Distinct conformations of GPCR–β-arrestin complexes mediate desensitization, signaling, and endocytosis

Thomas J. Cahill; A. Thomsen; Jeffrey Tarrasch; Bianca Plouffe; Anthony H. Nguyen; Fan Yang; Li-Yin Huang; Alem W. Kahsai; Daniel L. Bassoni; Bryant J. Gavino; Jane E. Lamerdin; Sarah Triest; Arun K. Shukla; Benjamin Berger; John R. Little; Albert Antar; Adi Blanc; Chang-xiu Qu; Xin Chen; Kouki Kawakami; Asuka Inoue; Junken Aoki; Jan Steyaert; Jin‐Peng Sun; Michel Bouvier; Georgios Skiniotis; Robert J. Lefkowitz

doi:10.1073/pnas.1701529114

Distinct conformations of GPCR–β-arrestin complexes mediate desensitization, signaling, and endocytosis

Thomas J. Cahill(Duke Medical Center), A. Thomsen(Duke Medical Center), Jeffrey Tarrasch(University of Michigan), Bianca Plouffe(Institute for Research in Immunology and Cancer), Anthony H. Nguyen(Howard Hughes Medical Institute), Fan Yang(Shandong University), Li-Yin Huang(Duke Medical Center), Alem W. Kahsai(Duke Medical Center), Daniel L. Bassoni(DiscoveRx (United States)), Bryant J. Gavino(DiscoveRx (United States)), Jane E. Lamerdin(DiscoveRx (United States)), Sarah Triest(Vrije Universiteit Brussel), Arun K. Shukla(Duke Medical Center), Benjamin Berger(Duke Medical Center), John R. Little(Duke Medical Center), Albert Antar(Duke Medical Center), Adi Blanc(Duke Medical Center), Chang-xiu Qu(Shandong University), Xin Chen(Changzhou University), Kouki Kawakami(Tohoku University), Asuka Inoue(Tohoku University), Junken Aoki(Tohoku University), Jan Steyaert(Vrije Universiteit Brussel), Jin‐Peng Sun(Shandong University), Michel Bouvier(Institute for Research in Immunology and Cancer), Georgios Skiniotis(University of Michigan), Robert J. Lefkowitz(Howard Hughes Medical Institute)

Proceedings of the National Academy of Sciences

February 21, 2017

10.1073/pnas.1701529114

Cited by 383Open Access

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Abstract

β-Arrestins (βarrs) interact with G protein-coupled receptors (GPCRs) to desensitize G protein signaling, to initiate signaling on their own, and to mediate receptor endocytosis. Prior structural studies have revealed two unique conformations of GPCR-βarr complexes: the "tail" conformation, with βarr primarily coupled to the phosphorylated GPCR C-terminal tail, and the "core" conformation, where, in addition to the phosphorylated C-terminal tail, βarr is further engaged with the receptor transmembrane core. However, the relationship of these distinct conformations to the various functions of βarrs is unknown. Here, we created a mutant form of βarr lacking the "finger-loop" region, which is unable to form the core conformation but retains the ability to form the tail conformation. We find that the tail conformation preserves the ability to mediate receptor internalization and βarr signaling but not desensitization of G protein signaling. Thus, the two GPCR-βarr conformations can carry out distinct functions.

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