G蛋白受体激酶5/6是G蛋白偶联受体35抑制蛋白相互作用的关键调节因子。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-01 DOI:10.1016/j.jbc.2023.105218
Amlan Ganguly, Tezz Quon, Laura Jenkins, Babu Joseph, Rima Al-Awar, Andy Chevigne, Andrew B Tobin, David E Uehling, Carsten Hoffmann, Julia Drube, Graeme Milligan
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摘要

人G蛋白偶联受体35通过激动剂介导的其C末端尾部内的一组五个磷酸受体氨基酸的磷酸化来调节。GPR35a亚型中Ser300和Ser303均变为丙氨酸大大降低了受体激动剂促进与arrestin衔接蛋白相互作用的能力。在这里,我们整合了对细胞系基因组进行编辑以缺乏G蛋白受体激酶(GRKs)、这些激酶亚群的选择性小分子抑制剂、,和仅当Ser300和Ser303(force;小鼠GPR35中的等效残基)已经磷酸化时能够特异性鉴定人GPR35a或小鼠GPR35.以证明GRK5和GRK6引起这些残基的激动剂依赖性磷酸化。这些研究的扩展证明了GRK5/6介导的这些氨基酸磷酸化对激动剂诱导的受体内化的重要性。人类GPR35与GRKs相互作用的同源性和预测模型表明,GRK5的N末端可能与Gα13的α5螺旋的C末端停靠在GPR35细胞内表面的同一甲硫氨酸口袋中,尽管GRK6也是如此,但GRK2和GRK3无法有效地做到这一点。这些研究为GPR35的调节模式提供了独特而广泛的见解,GPR35是一种受体,目前作为溃疡性结肠炎等疾病的新治疗靶点,引起了人们的极大兴趣。
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G protein-receptor kinases 5/6 are the key regulators of G protein-coupled receptor 35-arrestin interactions.

Human G protein-coupled receptor 35 is regulated by agonist-mediated phosphorylation of a set of five phospho-acceptor amino acids within its C-terminal tail. Alteration of both Ser300 and Ser303 to alanine in the GPR35a isoform greatly reduces the ability of receptor agonists to promote interactions with arrestin adapter proteins. Here, we have integrated the use of cell lines genome edited to lack expression of combinations of G protein receptor kinases (GRKs), selective small molecule inhibitors of subsets of these kinases, and antisera able to specifically identify either human GPR35a or mouse GPR35 only when Ser300 and Ser303 (orce; the equivalent residues in mouse GPR35) have become phosphorylated to demonstrate that GRK5 and GRK6 cause agonist-dependent phosphorylation of these residues. Extensions of these studies demonstrated the importance of the GRK5/6-mediated phosphorylation of these amino acids for agonist-induced internalization of the receptor. Homology and predictive modeling of the interaction of human GPR35 with GRKs showed that the N terminus of GRK5 is likely to dock in the same methionine pocket on the intracellular face of GPR35 as the C terminus of the α5 helix of Gα13 and, that while this is also the case for GRK6, GRK2 and GRK3 are unable to do so effectively. These studies provide unique and wide-ranging insights into modes of regulation of GPR35, a receptor that is currently attracting considerable interest as a novel therapeutic target in diseases including ulcerative colitis.

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