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导向多样性合成产生了一种用于治疗恰加斯病的新型药物先导物。

Diversity-oriented synthesis yields a new drug lead for treatment of chagas disease.

作者信息

Dandapani Sivaraman, Germain Andrew R, Jewett Ivan, le Quement Sebastian, Marie Jean-Charles, Muncipinto Giovanni, Duvall Jeremy R, Carmody Leigh C, Perez Jose R, Engel Juan C, Gut Jiri, Kellar Danielle, Siqueira-Neto Jair Lage, McKerrow James H, Kaiser Marcel, Rodriguez Ana, Palmer Michelle A, Foley Michael, Schreiber Stuart L, Munoz Benito

机构信息

Center for the Science of Therapeutics, Therapeutics Platform, Broad Institute of MIT and Harvard , 7 Cambridge Center, Cambridge, Massachusetts 02142, United States.

Center for Discovery and Innovation in Parasitic Diseases, University of California San Francisco , 1700 Fourth Street, San Francisco, California 94158, United States.

出版信息

ACS Med Chem Lett. 2013 Dec 29;5(2):149-53. doi: 10.1021/ml400403u. eCollection 2014 Feb 13.

DOI:10.1021/ml400403u
PMID:24900788
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4027639/
Abstract

A phenotypic high-throughput screen using ∼100,000 compounds prepared using Diversity-Oriented Synthesis yielded stereoisomeric compounds with nanomolar growth-inhibition activity against the parasite Trypanosoma cruzi, the etiological agent of Chagas disease. After evaluating stereochemical dependence on solubility, plasma protein binding and microsomal stability, the SSS analogue (5) was chosen for structure-activity relationship studies. The p-phenoxy benzyl group appended to the secondary amine could be replaced with halobenzyl groups without loss in potency. The exocyclic primary alcohol is not needed for activity but the isonicotinamide substructure is required for activity. Most importantly, these compounds are trypanocidal and hence are attractive as drug leads for both acute and chronic stages of Chagas disease. Analogue (5) was nominated as the molecular libraries probe ML341 and is available through the Molecular Libraries Probe Production Centers Network.

摘要

一项使用约10万种通过多样性导向合成制备的化合物进行的表型高通量筛选,得到了对恰加斯病的病原体克氏锥虫具有纳摩尔级生长抑制活性的立体异构化合物。在评估了立体化学对溶解度、血浆蛋白结合和微粒体稳定性的依赖性后,选择了SSS类似物(5)进行构效关系研究。连接在仲胺上的对苯氧基苄基可以被卤代苄基取代而不损失效力。环外伯醇对于活性不是必需的,但异烟酰胺亚结构是活性所必需的。最重要的是,这些化合物具有杀锥虫作用,因此作为恰加斯病急性和慢性阶段的药物先导物很有吸引力。类似物(5)被指定为分子文库探针ML341,可通过分子文库探针生产中心网络获得。

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