一种面向多样性的新型 2,3--取代 l-脯氨酸类似物的合成方法，作为离子型谷氨酸受体的潜在配体。

A Diversity Oriented Synthesis Approach to New 2,3--Substituted l-Proline Analogs as Potential Ligands for the Ionotropic Glutamate Receptors.

机构信息

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

出版信息

ACS Chem Neurosci. 2020 Mar 4;11(5):702-714. doi: 10.1021/acschemneuro.0c00005. Epub 2020 Feb 18.

DOI:10.1021/acschemneuro.0c00005

PMID:32069018

Abstract

Discovery of chemical tools for the ionotropic glutamate receptors continues to be a challenging task. Herein we report a diversity-oriented approach to new 2,3--l-proline analogs whereby we study how the spatial orientation of the distal carboxylate group influences the binding affinity and receptor class and subtype selectivity. In total, 10 new analogs were synthesized and 14 stereoisomers characterized in binding assays at native rat ionotropic glutamate receptors, and at cloned human homomeric kainic acid (KA) receptor subtypes GluK1-3. The study identified isoxazole analogs ,, which displayed selectivity in binding at native -methyl-d-aspartate (NMDA) receptors over native α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and KA receptors, in the high nanomolar to low micromolar range. Furthermore, analogs showed a preference in binding affinity for GluK3 over GluK1,2. Finally, analog displayed high nanomolar affinity for native NMDA receptors as well as for homomeric GluK3 receptors.

摘要

发现离子型谷氨酸受体的化学工具仍然是一项具有挑战性的任务。在此，我们报告了一种针对新型 2,3--L-脯氨酸类似物的多样性导向方法，研究了远端羧酸盐基团的空间取向如何影响结合亲和力和受体类别及亚型选择性。总共合成了 10 个新的类似物，并在结合测定中对 14 个立体异构体进行了表征，这些测定是在天然大鼠离子型谷氨酸受体以及克隆的人同源性海人酸 (KA) 受体亚型 GluK1-3 上进行的。该研究确定了异噁唑类似物、，它们在结合测定中表现出对天然 -甲基-D-天冬氨酸 (NMDA) 受体的选择性，而对天然 α-氨基-3-羟基-5-甲基-4-异噁唑丙酸 (AMPA) 和 KA 受体的选择性在高纳摩尔至低微摩尔范围内。此外，类似物显示出对 GluK3 受体的结合亲和力偏好，高于 GluK1,2。最后，类似物对天然 NMDA 受体以及同源性 GluK3 受体均表现出高纳摩尔亲和力。

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一种面向多样性的新型 2,3--取代 l-脯氨酸类似物的合成方法，作为离子型谷氨酸受体的潜在配体。

A Diversity Oriented Synthesis Approach to New 2,3--Substituted l-Proline Analogs as Potential Ligands for the Ionotropic Glutamate Receptors.

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