开发一种偏向性的非匹配双价配体(BUmBL)设计策略,以靶向黑素皮质素受体中的 G 蛋白偶联受体同源二聚体变构信号(cAMP 对β-arrestin2 招募)。
Developing a Biased Unmatched Bivalent Ligand (BUmBL) Design Strategy to Target the GPCR Homodimer Allosteric Signaling (cAMP over β-Arrestin 2 Recruitment) Within the Melanocortin Receptors.
机构信息
Department of Medicinal Chemistry and Institute for Translational Neuroscience , University of Minnesota , 308 Harvard Street SE , Minneapolis , Minnesota 55455 , United States.
College of Pharmacy , Nova Southeastern University , Fort Lauderdale , Florida 33328-2018 , United States.
出版信息
J Med Chem. 2019 Jan 10;62(1):144-158. doi: 10.1021/acs.jmedchem.8b00238. Epub 2018 May 9.
Abstract
Understanding the functional relevance of G protein-coupled receptor (GPCR) homodimerization has been limited by the insufficient tools to assess asymmetric signaling occurring within dimers comprised of the same receptor type. We present unmatched bivalent ligands (UmBLs) to study the asymmetric function of melanocortin homodimers. UmBLs contain one agonist and one antagonist pharmacophore designed to target a melanocortin homodimer such that one receptor is occupied by an agonist and the other receptor by an antagonist pharmacophore. First-in-class biased UmBLs (BUmBLs) targeting the human melanocortin-4 receptor (hMC4R) were discovered. The BUmBLs displayed biased agonism by potently stimulating cAMP signaling (EC ∼ 2-6 nM) but minimally activating the β-arrestin recruitment pathway (≤55% maximum signal at 10 μM). To our knowledge, we report the first single-compound strategy to pharmacologically target melanocortin receptor allosteric signaling that occurs between homodimers that can be applied straightforwardly in vitro and in vivo to other GPCR systems.
摘要
理解 G 蛋白偶联受体 (GPCR) 同二聚体的功能相关性一直受到限制,因为缺乏足够的工具来评估由相同受体类型组成的二聚体中发生的不对称信号。我们提出了独特的二价配体 (UmBL) 来研究黑皮质素同二聚体的不对称功能。UmBL 包含一个激动剂和一个拮抗剂药效团,旨在针对黑皮质素同二聚体,使得一个受体被激动剂占据,另一个受体被拮抗剂药效团占据。我们发现了针对人黑素皮质素-4 受体 (hMC4R) 的首创类偏 UmBL (BUmBL)。这些 BUmBL 通过强烈刺激 cAMP 信号(EC ∼ 2-6 nM)显示出偏激动作用,但最小限度地激活β-arrestin 招募途径(在 10 μM 时最大信号的 ≤55%)。据我们所知,我们报告了第一个用于药理学靶向黑皮质素受体变构信号的单一化合物策略,该策略可在体外和体内直接应用于其他 GPCR 系统中的同二聚体之间发生的变构信号。
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