Yejin Jeong scite author profile

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Calcitonin Receptor N-Glycosylation Enhances Peptide Hormone Affinity by Controlling Receptor Dynamics

Lee

Jeong

Simms

et al. 2020

Journal of Molecular Biology

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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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Structural and Functional Implication of Natural Variants of Gαs

Jeong

Chung

2023

IJMS

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Heterotrimeric guanine nucleotide-binding proteins (G proteins) are among the most important cellular signaling components, especially G protein-coupled receptors (GPCRs). G proteins comprise three subunits, Gα, Gβ, and Gγ. Gα is the key subunit, and its structural state regulates the active status of G proteins. Interaction of guanosine diphosphate (GDP) or guanosine triphosphate (GTP) with Gα switches G protein into basal or active states, respectively. Genetic alteration in Gα could be responsible for the development of various diseases due to its critical role in cell signaling. Specifically, loss-of-function mutations of Gαs are associated with parathyroid hormone-resistant syndrome such as inactivating parathyroid hormone/parathyroid hormone-related peptide (PTH/PTHrP) signaling disorders (iPPSDs), whereas gain-of-function mutations of Gαs are associated with McCune–Albright syndrome and tumor development. In the present study, we analyzed the structural and functional implications of natural variants of the Gαs subtype observed in iPPSDs. Although a few tested natural variants did not alter the structure and function of Gαs, others induced drastic conformational changes in Gαs, resulting in improper folding and aggregation of the proteins. Other natural variants induced only mild conformational changes but altered the GDP/GTP exchange kinetics. Therefore, the results shed light on the relationship between natural variants of Gα and iPPSDs.

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Author Correction: Sclerostin inhibits Wnt signaling through tandem interaction with two LRP6 ectodomains

et al. 2022

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Yejin Jeong

Calcitonin Receptor N‐Glycosylation Enhances Peptide Hormone Affinity by Controlling Receptor Dynamics

Calcitonin Receptor N-Glycosylation Enhances Peptide Hormone Affinity by Controlling Receptor Dynamics

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

Structural and Functional Implication of Natural Variants of Gαs

Author Correction: Sclerostin inhibits Wnt signaling through tandem interaction with two LRP6 ectodomains

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