羟基羧酸酰胺的无保护基机械合成:应用于伊马替尼的合成

Tatsiana Nikonovich, Tatsiana Jarg, Jevgenija Martõnova, Artjom Kudrjašov, Danylo Merzhyievskyi, Marina Kudrjašova, Fabrice Gallou, Riina Aav and Dzmitry Kananovich
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摘要

尽管在机械化学酰胺偶联方面取得了相当大的进展,但针对这些转化过程中的化学选择性问题(如未掩蔽羟基的耐受性)的研究却很少。鉴于酰胺偶联反应在合成活性药物成分 (API) 中的高度实际意义,我们旨在研究羧酸中未受保护的羟基对各种已报道的机械化学酰胺偶联条件的耐受性。结果表明,1-乙基-3-(3-二甲胺基丙基)碳二亚胺盐酸盐(EDC-HCl)与作为液体辅助研磨(LAG)添加剂的乙酸乙酯结合使用,是选择性最强的酰胺偶联体系,可从一系列羟基羧酸(包括 N-Boc 保护的氨基酸丝氨酸和酪氨酸)中生成产率为 76-94% 的酰胺。EDC 介导的酰胺偶联方案被用于合成伊马替尼,这是一种被列入世界卫生组织基本药物清单的抗癌药物。以 4-(羟甲基)苯甲酸为起点,通过两步机械化学 C-N 键组装反应序列合成了目标原料药,总收率为 86%,HPLC 纯度为 99%。
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Protecting-group-free mechanosynthesis of amides from hydroxycarboxylic acids: application to the synthesis of imatinib†

Despite considerable advancements in mechanochemical amide couplings, there is a paucity of studies addressing chemoselective issues in these transformations, such as the tolerance of unmasked hydroxyl groups. In view of the high practical significance of amide coupling reactions in the synthesis of active pharmaceutical ingredients (APIs), we aimed to investigate the tolerance of unprotected hydroxyls in carboxylic acids towards various reported mechanochemical amide coupling conditions. 1-Ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride (EDC·HCl) in combination with ethyl acetate as a liquid-assisted grinding (LAG) additive was revealed as the most selective amide coupling system that delivers 76–94% yields of amides from a range of hydroxycarboxylic acids, including N-Boc-protected amino acids serine and tyrosine. The EDC-mediated amide coupling protocol was employed in the synthesis of imatinib, an anticancer drug included in the World Health Organization's List of Essential Medicines. The target API was synthesized in an overall 86% yield and 99% HPLC purity through a two-step mechanochemical C–N bond assembling reaction sequence starting from 4-(hydroxymethyl)benzoic acid.

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Back cover Vortex mediated fabrication of 2D antimonene sheets from antimony powder† Mechanical approach for creating different molecular adducts and regulating salt polymorphs: a case study of the anti-inflammatory medication ensifentrine† Exploring mass transfer as a parameter in mechanochemical processes† Back cover
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