Yaejin Yun scite author profile

Chemokine receptors constitute an important subfamily of G protein-coupled receptors (GPCRs), and they are critically involved in a broad range of immune response mechanisms. Ligand promiscuity among these receptors makes them an interesting target to explore novel aspects of biased agonism. Here, we comprehensively characterize two chemokine receptors namely, CXCR4 and CXCR7, which share a common chemokine agonist (CXCL12), in terms of their G-protein coupling, β-arrestin (βarr) recruitment, contribution of GRKs, and ERK1/2 MAP kinase activation. We observe that CXCR7 lacks G-protein coupling while maintaining robust βarr recruitment with a major contribution of GRK5/6. On the other hand, CXCR4 displays robust G-protein activation as expected, however, it exhibits significantly reduced βarr-coupling compared to CXCR7 in response to their shared natural agonist, CXCL12. These two receptors induce distinct βarr conformations even when activated by the same agonist, and CXCR7, unlike CXCR4, fails to activate ERK1/2 MAP kinase. We further determine the crystal structure of βarr2 in complex with a carboxyl-terminal phosphopeptide derived from CXCR7, which reveals a smaller interdomain rotation than observed previously for activated βarrs. Importantly, structure-guided cellular experiments reveal a key contribution of a single phosphorylation site in CXCR7 on βarr recruitment and endosomal trafficking. Taken together, our study provides molecular insights into intrinsic bias encoded in the CXCR4-CXCR7 system, and it has broad implications for therapeutically important framework of biased agonism.

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Dissecting the structural features of β-arrestins as multifunctional proteins

Yun

Lee

2021

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Biochemical Characterization of the Num1-Mdm36 Complex at the Mitochondria-Plasma Membrane Contact Site

Won

Choi

Yun

et al. 2021

Molecules and Cells

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In eukaryotic cells, organelles are distributed and positioned in proximity to each other through molecular tether proteins. Among these, the mitochondria-endoplasmic reticulum cortex anchor (MECA) is a well-known tethering complex in Saccharomyces cerevisiae that tethers mitochondria to the plasma membrane and plays a key role in mitochondrial fission. The main components of MECA are Num1 and Mdm36, and it is known that Mdm36 binds to Num1 to enhance mitochondrial tethering. To better understand the biochemical characteristics of the Num1-Mdm36 complex at the molecular level, we purified the coiledcoil domain of Num1, full-length Mdm36, and Num1-Mdm36 complex and identified the oligomeric state and stoichiometric characteristics of the Num1-Mdm36 complex by chemical crosslinking, size-exclusion chromatography coupled with multi-angle light scattering, and isothermal titration calorimetry. Mdm36 exists as a dimer and interacts preferentially with Num1 with a stoichiometry of 2:2, forming a heterotetrameric complex. Furthermore, we narrowed down the specific binding region of Num1, which is essential for interacting with Mdm36, and showed that their binding affinity is strong enough to tether both mitochondrial and plasma membranes. Our biochemical characterizations suggest a stoichiometric model of the Num1-Mdm36 complex at the mitochondria-plasma membrane contact site in budding yeast.

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GPCR targeting of E3 ubiquitin ligase MDM2 by inactive β-arrestin

Yun

Yoon

Jeong

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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E3 ubiquitin ligase Mdm2 facilitates β-arrestin ubiquitination, leading to the internalization of G protein–coupled receptors (GPCRs). In this process, β-arrestins bind to Mdm2 and recruit it to the receptor; however, the molecular architecture of the β-arrestin-Mdm2 complex has not been elucidated yet. Here, we identified the β-arrestin-binding region (ABR) on Mdm2 and solved the crystal structure of β-arrestin1 in complex with Mdm2 ABR peptide. The acidic residues of Mdm2 ABR bind to the positively charged concave side of the β-arrestin1 N-domain. The C-tail of β-arrestin1 is still bound to the N-domain, indicating that Mdm2 binds to the inactive state of β-arrestin1, whereas the phosphorylated C-terminal tail of GPCRs binds to activate β-arrestins. The overlapped binding site of Mdm2 and GPCR C-tails on β-arrestin1 suggests that the binding of GPCR C-tails might trigger the release of Mdm2. Moreover, hydrogen/deuterium exchange experiments further show that Mdm2 ABR binding to β-arrestin1 induces the interdomain interface to be more dynamic and uncouples the IP 6 -induced oligomer of β-arrestin1. These results show how the E3 ligase, Mdm2, interacts with β-arrestins to promote the internalization of GPCRs.

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Reversible Protein Conjugation on Live Cell Surfaces by Specific Recognition between Coiled-Coil Motifs of Natural Amino Acid Sequences

et al. 2020

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In this study, we propose a reversible covalent conjugation method for peptides, proteins, and even live cells based on specific recognition between natural amino acid sequences. Two heptad sequences can specifically recognize each other and induce the formation of a disulfide bond between cysteine residues. We show the covalent bond formation and dissociation between peptides and proteins in cell-free conditions and on the surface of live cells. Because heptad sequences consist of natural amino acids, they are expressed in cells without additional preparation and can be used to selectively conjugate peptides, proteins, and cells.

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Yaejin Yun

Molecular insights into intrinsic transducer-coupling bias in the CXCR4-CXCR7 system

Dissecting the structural features of β-arrestins as multifunctional proteins

Biochemical Characterization of the Num1-Mdm36 Complex at the Mitochondria-Plasma Membrane Contact Site

GPCR targeting of E3 ubiquitin ligase MDM2 by inactive β-arrestin

Reversible Protein Conjugation on Live Cell Surfaces by Specific Recognition between Coiled-Coil Motifs of Natural Amino Acid Sequences

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