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. 2021 Oct;598(7882):688-692.
doi: 10.1038/s41586-021-03924-2. Epub 2021 Sep 22.

Structures of full-length glycoprotein hormone receptor signalling complexes

Jia Duan #  1   2 Peiyu Xu #  1   2 Xi Cheng #  1 Chunyou Mao #  3   4   5   6   7 Tristan Croll  8 Xinheng He  1   2 Jingjing Shi  1 Xiaodong Luan  9   10   11 Wanchao Yin  1 Erli You  1 Qiufeng Liu  1 Shuyang Zhang  9   10   11 Hualiang Jiang  1   2   12 Yan Zhang  13   14   15   16 Yi Jiang  17   18 H Eric Xu  19   20   21
Affiliations

Structures of full-length glycoprotein hormone receptor signalling complexes

Jia Duan et al. Nature. 2021 Oct.

Abstract

Luteinizing hormone and chorionic gonadotropin are glycoprotein hormones that are related to follicle-stimulating hormone and thyroid-stimulating hormone1,2. Luteinizing hormone and chorionic gonadotropin are essential to human reproduction and are important therapeutic drugs3-6. They activate the same G-protein-coupled receptor, luteinizing hormone-choriogonadotropin receptor (LHCGR), by binding to the large extracellular domain3. Here we report four cryo-electron microscopy structures of LHCGR: two structures of the wild-type receptor in the inactive and active states; and two structures of the constitutively active mutated receptor. The active structures are bound to chorionic gonadotropin and the stimulatory G protein (Gs), and one of the structures also contains Org43553, an allosteric agonist7. The structures reveal a distinct 'push-and-pull' mechanism of receptor activation, in which the extracellular domain is pushed by the bound hormone and pulled by the extended hinge loop next to the transmembrane domain. A highly conserved 10-residue fragment (P10) from the hinge C-terminal loop at the interface between the extracellular domain and the transmembrane domain functions as a tethered agonist to induce conformational changes in the transmembrane domain and G-protein coupling. Org43553 binds to a pocket of the transmembrane domain and interacts directly with P10, which further stabilizes the active conformation. Together, these structures provide a common model for understanding the signalling of glycoprotein hormone receptors and a basis for drug discovery for endocrine diseases.

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