Cinacalcet corrects biased allosteric modulation of CaSR by AHH autoantibody
Noriko Makita, … , Masaomi Nangaku, Taroh Iiri
Noriko Makita, … , Masaomi Nangaku, Taroh Iiri
Published April 18, 2019
Citation Information: JCI Insight. 2019;4(8):e126449. https://doi.org/10.1172/jci.insight.126449.
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Research Article Endocrinology

Cinacalcet corrects biased allosteric modulation of CaSR by AHH autoantibody

Abstract

Biased agonism is a paradigm that may explain the selective activation of a signaling pathway via a GPCR that activates multiple signals. The autoantibody-induced inactivation of the calcium-sensing receptor (CaSR) causes acquired hypocalciuric hypercalcemia (AHH). Here, we describe an instructive case of AHH in which severe hypercalcemia was accompanied by an increased CaSR antibody titer. These autoantibodies operated as biased allosteric modulators of CaSR by targeting its Venus flytrap domain near the Ca2+-binding site. A positive allosteric modulator of CaSR, cinacalcet, which targets its transmembrane domain, overcame this autoantibody effect and successfully corrected the hypercalcemia in this patient. Hence, this is the first study to our knowledge that identifies the interaction site of a disease-causing GPCR autoantibody working as its biased allosteric modulator and demonstrates that cinacalcet can correct the AHH autoantibody effects both in vitro and in our AHH patient. Our observations provide potentially new insights into how biased agonism works and how to design a biased allosteric modulator of a GPCR. Our observations also indicate that the diagnosis of AHH is important because the severity of hypercalcemia may become fatal if the autoantibody titer increases. Calcimimetics may serve as good treatment options for some patients with severe AHH.

Authors

Noriko Makita, Takao Ando, Junichiro Sato, Katsunori Manaka, Koji Mitani, Yasuko Kikuchi, Takayoshi Niwa, Masanori Ootaki, Yuko Takeba, Naoki Matsumoto, Atsushi Kawakami, Toshihisa Ogawa, Masaomi Nangaku, Taroh Iiri

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Figure 4

Model of activation and allosteric modulation of CaSR.

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Model of activation and allosteric modulation of CaSR. (A) Illustration ...
(A) Illustration of the structure of the extracellular Venus flytrap domain (VFT) of the human CaSR (43). Amino acids 214–235 (magenta ribbon), Ca2+-binding site, and key amino acids for Ca2+ binding are highlighted (S147, red; S170, blue; D190, yellow; Y218, cyan; and E297, orange) using PyMOL. (B) Illustration of the activation/allosteric modulation model of CaSR. At the resting inactive state, CaSRs form constitutive dimers. Ca2+ binding stabilizes the active dimer conformation, facilitating Gq/11 and Gi/o activation. Ca2+ plus the AHH patient autoantibodies, which interact with VFT near the Ca2+-binding site, stabilize the biased active conformation of CaSR, enabling Gq/11-specific activation. A calcimimetic, cinacalcet, which targets its heptahelical transmembrane domain (closer to the G protein–coupling domain), overcomes the autoantibody effect, enhancing Gq/11 and Gi/o activation and thereby successfully correcting the hypercalcemia in our AHH patient (see also Figure1A).