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设计、合成及 4-喹啉羧酸类化合物作为二氢乳清酸脱氢酶抑制剂的生物评价。

Design, Synthesis, and Biological Evaluation of 4-Quinoline Carboxylic Acids as Inhibitors of Dihydroorotate Dehydrogenase.

机构信息

Life Sciences Institute and Department of Biological Chemistry , University of Michigan , Ann Arbor , Michigan 48109 , United States.

出版信息

J Med Chem. 2018 Jun 28;61(12):5162-5186. doi: 10.1021/acs.jmedchem.7b01862. Epub 2018 May 14.

DOI:10.1021/acs.jmedchem.7b01862
PMID:29727569
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8859982/
Abstract

We pursued a structure-guided approach toward the development of improved dihydroorotate dehydrogenase (DHODH) inhibitors with the goal of forming new interactions between DHODH and the brequinar class of inhibitors. Two potential residues, T63 and Y356, suitable for novel H-bonding interactions, were identified in the brequinar-binding pocket. Analogues were designed to maintain the essential pharmacophore and form new electrostatic interactions through strategically positioned H-bond accepting groups. This effort led to the discovery of potent quinoline-based analogues 41 (DHODH IC = 9.71 ± 1.4 nM) and 43 (DHODH IC = 26.2 ± 1.8 nM). A cocrystal structure between 43 and DHODH depicts a novel water mediated H-bond interaction with T63. Additional optimization led to the 1,7-naphthyridine 46 (DHODH IC = 28.3 ± 3.3 nM) that forms a novel H-bond with Y356. Importantly, compound 41 possesses significant oral bioavailability ( F = 56%) and an elimination t = 2.78 h (PO dosing). In conclusion, the data supports further preclinical studies of our lead compounds toward selection of a candidate for early-stage clinical development.

摘要

我们采用结构导向的方法开发改进的二氢乳清酸脱氢酶 (DHODH) 抑制剂,旨在在 DHODH 和布雷喹纳类抑制剂之间形成新的相互作用。在布雷喹纳结合口袋中鉴定出两个适合新氢键相互作用的潜在残基 T63 和 Y356。设计类似物以保持必需的药效团,并通过策略定位的氢键接受基团形成新的静电相互作用。这项工作导致发现了有效的基于喹啉的类似物 41(DHODH IC = 9.71 ± 1.4 nM)和 43(DHODH IC = 26.2 ± 1.8 nM)。43 和 DHODH 之间的共晶结构描绘了与 T63 的新型水介导氢键相互作用。进一步优化导致了 1,7-萘啶 46(DHODH IC = 28.3 ± 3.3 nM),它与 Y356 形成新的氢键。重要的是,化合物 41 具有显著的口服生物利用度(F = 56%)和消除 t = 2.78 h(PO 给药)。总之,数据支持我们的先导化合物进行进一步的临床前研究,以选择候选药物进行早期临床开发。

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