G-protein-coupled receptors (GPCRs) represent a large family of proteins that transduce extracellular signals to the interior of cells. Signalling through these receptors rapidly desensitized primarily as the consequence of receptor phosphorylation, but receptor sequestration and downregulation can also contribute to this process. Two families of serine/threonine kinases, second messenger dependent protein kinases and receptor-specific G-protein-coupled receptor kinases (GRKs), phosphorylate GPCRs and thereby contribute to receptor desensitization. Receptor-specific phosphorylation of GPCRs promotes the binding of cytosolic proteins referred to as arrestins, which function to further uncouple GPCRs from their heterotrimeric G-proteins. To date, the GRK protein family consists of six members, which can be further classified into subgroups according to sequence homology and functional similarities. The arrestin protein family also comprises six members, which are subgrouped on the basis of sequence homology and tissue distribution. While the molecular mechanisms contributing to GPCR desensitization are fairly well characterized, little is known about the mechanism(s) by which GPCR responsiveness is reestablished, other than that receptor sequestration (internalization) might be involved. The goal of the present review is to overview current understanding of the regulation of GPCR responsiveness. In particular, we will review new evidence suggesting a pleiotropic role for GRKs and arrestins in the regulation of GPCR responsiveness. GRK-mediated phosphorylation and arrestin binding are not only involved in the functional uncoupling of GPCRs but they are also intimately involved in promoting GPCR sequestration and as such likely play an important role in mediating the subsequent resensitization of GPCRs.
G protein-coupled receptor kinases and arrestin proteins are well-characterized mediators of agonist-dependent G protein-coupled receptor desensitization. These proteins are now shown to play a dual role in receptor regulation by mediating both receptor uncoupling and sequestration, a process important for receptor resensitization. b-Arrestins bound to phosporylated b2-adrenergic and angiotensin II type 1A receptors act as intracellular trafficking molecules specifically targeting these receptors for dynamin-dependent clathrin-coated vesicle-mediated sequestration.
G protein-coupled receptor (GPCR) activation is followed rapidly by adaptive changes that serve to diminish the responsiveness of a cell to further stimulation. This process, termed desensitization, is the consequence of receptor phosphorylation, arrestin binding, sequestration and down-regulation. GPCR phosphorylation is initiated within seconds to minutes of receptor activation and is mediated by both second messenger-dependent protein kinases and receptor-specific G proteincoupled receptor kinases (GRKs). Desensitization in response to GRK-mediated phosphorylation involves the binding of arrestin proteins that serve to sterically uncouple the receptor from its G protein. GPCR sequestration, the endocytosis of receptors to endosomes, not only contributes to the temporal desensitization of GPCRs, but plays a critical role in GPCR resensitization. GPCR down-regulation, a loss of the total cellular complement of receptors, is the consequence of both increased lysosomal degradation and decreased mRNA synthesis of GPCRs. While each of these agonist-mediated desensitization processes are initiated within a temporally dissociable time frame, recent data suggest that they are intimately related to one another. The use of green fluorescent protein from the jellyfish Aqueora victoria as an epitope tag with intrinsic fluorescence has facilitated our understanding of the relative relationship between GRK phosphorylation, arrestin binding, receptor sequestration and down-regulation.
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