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作为拓扑异构酶I抑制剂的14-取代芳香霉素的设计、合成及生物学评价

Design, synthesis, and biological evaluation of 14-substituted aromathecins as topoisomerase I inhibitors.

作者信息

Cinelli Maris A, Morrell Andrew, Dexheimer Thomas S, Scher Evan S, Pommier Yves, Cushman Mark

机构信息

Department of Medicinal Chemistry and Molecular Pharmacology, School of Pharmacy and Pharmaceutical Sciences, Purdue CancerCenter, Purdue University, West Lafayette, Indiana 47907, USA.

出版信息

J Med Chem. 2008 Aug 14;51(15):4609-19. doi: 10.1021/jm800259e. Epub 2008 Jul 17.

DOI:10.1021/jm800259e
PMID:18630891
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2538619/
Abstract

The aromathecin or "rosettacin" class of topoisomerase I (top1) inhibitors is effectively a "composite" of the natural products camptothecin and luotonin A and the synthetic indenoisoquinolines. The aromathecins have aroused considerable interest following the isolation and total synthesis of 22-hydroxyacuminatine, a rare cytotoxic natural product containing the 12 H-5,11a-diazadibenzo[ b, h]fluoren-11-one system. We have developed two novel syntheses of this system and prepared a series of 14-substituted aromathecins as novel antiproliferative topoisomerase I poisons. These inhibitors are proposed to act via an intercalation and "poisoning" mechanism identical to camptothecin and the indenoisoquinolines. Many of these compounds possess greater antiproliferative activity and anti-top1 activity than the parent unsubstituted compound (rosettacin) and previously synthesized aromathecins, as well as greater top1 inhibitory activity than 22-hydroxyacuminatine. In addition to potentially aiding solubility and localization to the DNA-enzyme complex, nitrogenous substituents located at the 14-position of the aromathecin system have been proposed to project into the major groove of the top1-DNA complex and hydrogen-bond to major-groove amino acids, thereby stabilizing the ternary complex.

摘要

芳香喜树碱或“玫瑰树碱”类拓扑异构酶I(top1)抑制剂实际上是天然产物喜树碱和路脱辛A与合成茚并异喹啉的“复合物”。在分离并全合成了22 - 羟基尖刺树碱(一种含有12H - 5,11a - 二氮杂二苯并[b,h]芴 - 11 - 酮体系的罕见细胞毒性天然产物)之后,芳香喜树碱引起了人们的极大兴趣。我们已经开发了该体系的两种新合成方法,并制备了一系列14 - 取代的芳香喜树碱作为新型抗增殖拓扑异构酶I毒药。这些抑制剂被认为通过与喜树碱和茚并异喹啉相同的嵌入和“中毒”机制起作用。许多此类化合物比母体未取代化合物(玫瑰树碱)和先前合成的芳香喜树碱具有更高的抗增殖活性和抗top1活性,并且比22 - 羟基尖刺树碱具有更高的top1抑制活性。除了可能有助于溶解性和定位于DNA - 酶复合物外,芳香喜树碱体系14位上的含氮取代基被认为会伸入top1 - DNA复合物的大沟并与大沟氨基酸形成氢键,从而稳定三元复合物。

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