Conformational dynamics underlying Atypical Chemokine Receptor 3 activation

Atypical Chemokine Receptor 3 (ACKR3) is a G protein-coupled receptor that does not signal through G proteins. It is known as a chemokine scavenger involved in various pathologies, making it an appealing yet intriguing therapeutic target. Indeed, the structural properties that govern ACKR3 functional selectivity and the overall conformational dynamics of ACKR3 activation are poorly understood. Here we combined Hydrogen/Deuterium exchange mass spectrometry (HDX-MS) and molecular dynamics simulations to examine the binding mode and mechanism of action of various small-molecule ACKR3 ligands of different efficacy for β-arrestin recruitment. Our results show that activation or inhibition of ACKR3 is largely governed by intracellular conformational changes of helix 6, intracellular loop 2 and helix 7, while the DRY motif becomes protected during both processes. Moreover, HDX-MS identifies the binding sites and the allosteric modulation of ACKR3 upon β-arrestin 1 binding. In summary, this study highlights the structure-function relationship of small-molecule ligands, the overall activation dynamics of ACKR3, the binding mode of β-arrestin 1 and the atypical dynamic features in ACKR3 that may contribute to its inability to activate G proteins. ### Competing Interest Statement The authors have declared no competing interest.