KMID : 0043320160390030293
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Archives of Pharmacal Research 2016 Volume.39 No. 3 p.293 ~ p.301
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Structural mechanism of GPCR-arrestin interaction: recent breakthroughs
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Park Ji-Young
Lee Su-Youn Kim Hee-Ryung Seo Min-Duk Chung Ka-Young
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Abstract
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G protein-coupled receptors (GPCRs) are a major membrane receptor family with important physiological and pathological functions. In the classical signaling pathway, ligand-activated GPCRs couple to G proteins, thereby inducing G protein-dependent signaling pathways and phosphorylation by G protein-coupled receptor kinases (GRKs). This leads to an interaction with arrestins, which results in GPCR desensitization. Recently, non-classical GPCR signaling pathways, mediated by GPCR-bound arrestins, have been identified. Consequently, arrestins play important roles in GPCR signaling not only with respect to desensitization but also in relation to G protein-independent signal transduction. These findings have led to efforts to develop functionally biased (i.e. signal transduction biased) GPCR-targeting drugs. One of these efforts is aimed at understanding the structural mechanism of functionally biased GPCR signaling, which includes understanding the G protein-selectivity or arrestin-selectivity of GPCRs. This goal has not yet been achieved; however, great progress has been made during the last 3 years toward understanding the structural mechanism of GPCR-mediated arrestin activation. This review will discuss the recent breakthroughs in the conformational understanding of GPCR-arrestin interaction.
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KEYWORD
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Arrestin, Structure, GPCR
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