Multiple functions of G protein-coupled receptor kinases.

Q2 Biochemistry, Genetics and Molecular Biology
Kenji Watari, Michio Nakaya, Hitoshi Kurose
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引用次数: 81

Abstract

Desensitization is a physiological feedback mechanism that blocks detrimental effects of persistent stimulation. G protein-coupled receptor kinase 2 (GRK2) was originally identified as the kinase that mediates G protein-coupled receptor (GPCR) desensitization. Subsequent studies revealed that GRK is a family composed of seven isoforms (GRK1-GRK7). Each GRK shows a differential expression pattern. GRK1, GRK4, and GRK7 are expressed in limited tissues. In contrast, GRK2, GRK3, GRK5, and GRK6 are ubiquitously expressed throughout the body. The roles of GRKs in GPCR desensitization are well established. When GPCRs are activated by their agonists, GRKs phosphorylate serine/threonine residues in the intracellular loops and the carboxyl-termini of GPCRs. Phosphorylation promotes translocation of β-arrestins to the receptors and inhibits further G protein activation by interrupting receptor-G protein coupling. The binding of β-arrestins to the receptors also helps to promote receptor internalization by clathrin-coated pits. Thus, the GRK-catalyzed phosphorylation and subsequent binding of β-arrestin to GPCRs are believed to be the common mechanism of GPCR desensitization and internalization. Recent studies have revealed that GRKs are also involved in the β-arrestin-mediated signaling pathway. The GRK-mediated phosphorylation of the receptors plays opposite roles in conventional G protein- and β-arrestin-mediated signaling. The GRK-catalyzed phosphorylation of the receptors results in decreased G protein-mediated signaling, but it is necessary for β-arrestin-mediated signaling. Agonists that selectively activate GRK/β-arrestin-dependent signaling without affecting G protein signaling are known as β-arrestin-biased agonists. Biased agonists are expected to have potential therapeutic benefits for various diseases due to their selective activation of favorable physiological responses or avoidance of the side effects of drugs. Furthermore, GRKs are recognized as signaling mediators that are independent of either G protein- or β-arrestin-mediated pathways. GRKs can phosphorylate non-GPCR substrates, and this is found to be involved in various physiological responses, such as cell motility, development, and inflammation. In addition to these effects, our group revealed that GRK6 expressed in macrophages mediates the removal of apoptotic cells (engulfment) in a kinase activity-dependent manner. These studies revealed that GRKs block excess stimulus and also induce cellular responses. Here, we summarized the involvement of GRKs in β-arrestin-mediated and G protein-independent signaling pathways.

Abstract Image

Abstract Image

G蛋白偶联受体激酶的多种功能。
脱敏是一种生理反馈机制,可以阻止持续刺激的有害影响。G蛋白偶联受体激酶2 (GRK2)最初被确定为介导G蛋白偶联受体(GPCR)脱敏的激酶。随后的研究发现,GRK是一个由七个亚型(GRK1-GRK7)组成的家族。每个GRK表现出不同的表达模式。GRK1、GRK4和GRK7在有限的组织中表达。相反,GRK2、GRK3、GRK5和GRK6在机体中普遍表达。GRKs在GPCR脱敏中的作用已经得到了很好的证实。当gpcr被它们的激动剂激活时,GRKs磷酸化gpcr胞内环和羧基末端的丝氨酸/苏氨酸残基。磷酸化促进β-阻滞蛋白向受体的易位,并通过中断受体-G蛋白偶联抑制G蛋白的进一步活化。β-阻滞蛋白与受体的结合也有助于促进网格蛋白包覆凹坑的受体内化。因此,grk催化的磷酸化和随后β-抑制蛋白与GPCR的结合被认为是GPCR脱敏和内化的共同机制。最近的研究表明,GRKs也参与了β-阻滞蛋白介导的信号通路。grk介导的受体磷酸化在常规G蛋白和β-阻滞蛋白介导的信号传导中起相反的作用。grk催化的受体磷酸化导致G蛋白介导的信号传导减少,但这是β-阻滞蛋白介导的信号传导所必需的。选择性激活GRK/β-抑制蛋白依赖信号而不影响G蛋白信号的激动剂被称为β-抑制蛋白偏向激动剂。偏倚激动剂由于其选择性激活有利的生理反应或避免药物副作用,预计对各种疾病具有潜在的治疗益处。此外,GRKs被认为是独立于G蛋白或β-阻滞蛋白介导途径的信号介质。GRKs可以磷酸化非gpcr底物,这被发现参与各种生理反应,如细胞运动、发育和炎症。除了这些作用外,我们的研究小组还发现巨噬细胞中表达的GRK6以激酶活性依赖的方式介导凋亡细胞的清除(吞噬)。这些研究表明,GRKs阻断了过度刺激,也诱导了细胞反应。在这里,我们总结了GRKs在β-阻滞蛋白介导和G蛋白不依赖的信号通路中的作用。
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来源期刊
Journal of Molecular Signaling
Journal of Molecular Signaling Biochemistry, Genetics and Molecular Biology-Biochemistry
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期刊介绍: Journal of Molecular Signaling is an open access, peer-reviewed online journal that encompasses all aspects of molecular signaling. Molecular signaling is an exponentially growing field that encompasses different molecular aspects of cell signaling underlying normal and pathological conditions. Specifically, the research area of the journal is on the normal or aberrant molecular mechanisms involving receptors, G-proteins, kinases, phosphatases, and transcription factors in regulating cell proliferation, differentiation, apoptosis, and oncogenesis in mammalian cells. This area also covers the genetic and epigenetic changes that modulate the signaling properties of cells and the resultant physiological conditions.
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