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Evolutionary action and structural basis of the allosteric switch controlling β(2)AR functional selectivity

Authors

  • A.M. Schönegge
  • J. Gallion
  • L.P. Picard
  • A.D. Wilkins
  • C. Le Gouill
  • M. Audet
  • W. Stallaert
  • M.J. Lohse
  • M. Kimmel
  • O. Lichtarge
  • M. Bouvier

Journal

  • Nature Communications

Citation

  • Nat Commun 8 (1): 2169

Abstract

  • Functional selectivity of G-protein-coupled receptors is believed to originate from ligand-specific conformations that activate only subsets of signaling effectors. In this study, to identify molecular motifs playing important roles in transducing ligand binding into distinct signaling responses, we combined in silico evolutionary lineage analysis and structure-guided site-directed mutagenesis with large-scale functional signaling characterization and non-negative matrix factorization clustering of signaling profiles. Clustering based on the signaling profiles of 28 variants of the β(2)-adrenergic receptor reveals three clearly distinct phenotypical clusters, showing selective impairments of either the Gi or βarrestin/endocytosis pathways with no effect on Gs activation. Robustness of the results is confirmed using simulation-based error propagation. The structural changes resulting from functionally biasing mutations centered around the DRY, NPxxY, and PIF motifs, selectively linking these micro-switches to unique signaling profiles. Our data identify different receptor regions that are important for the stabilization of distinct conformations underlying functional selectivity.


DOI

doi:10.1038/s41467-017-02257-x