Structural Diversity of Metabotropic Glutamate Receptor/Beta-Arrestin Coupling

Despite the widespread physiological roles of beta-arrestin (β-arr) coupling in G protein-coupled receptor (GPCR) regulation, the molecular basis of GPCR/β-arr interaction has been studied primarily in monomeric family A GPCRs. Here we take an integrative biophysical and structural approach to uncover extreme molecular diversity in β-arr coupling to the neuromodulatory metabotropic glutamate receptors (mGluRs), prototypical, dimeric family C GPCRs. Using a new single molecule pulldown assay, we find that mGluRs couple to β-arrs with a 2:1 or 2:2 stoichiometry via a combination of “tail” and “core” interactions. Single molecule FRET and electron microscopy show that β-arr1 stabilizes active conformations of mGluR8 and a combination of cryo-EM structures and molecular dynamics simulations define the positioning of mGluR8-bound β-arr1, together suggesting a steric mechanism of mGluR desensitization involving interactions with both subunits and the lipid bilayer. Finally, combinatorial mutagenesis enables the identification of a landscape of homo- and hetero-dimeric mGluR/β-arr complexes, including mGluR/β-arr1/β-arr2 megacomplexes, providing a framework for family C GPCR/β-arr coupling and expanding the known range of GPCR/transducer coupling modes.