GPR114/ADGRG5 is activated by its tethered peptide agonist because it is a cleaved adhesion GPCR.

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-09 DOI:10.1016/j.jbc.2023.105223
Tyler F Bernadyn, Alexander Vizurraga, Rashmi Adhikari, Frank Kwarcinski, Gregory G Tall
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Abstract

Family B2 or adhesion G protein-coupled receptors (AGPCRs) are distinguished by variable extracellular regions that contain a modular protease, termed the GPCR autoproteolysis-inducing domain that self-cleaves the receptor into an N-terminal fragment (NTF) and a C-terminal fragment (CTF), or seven transmembrane domain (7TM). The NTF and CTF remain bound after cleavage through noncovalent interactions. NTF binding to a ligand(s) presented by nearby cells, or the extracellular matrix anchors the NTF, such that cell movement generates force to induce NTF/CTF dissociation and expose the AGPCR tethered peptide agonist. The released tethered agonist (TA) binds rapidly to the 7TM orthosteric site to activate signaling. The orphan AGPCR, GPR114 was reported to be uncleaved, yet paradoxically capable of activation by its TA. GPR114 has an identical cleavage site and TA to efficiently cleave GPR56. Here, we used immunoblotting and biochemical assays to demonstrate that GPR114 is a cleaved receptor, and the self-cleavage is required for GPR114 TA-activation of Gs and no other classes of G proteins. Mutagenesis studies defined features of the GPR114 and GPR56 GAINA subdomains that influenced self-cleavage efficiency. Thrombin treatment of protease-activated receptor 1 leader/AGPCR fusion proteins demonstrated that acute decryption of the GPR114/56 TAs activated signaling. GPR114 was found to be expressed in an eosinophilic-like cancer cell line (EoL-1 cells) and endogenous GPR114 was efficiently self-cleaved. Application of GPR114 TA peptidomimetics to EoL-1 cells stimulated cAMP production. Our findings may aid future delineation of GPR114 function in eosinophil cAMP signaling related to migration, chemotaxis, or degranulation.

GPR114/ADGRG5被其束缚肽激动剂激活,因为它是一种裂解的粘附GPCR。
家族B2或粘附G蛋白偶联受体(AGPCR)通过含有模块化蛋白酶的可变细胞外区域来区分,该模块化蛋白酶被称为GPCR自溶诱导结构域,该结构域将受体自切割成N末端片段(NTF)和C末端片段(CTF),或七跨膜结构域(7TM)。NTF和CTF在通过非共价相互作用切割后保持结合。NTF与附近细胞提供的配体或细胞外基质结合锚定NTF,使得细胞运动产生力以诱导NTF/CTF解离并暴露AGPCR束缚的肽激动剂。释放的栓系激动剂(TA)快速结合7TM正位位点以激活信号传导。据报道,孤儿AGPCR,GPR114未被清除,但矛盾的是,它能够通过TA激活。GPR114具有相同的切割位点和TA以有效地切割GPR56。在这里,我们使用免疫印迹和生物化学分析来证明GPR114是一种裂解的受体,并且GPR114 TA激活Gs需要自裂解,而不需要其他类别的G蛋白。突变研究确定了影响自切割效率的GPR114和GPR56 GAINA亚结构域的特征。蛋白酶激活的受体1前导/AGPCR融合蛋白的凝血酶处理表明GPR114/56TAs的急性解密激活了信号传导。发现GPR114在嗜酸性粒细胞样癌症细胞系(EoL-1细胞)中表达,内源性GPR114有效自我维持。GPR114TA拟肽制剂在EoL-1细胞刺激cAMP产生中的应用。我们的发现可能有助于未来描述GPR114在嗜酸性粒细胞cAMP信号传导中与迁移、趋化或脱颗粒相关的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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