Pharmacological Characterization and Radiolabeling of VUF15485, a High-Affinity Small-Molecule Agonist for the Atypical Chemokine Receptor ACKR3.

IF 3.2 3区医学 Q2 PHARMACOLOGY & PHARMACY

Molecular Pharmacology Pub Date : 2024-03-14 DOI:10.1124/molpharm.123.000835

Aurelien M Zarca, Ilze Adlere, Cristina P Viciano, Marta Arimont-Segura, Max Meyrath, Icaro A Simon, Jan Paul Bebelman, Dennis Laan, Hans G J Custers, Elwin Janssen, Kobus L Versteegh, Maurice C M L Buzink, Desislava N Nesheva, Reggie Bosma, Iwan J P de Esch, Henry F Vischer, Maikel Wijtmans, Martyna Szpakowska, Andy Chevigné, Carsten Hoffmann, Chris de Graaf, Barbara A Zarzycka, Albert D Windhorst, Martine J Smit, Rob Leurs

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引用次数: 0

Abstract

Atypical chemokine receptor 3 (ACKR3), formerly referred to as CXCR7, is considered to be an interesting drug target. In this study, we report on the synthesis, pharmacological characterization and radiolabeling of VUF15485, a new ACKR3 small-molecule agonist, that will serve as an important new tool to study this β-arrestin-biased chemokine receptor. VUF15485 binds with nanomolar affinity (pIC₅₀ = 8.3) to human ACKR3, as measured in [¹²⁵I]CXCL12 competition binding experiments. Moreover, in a bioluminescence resonance energy transfer-based β-arrestin2 recruitment assay VUF15485 acts as a potent ACKR3 agonist (pEC₅₀ = 7.6) and shows a similar extent of receptor activation compared with CXCL12 when using a newly developed, fluorescence resonance energy transfer-based ACKR3 conformational sensor. Moreover, the ACKR3 agonist VUF15485, tested against a (atypical) chemokine receptor panel (agonist and antagonist mode), proves to be selective for ACKR3. VUF15485 labeled with tritium at one of its methoxy groups ([³H]VUF15485), binds ACKR3 saturably and with high affinity (K _d = 8.2 nM). Additionally, [³H]VUF15485 shows rapid binding kinetics and consequently a short residence time (<2 minutes) for binding to ACKR3. The selectivity of [³H]VUF15485 for ACKR3, was confirmed by binding studies, whereupon CXCR3, CXCR4, and ACKR3 small-molecule ligands were competed for binding against the radiolabeled agonist. Interestingly, the chemokine ligands CXCL11 and CXCL12 are not able to displace the binding of [³H]VUF15485 to ACKR3. The radiolabeled VUF15485 was subsequently used to evaluate its binding pocket. Site-directed mutagenesis and docking studies using a recently solved cryo-EM structure propose that VUF15485 binds in the major and the minor binding pocket of ACKR3. SIGNIFICANCE STATEMENT: The atypical chemokine receptor atypical chemokine receptor 3 (ACKR3) is considered an interesting drug target in relation to cancer and multiple sclerosis. The study reports on new chemical biology tools for ACKR3, i.e., a new agonist that can also be radiolabeled and a new ACKR3 conformational sensor, that both can be used to directly study the interaction of ACKR3 ligands with the G protein-coupled receptor.

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非典型趋化因子受体 ACKR3 的高亲和力小分子激动剂 VUF15485 的药理特征和放射性标记。

非典型趋化因子受体 3（ACKR3）被认为是一个有趣的药物靶点。在这项研究中，我们报告了一种新型小分子激动剂 VUF15485 的合成、药理学表征和放射性标记。经[125I]CXCL12竞争实验测定，VUF15485与人ACKR3的结合亲和力为纳摩尔级（pIC50 = 8.3）。此外，在基于 BRET 的β-arrestin2 招募实验中，VUF15485 作为 ACKR3 激动剂具有很高的效力（pEC50 = 7.6），并且在使用新开发的基于 FRET 的 ACKR3 构象传感器时，与 CXCL12 相比，VUF15485 对受体的激活程度相似。此外，ACKR3 激动剂 VUF15485 还针对趋化因子受体面板（激动剂和拮抗剂模式）进行了测试，证明它对 ACKR3 具有选择性。随后在 VUF15485 的一个甲氧基上用氚标记，得到 [3H]VUF15485。这种小分子激动剂放射性配体与人类 ACKR3 的结合饱和且亲和力极高（Kd = 8.2 nM）。[3H]VUF15485显示出快速的结合动力学，因此与ACKR3的结合停留时间很短（RT < 2分钟）。用一些 CXCR3、CXCR4 或 ACKR3 小分子配体取代[3H]VUF15485 与瞬时表达 ACKR3 的 HEK293T 细胞膜的结合，证实了[3H]VUF15485 结合位点的 ACKR3 特征。有趣的是，趋化因子配体 CXCL11 和 CXCL12 无法取代 [3H]VUF15485 与 ACKR3 的结合。放射性标记的 VUF15485 随后被用于评估其结合口袋。利用最近解决的低温电子显微镜结构进行的定点突变和对接研究表明，VUF15485 与 ACKR3 的主要和次要结合口袋结合。意义声明非典型趋化因子受体 ACKR3 被认为是与癌症等有关的一个有趣的药物靶点。该研究报告了 ACKR3 的新化学生物学工具，即一种可进行放射性标记的新激动剂和一种新的 ACKR3 构象传感器，这两种工具都可用于直接研究 ACKR3 配体与 GPCR 的相互作用。

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来源期刊

Molecular Pharmacology 医学-药学

CiteScore

7.20

自引率

2.80%

发文量

审稿时长

3-6 weeks

期刊介绍： Molecular Pharmacology publishes findings derived from the application of innovative structural biology, biochemistry, biophysics, physiology, genetics, and molecular biology to basic pharmacological problems that provide mechanistic insights that are broadly important for the fields of pharmacology and toxicology. Relevant topics include: Molecular Signaling / Mechanism of Drug Action Chemical Biology / Drug Discovery Structure of Drug-Receptor Complex Systems Analysis of Drug Action Drug Transport / Metabolism