Wang Yu, Bi Cheng, Kawamata Yu, Grant Lauren N, Samp Lacey, Richardson Paul F, Zhang Shasha, Harper Kaid C, Palkowitz Maximilian D, Vasilopoulos Aristidis, Collins Michael R, Oderinde Martins S, Tyrol Chet C, Chen Doris, LaChapelle Erik A, Bailey Jake B, Qiao Jennifer X, Baran Phil S
Department of Chemistry, Scripps Research, La Jolla, CA, USA.
Chemical Process Development, Bristol Myers Squibb, New Brunswick, NJ, USA.
Nat Chem. 2024 Sep;16(9):1539-1545. doi: 10.1038/s41557-024-01539-4. Epub 2024 May 20.
Electrophilic halogenation is a widely used tool employed by medicinal chemists to either pre-functionalize molecules for further diversity or incorporate a halogen atom into drugs or drug-like compounds to solve metabolic problems or modulate off-target effects. Current methods to increase the power of halogenation rely on either the invention of new reagents or activating commercially available reagents with various additives such as Lewis or Brønsted acids, Lewis bases and hydrogen-bonding activators. There is a high demand for new reagents that can halogenate otherwise unreactive compounds under mild conditions. Here we report the invention of a class of halogenating reagents based on anomeric amides, taking advantage of the energy stored in the pyramidalized nitrogen of N-X anomeric amides as a driving force. These robust halogenating methods are compatible with a variety of functional groups and heterocycles, as exemplified on over 50 compounds (including 13 gram-scale examples and 1 flow chemistry scale-up).
亲电卤化是药物化学家广泛使用的一种工具,用于对分子进行预官能团化以实现进一步的多样化,或将卤原子引入药物或类药物化合物中,以解决代谢问题或调节脱靶效应。目前提高卤化能力的方法要么依赖于新试剂的发明,要么使用各种添加剂(如路易斯酸或布朗斯特酸、路易斯碱和氢键活化剂)来活化市售试剂。人们迫切需要能够在温和条件下卤化原本不反应的化合物的新试剂。在此,我们报告了一类基于端基酰胺的卤化试剂的发明,利用N-X端基酰胺中锥形氮储存的能量作为驱动力。这些强大的卤化方法与多种官能团和杂环兼容,超过50种化合物(包括13个克级实例和1个流动化学放大实例)就是例证。
