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2,3-苯并二氮杂䓬衍生物抑制 GluA2 AMPA 受体通道开放的机制:用 7,8-亚乙基二氧基取代 7,8-亚甲二氧基的功能后果。

Mechanism of inhibition of GluA2 AMPA receptor channel opening by 2,3-benzodiazepine derivatives: functional consequences of replacing a 7,8-methylenedioxy with a 7,8-ethylenedioxy moiety.

机构信息

Department of Chemistry and Center for Neuroscience Research, University at Albany, SUNY, Albany, New York 12222, United States.

出版信息

Biochemistry. 2012 Feb 28;51(8):1787-95. doi: 10.1021/bi2017552. Epub 2012 Feb 13.

DOI:10.1021/bi2017552
PMID:22304561
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3329945/
Abstract

2,3-Benzodiazepine (2,3-BDZ) compounds are a group of AMPA receptor inhibitors and are drug candidates for treating neurological diseases involving excessive AMPA receptor activity. We investigated the mechanism by which GluA2Q(flip) receptor channel opening is inhibited by two 2,3-BDZ derivatives, i.e., 1-(4-aminophenyl)-3,5-dihydro-7,8-ethylenedioxy-4H-2,3-benzodiazepin-4-one (2,3-BDZ-11-2) and its 1-(4-amino-3-chlorophenyl) analogue (2,3-BDZ-11-4). Both compounds have a 7,8-ethylenedioxy moiety instead of the 7,8-methylenedioxy feature present in the structure of GYKI 52466, the prototypic 2,3-BDZ compound. Using a laser-pulse photolysis approach with a time resolution of ~60 μs and a rapid solution flow technique, we characterized the effect of the two compounds on the channel opening process of the homomeric GluA2Q(flip) receptor. We found that both 2,3-BDZ-11-2 and 2,3-BDZ-11-4 are noncompetitive inhibitors with specificity for the closed-channel conformation of the GluA2Q(flip) receptor. However, 2,3-BDZ-11-4 is ~10-fold stronger, defined by its inhibition constant for the closed-channel conformation (i.e., K(I) = 2 μM), than 2,3-BDZ-11-2. From double-inhibitor experiments, we determined that both compounds bind to the same site, but this site is different from two other known, noncompetitive binding sites on the GluA2Q(flip) receptor previously reported. Our results provide both mechanistic clues to improve our understanding of AMPA receptor regulation and a structure-activity relationship for designing more potent 2,3-BDZ compounds with predictable properties for this new noncompetitive site.

摘要

2,3-苯并二氮䓬(2,3-BDZ)化合物是一组 AMPA 受体抑制剂,是治疗涉及 AMPA 受体过度活性的神经疾病的候选药物。我们研究了两种 2,3-BDZ 衍生物,即 1-(4-氨基苯基)-3,5-二氢-7,8-亚乙基二氧基-4H-2,3-苯并二氮䓬-4-酮(2,3-BDZ-11-2)及其 1-(4-氨基-3-氯苯基)类似物(2,3-BDZ-11-4)抑制 GluA2Q(flip) 受体通道开放的机制。这两种化合物都有 7,8-亚乙基二氧基部分,而不是 GYKI 52466 结构中存在的 7,8-亚甲基二氧基特征,GYKI 52466 是典型的 2,3-BDZ 化合物。我们使用激光脉冲光解方法,时间分辨率约为 60 μs,并采用快速溶液流动技术,表征了这两种化合物对同型 GluA2Q(flip) 受体通道开放过程的影响。我们发现,2,3-BDZ-11-2 和 2,3-BDZ-11-4 都是非竞争性抑制剂,对 GluA2Q(flip) 受体的关闭通道构象具有特异性。然而,2,3-BDZ-11-4 的作用要强约 10 倍,其对关闭通道构象的抑制常数(即 K(I) = 2 μM)表明这一点。从双抑制剂实验中,我们确定这两种化合物结合在相同的位点,但这个位点与之前报道的 GluA2Q(flip) 受体上的另外两个已知的非竞争性结合位点不同。我们的结果为 AMPA 受体调节提供了机制线索,并为设计具有可预测性质的更有效 2,3-BDZ 化合物提供了结构-活性关系,用于这个新的非竞争性位点。

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ACS Chem Neurosci. 2011 May 12;2(9):506-513. doi: 10.1021/cn200033j.
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