半导体光催化协同激活水和醇实现工程氘代 N-烷基药物

Semiconductor photocatalysis to engineering deuterated N-alkyl pharmaceuticals enabled by synergistic activation of water and alkanols.

机构信息

International Collaborative Laboratory of 2D Materials for Optoelectronic Science & Technology of Ministry of Education, Engineering Technology Research Center for 2D Materials Information Functional Devices and Systems of Guangdong Province, Institute of Microscale Optoeletronics, Shenzhen University, 518060, Shenzhen, China.

Department of Chemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK.

出版信息

Nat Commun. 2020 Sep 18;11(1):4722. doi: 10.1038/s41467-020-18458-w.

DOI:10.1038/s41467-020-18458-w

PMID:32948764

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7501254/

Abstract

Precisely controlled deuterium labeling at specific sites of N-alkyl drugs is crucial in drug-development as over 50% of the top-selling drugs contain N-alkyl groups, in which it is very challenging to selectively replace protons with deuterium atoms. With the goal of achieving controllable isotope-labeling in N-alkylated amines, we herein rationally design photocatalytic water-splitting to furnish [H] or [D] and isotope alkanol-oxidation by photoexcited electron-hole pairs on a polymeric semiconductor. The controlled installation of N-CH -CDH -CDH, -CD, and -CH groups into pharmaceutical amines thus has been demonstrated by tuning isotopic water and methanol. More than 50 examples with a wide range of functionalities are presented, demonstrating the universal applicability and mildness of this strategy. Gram-scale production has been realized, paving the way for the practical photosynthesis of pharmaceuticals.

摘要

精确定制 N-烷基药物特定位置的氘标记在药物开发中至关重要，因为超过 50%的畅销药物都含有 N-烷基基团，而在其中选择性地用氘原子取代质子非常具有挑战性。为了实现 N-烷基胺的可控同位素标记，我们在此通过光激发半导体上的电子-空穴对合理设计光催化水分解以提供 [H] 或 [D] 和同位素仲醇氧化。通过调节同位素水和甲醇，已经证明可以将 N-CH -CDH -CDH、-CD 和 -CH 基团可控地安装到药物胺中。提出了 50 多个具有广泛功能的实例，证明了该策略的通用性和温和性。已经实现了克级规模的生产，为药物的实际光合作用铺平了道路。

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半导体光催化协同激活水和醇实现工程氘代 N-烷基药物

Semiconductor photocatalysis to engineering deuterated N-alkyl pharmaceuticals enabled by synergistic activation of water and alkanols.

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