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A single phenylalanine residue in β-arrestin2 critically regulates its binding to G protein-coupled receptors.

Publication ,  Journal Article
Jean-Charles, P-Y; Rajiv, V; Sarker, S; Han, S; Bai, Y; Masoudi, A; Shenoy, SK
Published in: J Biol Chem
May 2022

Arrestins and their yeast homologs, arrestin-related trafficking adaptors (ARTs), share a stretch of 29 amino acids called the ART motif. However, the functionality of that motif is unknown. We now report that deleting this motif prevents agonist-induced ubiquitination of β-arrestin2 (β-arr2) and blocks its association with activated G protein-coupled receptors (GPCRs). Within the ART motif, we have identified a conserved phenylalanine residue, Phe116, that is critical for the formation of β-arr2-GPCR complexes. β-arr2 Phe116Ala mutant has negligible effect on blunting β2-adrenergic receptor-induced cAMP generation unlike β-arr2, which promotes rapid desensitization. Furthermore, available structures for inactive and inositol hexakisphosphate 6-activated forms of bovine β-arr2 revealed that Phe116 is ensconced in a hydrophobic pocket, whereas the adjacent Phe117 and Phe118 residues are not. Mutagenesis of Phe117 and Phe118, but not Phe116, preserves GPCR interaction of β-arr2. Surprisingly, Phe116 is dispensable for the association of β-arr2 with its non-GPCR partners. β-arr2 Phe116Ala mutant presents a significantly reduced protein half-life compared with β-arr2 and undergoes constitutive Lys-48-linked polyubiquitination, which tags proteins for proteasomal degradation. We also found that Phe116 is critical for agonist-dependent β-arr2 ubiquitination with Lys-63-polyubiquitin linkages that are known mediators of protein scaffolding and signal transduction. Finally, we have shown that β-arr2 Phe116Ala interaction with activated β2-adrenergic receptor can be rescued with an in-frame fusion of ubiquitin. Taken together, we conclude that Phe116 preserves structural stability of β-arr2, regulates the formation of β-arr2-GPCR complexes that inhibit G protein signaling, and promotes subsequent ubiquitin-dependent β-arr2 localization and trafficking.

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Published In

J Biol Chem

DOI

EISSN

1083-351X

Publication Date

May 2022

Volume

298

Issue

5

Start / End Page

101837

Location

United States

Related Subject Headings

  • beta-Arrestin 2
  • Ubiquitin
  • Receptors, G-Protein-Coupled
  • Phenylalanine
  • Cattle
  • Biochemistry & Molecular Biology
  • Animals
  • 34 Chemical sciences
  • 32 Biomedical and clinical sciences
  • 31 Biological sciences
 

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Jean-Charles, P.-Y., Rajiv, V., Sarker, S., Han, S., Bai, Y., Masoudi, A., & Shenoy, S. K. (2022). A single phenylalanine residue in β-arrestin2 critically regulates its binding to G protein-coupled receptors. J Biol Chem, 298(5), 101837. https://doi.org/10.1016/j.jbc.2022.101837
Jean-Charles, Pierre-Yves, Vishwaesh Rajiv, Subhodeep Sarker, Sangoh Han, Yushi Bai, Ali Masoudi, and Sudha K. Shenoy. “A single phenylalanine residue in β-arrestin2 critically regulates its binding to G protein-coupled receptors.J Biol Chem 298, no. 5 (May 2022): 101837. https://doi.org/10.1016/j.jbc.2022.101837.
Jean-Charles P-Y, Rajiv V, Sarker S, Han S, Bai Y, Masoudi A, et al. A single phenylalanine residue in β-arrestin2 critically regulates its binding to G protein-coupled receptors. J Biol Chem. 2022 May;298(5):101837.
Jean-Charles, Pierre-Yves, et al. “A single phenylalanine residue in β-arrestin2 critically regulates its binding to G protein-coupled receptors.J Biol Chem, vol. 298, no. 5, May 2022, p. 101837. Pubmed, doi:10.1016/j.jbc.2022.101837.
Jean-Charles P-Y, Rajiv V, Sarker S, Han S, Bai Y, Masoudi A, Shenoy SK. A single phenylalanine residue in β-arrestin2 critically regulates its binding to G protein-coupled receptors. J Biol Chem. 2022 May;298(5):101837.

Published In

J Biol Chem

DOI

EISSN

1083-351X

Publication Date

May 2022

Volume

298

Issue

5

Start / End Page

101837

Location

United States

Related Subject Headings

  • beta-Arrestin 2
  • Ubiquitin
  • Receptors, G-Protein-Coupled
  • Phenylalanine
  • Cattle
  • Biochemistry & Molecular Biology
  • Animals
  • 34 Chemical sciences
  • 32 Biomedical and clinical sciences
  • 31 Biological sciences