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ELQ-300、ELQ-316及其他抗寄生虫喹诺酮类药物的新型可扩展合成法

A New Scalable Synthesis of ELQ-300, ELQ-316, and other Antiparasitic Quinolones.

作者信息

Pou Sovitj, Dodean Rozalia A, Frueh Lisa, Liebman Katherine M, Gallagher Rory T, Jin Haihong, Jacobs Robert T, Nilsen Aaron, Stuart David R, Doggett J Stone, Riscoe Michael K, Winter Rolf W

机构信息

VA Portland Healthcare System, 3710 SW US Veterans Hospital Road, Portland, Oregon 97239, United States.

Department of Chemistry, Portland State University, 1719 SW 10 Avenue, Portland, Oregon 97201, United States.

出版信息

Org Process Res Dev. 2021 Aug 20;25(8):1841-1852. doi: 10.1021/acs.oprd.1c00099. Epub 2021 Aug 4.

DOI:10.1021/acs.oprd.1c00099
PMID:35110959
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8802981/
Abstract

The Endochin-Like Quinolone (ELQ) compound class may yield effective, safe treatments for a range of important human and animal afflictions. However, to access the public health potential of this compound series, a synthetic route needed to be devised that lowers costs and is amenable to large scale production. In the new synthetic route described here, a substituted β-keto ester, formed by an Ullmann reaction and subsequent acylation, is reacted with an aniline via a Conrad-Limpach reaction to produce 3-substituted 4(1H)-quinolones such as and . This synthetic route, the first described to be truly amenable to industrial scale production, is relatively short (5 reaction steps), does not require palladium, chromatographic separation or protecting group chemistry, and may be performed without high vacuum distillation.

摘要

类内二氯喹啉酮(ELQ)化合物类别可能为一系列重要的人类和动物疾病提供有效、安全的治疗方法。然而,为了挖掘该化合物系列的公共卫生潜力,需要设计出一种降低成本且适合大规模生产的合成路线。在此描述的新合成路线中,通过乌尔曼反应和后续酰化形成的取代β-酮酯,经康拉德-林帕赫反应与苯胺反应,生成3-取代的4(1H)-喹啉酮,如 和 。这条合成路线是首次被描述为真正适合工业规模生产的路线,相对较短(5步反应),不需要钯、色谱分离或保护基化学,并且无需高真空蒸馏即可进行。

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