小综述:靶向GPCR激活的ERK通路用于药物发现。

Haifeng Eishingdrelo, Sathapana Kongsamut
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引用次数: 75

摘要

近年来,多种信号转导途径被用于GPCR的激活。GPCRs激活的主要细胞效应物之一是细胞外信号调节激酶(ERK)。g蛋白和β-阻滞蛋白介导的信号通路均可导致ERK活化。然而,根据不同的激活途径,活化的ERK1/2的亚细胞目的地可能不同。g蛋白依赖的ERK激活导致活性ERK易位到细胞核,而通过抑制蛋白依赖机制激活的ERK大部分仍在细胞质中。激活ERK1/2的亚细胞位置决定了下游的信号级联。ERK1/2的许多底物存在于细胞核中:参与基因转录、细胞增殖和分化的核转录因子。ERK1/2底物也存在于细胞质和其他细胞器中:它们可能在翻译、有丝分裂、凋亡和与其他信号通路的串扰中发挥作用。因此,确定由GPCR配体介导的活化ERK1/2的特定亚细胞位置对于将信号通路与细胞生理功能联系起来具有重要意义。虽然gpcr刺激的选择性ERK通路激活已经在几个受体系统中得到了研究,但利用这些不同的信号级联进行治疗还没有得到认真的研究。许多旧的候选药物是基于g蛋白信号分析从筛选中确定的,它们对β-阻滞蛋白信号通路的活性大多是未知的,特别是关于它们的亚细胞ERK通路。随着今天对复杂的GPCR信号通路的了解,药物发现不能再依赖于单一途径的方法。由于ERK活化是一种重要的信号通路,与许多生理功能相关,因此靶向ERK通路,特别是特异性的亚细胞活化通路将为GPCR药物的发现提供新的途径。
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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Minireview: Targeting GPCR Activated ERK Pathways for Drug Discovery.

It has become clear in recent years that multiple signal transduction pathways are employed upon GPCR activation. One of the major cellular effectors activated by GPCRs is extracellular signal-regulated kinase (ERK). Both G-protein and β-arrestin mediated signaling pathways can lead to ERK activation. However, depending on activation pathway, the subcellular destination of activated ERK1/2 may be different. G-protein -dependent ERK activation results in the translocation of active ERK to the nucleus, whereas ERK activated via an arrestin-dependent mechanism remains largely in the cytoplasm. The subcellular location of activated ERK1/2 determines the downstream signaling cascade. Many substrates of ERK1/2 are found in the nucleus: nuclear transcription factors that participate in gene transcription, cell proliferation and differentiation. ERK1/2 substrates are also found in cytosol and other cellular organelles: they may play roles in translation, mitosis, apoptosis and cross-talk with other signaling pathways. Therefore, determining specific subcellular locations of activated ERK1/2 mediated by GPCR ligands would be important in correlating signaling pathways with cellular physiological functions. While GPCR-stimulated selective ERK pathway activation has been studied in several receptor systems, exploitation of these different signaling cascades for therapeutics has not yet been seriously pursued. Many old drug candidates were identified from screens based on G-protein signaling assays, and their activity on β-arrestin signaling pathways being mostly unknown, especially regarding their subcellular ERK pathways. With today's knowledge of complicated GPCR signaling pathways, drug discovery can no longer rely on single-pathway approaches. Since ERK activation is an important signaling pathway and associated with many physiological functions, targeting the ERK pathway, especially specific subcellular activation pathways should provide new avenues for GPCR drug discovery.

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