一碳插入和极性反转使吡咯策略能够用于含吡啶生物碱的全合成:Complanadine A 和 Lycodine。
One-Carbon Insertion and Polarity Inversion Enabled a Pyrrole Strategy to the Total Syntheses of Pyridine-Containing Alkaloids: Complanadine A and Lycodine.
机构信息
Department of Chemistry and Center for Cancer Research, Purdue University, West Lafayette, Indiana 47907, United States.
出版信息
J Am Chem Soc. 2021 Oct 13;143(40):16383-16387. doi: 10.1021/jacs.1c08626. Epub 2021 Sep 27.
Abstract
Complanadine A and lycodine are representative members of the alkaloids with a characteristic pyridine-containing tetracyclic skeleton. Complanadine A has demonstrated promising neurotrophic activity and potential for persistent pain management. Herein we report a pyrrole strategy enabled by one-carbon insertion and polarity inversion for concise total syntheses of complanadine A and lycodine. The use of a pyrrole as the pyridine precursor allowed the rapid construction of their tetracyclic skeleton via a one-pot Staudinger reduction, amine-ketone condensation, and Mannich-type cyclization. The pyrrole group was then converted to the desired pyridine by the Ciamician-Dennstedt rearrangement via a one-carbon insertion process, which also simultaneously introduced a chloride at C3 for the next C-H arylation. Other key steps include a direct -Markovnikov hydroazidation, a Mukaiyama-Michael addition, and a Paal-Knorr pyrrole synthesis. Lycodine and complanadine A were prepared in 8 and 11 steps, respectively, from a readily available known compound.
摘要
石蒜裂碱 A 和石蒜宁是具有特征性吡啶含四环骨架的生物碱的代表性成员。石蒜裂碱 A 具有有前景的神经营养活性和持续疼痛管理的潜力。在此,我们报告了一种通过一碳插入和极性反转实现的吡咯策略,用于简洁地全合成石蒜裂碱 A 和石蒜宁。使用吡咯作为吡啶前体,通过一锅 Staudinger 还原、胺-酮缩合和Mannich 型环化反应,可快速构建它们的四环骨架。然后,吡咯基团通过 Ciamician-Dennstedt 重排转化为所需的吡啶,该重排通过一碳插入过程进行,同时在 C3 位引入一个氯原子,以便下一步进行 C-H 芳基化。其他关键步骤包括直接 Markovnikov 氢叠氮化、Mukaiyama-Michael 加成和 Paal-Knorr 吡咯合成。石蒜宁和石蒜裂碱 A 分别从易得的已知化合物出发,经 8 步和 11 步反应制备得到。
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