Abstract
Most adhesion G protein coupled receptors (AGPCRs) are activated by intramolecular binding of a tethered-peptide agonist (TA). Shear force-induced dissociation of the AGPCR N-terminal fragment (NTF) and C-terminal fragment (CTF) exposes the TA. The decrypted TA binds rapidly to its orthosteric site within the CTF to stabilize the active state of the AGPCR. Corticosteroids were previously proposed to be agonists for GPR97/ADGRG3. Later, other steroids and androgens were purported to be selective agonists of additional AGPCRs. Here, we demonstrate that GPR97/ADGRG3 is activated by dissociation of its NTF/CTF and follows the TA mechanism. TA peptidomimetics and the ADGRG subfamily partial agonist 3-acetoxydihydrodeoxygeduin (3-α-DOG), but not corticoids, stimulated GPR97/ADGRG3 in cell-based luciferase reporter assays and receptor/G protein reconstitution assays. GPR97 was defined as a promiscuous AGPCR that couples to G13, Gs and Gi, but not Gq. GPR97 is highly expressed in human polymorphonuclear neutrophils (hPMNs). Neutrophils undergo actin polymerization-induced cell shape changes and polarization and migrate upon activation. We found that GPR97 activation via TA peptidomimetics or 3-α-DOG robustly stimulated hPMN and mouse bone-marrow neutrophil (mBMN) polarization. Furthermore, GPR97 TA peptidomimetics and 3-α-DOG, but not beclomethasone, induced hPMN and mBMN chemotaxis. Together, our results demonstrate that GPR97/ADGRG3 utilizes a tethered agonist mechanism to activate G protein signaling and induce neutrophil polarization and migration. ONE SENTENCE SUMMARY: GPR97/ADGRG3 tethered agonism regulates G protein signaling in neutrophils.