Relating GPCR domains with functionality: receptor helix-bundle and C-terminus differentially influence GRK-specific functions and β-arrestin-mediated regulation

G protein-coupled receptors (GPCRs) orchestrate diverse physiological responses via intracellular signaling through G proteins, GPCR kinases (GRKs), and arrestins. While the role of G proteins in receptor signaling is well-established, the contributions of GRKs and arrestins remain incompletely understood. Here, we investigate the influence of arrestin-interacting GPCR domains (helix-bundle/C-terminus) on β-arrestin conformations and functions using refined biosensors and advanced cellular knockout systems. By focusing on prototypical class A (b2AR) and B (V2R) receptors and their chimeras (b2V2/V2b2), we can now characterize differential β-arrestin conformational changes as primarily mediated by the receptor C-terminus or helix-bundle. Moreover, we demonstrate that some β-arrestin-supported processes are governed by distinct receptor domains, such as ERK1/2 activation (helix-bundle) and arrestin co-internalization (C-terminus), while others depend on the overall GPCR configuration, such as receptor internalization. Our findings elucidate how individual GPCR domains dictate downstream signaling events, shedding light on the structural basis of receptor-specific signaling and regulation.