N1-取代喹喔啉-2,3-二酮作为红藻氨酸受体拮抗剂：X 射线晶体学、构效关系和体外药理学。

N1-Substituted Quinoxaline-2,3-diones as Kainate Receptor Antagonists: X-ray Crystallography, Structure-Affinity Relationships, and in Vitro Pharmacology.

机构信息

Department of Drug Design and Pharmacology, Faculty of Health and Medical Sciences , University of Copenhagen , DK-2100 Copenhagen , Denmark.

出版信息

ACS Chem Neurosci. 2019 Mar 20;10(3):1841-1853. doi: 10.1021/acschemneuro.8b00726. Epub 2019 Jan 23.

DOI:10.1021/acschemneuro.8b00726

PMID:30620174

Abstract

Among the ionotropic glutamate receptors, the physiological role of kainate receptors is less well understood. Although ligands with selectivity toward the kainate receptor subtype GluK1 are available, tool compounds with selectivity at the remaining kainate receptor subtypes are sparse. Here, we have synthesized a series of quinoxaline-2,3-diones with substitutions in the N1-, 6-, and 7-position to investigate the structure-activity relationship (SAR) at GluK1-3 and GluK5. Pharmacological characterization at native and recombinant kainate and AMPA receptors revealed that compound 37 had a GluK3-binding affinity ( K) of 0.142 μM and 8-fold preference for GluK3 over GluK1. Despite lower binding affinity of 22 at GluK3 ( K = 2.91 μM), its preference for GluK3 over GluK1 and GluK2 was >30-fold. Compound 37 was crystallized with the GluK1 ligand-binding domain to understand the SAR. The X-ray structure showed that 37 stabilized the protein in an open conformation, consistent with an antagonist binding mode.

摘要

在离子型谷氨酸受体中，亲代受体的生理作用还不太清楚。尽管有针对亲代受体亚型 GluK1 的选择性配体，但对其余亲代受体亚型具有选择性的工具化合物却很少。在这里，我们合成了一系列 N1-、6-和 7-位取代的喹喔啉-2,3-二酮，以研究 GluK1-3 和 GluK5 的构效关系（SAR）。在天然和重组亲代和 AMPA 受体上的药理学特征表明，化合物 37 对 GluK3 的结合亲和力（ K）为 0.142 μM，对 GluK3 的选择性是 GluK1 的 8 倍。尽管化合物 22 对 GluK3 的结合亲和力较低（ K = 2.91 μM），但其对 GluK3 相对于 GluK1 和 GluK2 的选择性>30 倍。化合物 37 与 GluK1 配体结合域结晶，以了解 SAR。X 射线结构显示，37 稳定了蛋白的开放构象，与拮抗剂结合模式一致。

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N1-取代喹喔啉-2,3-二酮作为红藻氨酸受体拮抗剂：X 射线晶体学、构效关系和体外药理学。

N1-Substituted Quinoxaline-2,3-diones as Kainate Receptor Antagonists: X-ray Crystallography, Structure-Affinity Relationships, and in Vitro Pharmacology.

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