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- Title
Structural basis for ligand recognition and signaling of hydroxy-carboxylic acid receptor 2.
- Authors
Park, Jae-Hyun; Kawakami, Kouki; Ishimoto, Naito; Ikuta, Tatsuya; Ohki, Mio; Ekimoto, Toru; Ikeguchi, Mitsunori; Lee, Dong-Sun; Lee, Young-Ho; Tame, Jeremy R. H.; Inoue, Asuka; Park, Sam-Yong
- Abstract
Hydroxycarboxylic acid receptors (HCAR1, HCAR2, and HCAR3) transduce Gi/o signaling upon biding to molecules such as lactic acid, butyric acid and 3-hydroxyoctanoic acid, which are associated with lipolytic and atherogenic activity, and neuroinflammation. Although many reports have elucidated the function of HCAR2 and its potential as a therapeutic target for treating not only dyslipidemia but also neuroimmune disorders such as multiple sclerosis and Parkinson's disease, the structural basis of ligand recognition and ligand-induced Gi-coupling remains unclear. Here we report three cryo-EM structures of the human HCAR2–Gi signaling complex, each bound with different ligands: niacin, acipimox or GSK256073. All three agonists are held in a deep pocket lined by residues that are not conserved in HCAR1 and HCAR3. A distinct hairpin loop at the HCAR2 N-terminus and extra-cellular loop 2 (ECL2) completely enclose the ligand. These structures also reveal the agonist-induced conformational changes propagated to the G-protein-coupling interface during activation. Collectively, the structures presented here are expected to help in the design of ligands specific for HCAR2, leading to new drugs for the treatment of various diseases such as dyslipidemia and inflammation. Niacin is used to treat cardiovascular disease through its activation of the GPCR HCAR2. Here, the authors present cryo-EM structures of HCAR2 bound to niacin and other drug-like small molecules, which explain the basis of HCAR2 ligand recognition.
- Subjects
NIACIN; G protein coupled receptors; SMALL molecules; PARKINSON'S disease; BUTYRIC acid; LACTIC acid; ACIDS
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-42764-8