de Lemos Elsa, Porée François-Hugues, Bourin Arnaud, Barbion Julien, Agouridas Evangelos, Lannou Marie-Isabelle, Commerçon Alain, Betzer Jean-François, Pancrazi Ange, Ardisson Janick
Université Paris Descartes, Faculté de Pharmacie, CNRS UMR 8638, 4 avenue de l'Observatoire, 75270 Paris Cedex, France.
Chemistry. 2008;14(35):11092-112. doi: 10.1002/chem.200801478.
An efficient and modulable total synthesis of discodermolide (DDM), a unique marine anticancer polyketide is described including related alternative synthetic approaches. Particularly notable is the repeated application of a crotyltitanation reaction to yield homoallylic (Z)-O-ene-carbamate alcohols with excellent selectivity. Advantage was taken of this reaction not only for the stereocontrolled building of the syn-anti methyl-hydroxy-methyl triads of DDM, but also for the direct construction of the terminal (Z)-diene. Of particular interest is also the installation of the C13=C14 (Z)-double bond through a highly selective dyotropic rearrangement. The preparation of the middle C8-C14 fragment in two sequential stages and its coupling to the C1-C7 moiety was a real challenge and required careful optimization. Several synthetic routes were explored to allow high and reliable yields. Due to the flexibility and robust character of this approach, it might enable a systematic structural variation of DDM and, therefore, the elaboration and exploration of novel discodermolide structural analogues.
本文描述了一种高效且可调节的全合成方法来合成独特的海洋抗癌聚酮化合物盘状二萜内酯(DDM),包括相关的替代合成方法。特别值得注意的是,巴豆基钛化反应的重复应用能够以优异的选择性生成高烯丙基(Z)-O-烯-氨基甲酸酯醇。该反应不仅被用于立体控制构建DDM的顺式-反式甲基-羟基-甲基三联体,还用于直接构建末端(Z)-二烯。特别有趣的是,通过高度选择性的双烯重排来安装C13 = C14(Z)-双键。分两个连续阶段制备中间的C8 - C14片段并将其与C1 - C7部分偶联是一项真正的挑战,需要仔细优化。探索了几种合成路线以实现高且可靠的产率。由于这种方法的灵活性和稳健性,它可能使DDM能够进行系统的结构变化,从而能够对新型盘状二萜内酯结构类似物进行精心设计和探索。
