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Asymmetric activation of the calcium-sensing receptor homodimer.

Nature (2021-07-02)
Yang Gao, Michael J Robertson, Sabrina N Rahman, Alpay B Seven, Chensong Zhang, Justin G Meyerowitz, Ouliana Panova, Fadil M Hannan, Rajesh V Thakker, Hans Bräuner-Osborne, Jesper M Mathiesen, Georgios Skiniotis
RÉSUMÉ

The calcium-sensing receptor (CaSR), a cell-surface sensor for Ca2+, is the master regulator of calcium homeostasis in humans and is the target of calcimimetic drugs for the treatment of parathyroid disorders1. CaSR is a family C G-protein-coupled receptor2 that functions as an obligate homodimer, with each protomer composed of a Ca2+-binding extracellular domain and a seven-transmembrane-helix domain (7TM) that activates heterotrimeric G proteins. Here we present cryo-electron microscopy structures of near-full-length human CaSR in inactive or active states bound to Ca2+ and various calcilytic or calcimimetic drug molecules. We show that, upon activation, the CaSR homodimer adopts an asymmetric 7TM configuration that primes one protomer for G-protein coupling. This asymmetry is stabilized by 7TM-targeting calcimimetic drugs adopting distinctly different poses in the two protomers, whereas the binding of a calcilytic drug locks CaSR 7TMs in an inactive symmetric configuration. These results provide a detailed structural framework for CaSR activation and the rational design of therapeutics targeting this receptor.

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Cinacalcet hydrochloride, ≥98% (HPLC)