来揭示这种类型的配体偏倚如何影响细胞反应,并阐明每种药物的治疗特征和副作用的分子机制。5-羟色胺1a受体(5-HT1AR)激活Gi/o/z蛋白家族的几个成员。在这里,我们检查了10种结构多样且临床相关的激动剂作用于5-HT1AR,并确定了G蛋白之间独特的偏倚模式。考虑到它们的细胞内效应物和信号特性的多样性,这些数据揭示了治疗和不良影响的新机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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