金刚烷修饰对可溶性环氧化物水解酶抑制活性、物理性质和代谢稳定性的影响。

Effects of adamantane alterations on soluble epoxide hydrolase inhibition potency, physical properties and metabolic stability.

机构信息

Department of Entomology and Nematology, and UC Davis Comprehensive Cancer Center, University of California, Davis, CA, 95616, USA; Department of Chemistry, Technology and Equipment of Chemical Industry, Volzhsky Polytechnic Institute (branch) Volgograd State Technical University, Volzhsky, Russia.

Department of Entomology and Nematology, and UC Davis Comprehensive Cancer Center, University of California, Davis, CA, 95616, USA.

出版信息

Bioorg Chem. 2018 Feb;76:510-527. doi: 10.1016/j.bioorg.2017.12.024. Epub 2017 Dec 30.

DOI:10.1016/j.bioorg.2017.12.024

PMID:29310082

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5837815/

Abstract

Adamantyl groups are widely used in medicinal chemistry. However, metabolism limits their usage. Herein, we report the first systematic study of adamantyl ureas and diureas bearing substituents in bridgehead positions of adamantane and/or spacers between urea groups and adamantane group, and tested their effects on soluble epoxide hydrolase inhibitor potency and metabolic stability. Interestingly, the effect on activity against human and murine sEH varied in opposite ways with each new methyl group introduced into the molecule. Compounds with three methyl substituents in adamantane were very poor inhibitors of murine sEH while still very potent against human sEH. In addition, diureas with terminal groups bigger than sEH catalytic tunnel diameter were still good inhibitors suggesting that the active site of sEH opens to capture the substrate or inhibitor molecule. The introduction of one methyl group leads to 4-fold increase in potency without noticeable loss of metabolic stability compared to the unsubstituted adamantane. However, introduction of two or three methyl groups leads to 8-fold and 98-fold decrease in stability in human liver microsomes for the corresponding compounds.

摘要

金刚烷基广泛应用于药物化学中。然而，代谢会限制其使用。在此，我们报告了对桥头位取代的金刚烷基脲和二脲以及脲基与金刚烷之间间隔基取代的金刚烷基脲和二脲的首次系统研究，并测试了它们对可溶性环氧化物水解酶抑制剂效力和代谢稳定性的影响。有趣的是，每个新引入到分子中的甲基对活性的影响方式都与人类和鼠 sEH 不同。在金刚烷中引入三个甲基取代基的化合物对鼠 sEH 的抑制作用很差，但对人 sEH 仍然非常有效。此外，末端基团大于 sEH 催化隧道直径的二脲仍然是良好的抑制剂，这表明 sEH 的活性位点打开以捕获底物或抑制剂分子。与未取代的金刚烷相比，引入一个甲基可使效力增加 4 倍，而代谢稳定性几乎没有损失。然而，对于相应的化合物，在人肝微粒体中引入两个或三个甲基会导致稳定性分别下降 8 倍和 98 倍。

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