期刊论文详细信息
The conformational signature of beta-arrestin2 predicts its trafficking and signalling functions
Article
关键词: PROTEIN-COUPLED RECEPTORS;    BETA-ARRESTIN;    CRYSTAL-STRUCTURE;    CLATHRIN ADAPTER;    BIASED AGONISM;    ENDOCYTOSIS;    ACTIVATION;    MECHANISM;    PHOSPHORYLATION;    DESENSITIZATION;   
DOI  :  10.1038/nature17154
来源: SCIE
【 摘 要 】

Arrestins are cytosolic proteins that regulate G-protein-coupled receptor (GPCR) desensitization, internalization, trafficking and signalling(1,2). Arrestin recruitment uncouples GPCRs from heterotrimeric G proteins, and targets the proteins for internalization via clathrin-coated pits(3,4). Arrestins also function as ligand-regulated scaffolds that recruit multiple non-G-protein effectors into GPCR-based 'signalsomes'(5,6). Although the dominant function(s) of arrestins vary between receptors, the mechanism whereby different GPCRs specify these divergent functions is unclear. Using a panel of intramolecular fluorescein arsenical hairpin (FlAsH) bioluminescence resonance energy transfer (BRET) reporters(7) to monitor conformational changes in beta-arrestin2, here we show that GPCRs impose distinctive arrestin 'conformational signatures' that reflect the stability of the receptor-arrestin complex and role of a-arrestin2 in activating or dampening downstream signalling events. The predictive value of these signatures extends to structurally distinct ligands activating the same GPCR, such that the innate properties of the ligand are reflected as changes in beta-arrestin2 conformation. Our findings demonstrate that information about ligand-receptor conformation is encoded within the population average a-arrestin2 conformation, and provide insight into how different GPCRs can use a common effector for different purposes. This approach may have application in the characterization and development of functionally selective GPCR ligands(8,9) and in identifying factors that dictate arrestin conformation and function.

【 授权许可】

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