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Lack of beta-arrestin signaling in the absence of active G proteins.

Manuel GrundmannNicole MertenDavide MalfaciniAsuka InouePhilip PreisKatharina SimonNelly RüttigerNicole ZieglerTobias BenkelNina Katharina SchmittSatoru IshidaInes MüllerRaphael ReherKouki KawakamiAyumi InoueUlrike RickToni KühlDiana ImhofJunken AokiGabriele M KönigCarsten HoffmannJesus GomezaJürgen WessEvi Kostenis
Published in: Nature communications (2018)
G protein-independent, arrestin-dependent signaling is a paradigm that broadens the signaling scope of G protein-coupled receptors (GPCRs) beyond G proteins for numerous biological processes. However, arrestin signaling in the collective absence of functional G proteins has never been demonstrated. Here we achieve a state of "zero functional G" at the cellular level using HEK293 cells depleted by CRISPR/Cas9 technology of the Gs/q/12 families of Gα proteins, along with pertussis toxin-mediated inactivation of Gi/o. Together with HEK293 cells lacking β-arrestins ("zero arrestin"), we systematically dissect G protein- from arrestin-driven signaling outcomes for a broad set of GPCRs. We use biochemical, biophysical, label-free whole-cell biosensing and ERK phosphorylation to identify four salient features for all receptors at "zero functional G": arrestin recruitment and internalization, but-unexpectedly-complete failure to activate ERK and whole-cell responses. These findings change our understanding of how GPCRs function and in particular of how they activate ERK1/2.
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