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通过基于配体和基于结构的药物设计相结合的方法设计的具有扩展碳环骨架的新型醛固酮合成酶抑制剂。

Novel aldosterone synthase inhibitors with extended carbocyclic skeleton by a combined ligand-based and structure-based drug design approach.

作者信息

Lucas Simon, Heim Ralf, Negri Matthias, Antes Iris, Ries Christina, Schewe Katarzyna E, Bisi Alessandra, Gobbi Silvia, Hartmann Rolf W

机构信息

Pharmaceutical and Medicinal Chemistry, Saarland University, Saarbrucken, Germany.

出版信息

J Med Chem. 2008 Oct 9;51(19):6138-49. doi: 10.1021/jm800683c. Epub 2008 Sep 3.

DOI:10.1021/jm800683c
PMID:18763754
Abstract

Pharmacophore modeling of a series of aldosterone synthase (CYP11B2) inhibitors triggered the design of compounds 11 and 12 by extending a previously established naphthalene molecular scaffold (e.g., present in molecules 1 and 2) via introduction of a phenyl or benzyl residue in 3-position. These additional aromatic moieties have been hypothesized to fit into the newly identified hydrophobic pharmacophore feature HY3. Subsequent docking studies in our refined CYP11B2 protein model have been performed prior to synthesis to estimate the inhibitory properties of the proposed molecules. While phenyl-substituted compound 11 (IC50 > 500 nM) did not dock under the given pharmacophore constraint (i.e., the Fe(heme)-N(ligand) interaction), benzyl-substituted compound 12 (IC50 = 154 nM) was found to exploit a previously unexplored subpocket of the inhibitor binding site. By structural optimization based on the pharmacophore hypothesis, 25 novel compounds were synthesized, among them highly potent CYP11B2 inhibitors (e.g., 17, IC50 = 2.7 nM) with pronounced selectivity toward the most important steroidogenic and hepatic CYP enzymes.

摘要

对一系列醛固酮合酶(CYP11B2)抑制剂进行药效团建模,通过在3位引入苯基或苄基残基来扩展先前建立的萘分子骨架(如存在于分子1和2中),从而设计出化合物11和12。据推测,这些额外的芳香基团可契合新确定的疏水药效团特征HY3。在合成之前,已在我们优化的CYP11B2蛋白模型中进行了后续对接研究,以评估所提出分子的抑制特性。虽然苯基取代的化合物11(IC50>500 nM)在给定的药效团限制条件下(即Fe(血红素)-N(配体)相互作用)无法对接,但发现苄基取代的化合物12(IC50 = 154 nM)利用了抑制剂结合位点中一个先前未探索的亚口袋。基于药效团假说进行结构优化,合成了25种新型化合物,其中包括对最重要的类固醇生成和肝脏CYP酶具有显著选择性的高效CYP11B2抑制剂(如17,IC50 = 2.7 nM)。

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