Graduate School of Pharmaceutical Sciences, Tohoku University 6-3 Aza-Aoba, Aramaki, Aoba-ku, Sendai 980-8578, Japan.
J Org Chem. 2014 Jan 3;79(1):296-306. doi: 10.1021/jo402437z. Epub 2013 Nov 22.
The scalable solution-phase synthesis of the cyclodepsipeptide destruxin E (1) has been achieved. Diastereoselective dihydroxylation of the terminal alkene in a 2-alkoxy-4-pentenoic amide, 7, was successfully accomplished utilizing (DHQD)2PHAL as the chiral ligand, and it was found that the use of the l-proline moiety in the substrate as a chiral auxiliary was essential for the induction of high diastereoselectivity to afford the key compound 4 on a gram scale. MNBA-mediated macrolactonization of 3 was also performed without formation of the dimerized product even under higher-dilution conditions, and it is noteworthy that the internal hydrogen bonds and s-cis configuration of the amide bond between N-methylalanine and N-methylvaline in the cyclization precursor 3 would assist in the macrolactonization to provide the macrolactone 2 without forming a dimerized product. Finally, epoxide formation in the side chain afforded destruxin E (1) on a gram scale in high purity (>98%).
已成功实现环二肽素 E(1)的可扩展的溶液相合成。利用(DHQD)2PHAL 作为手性配体,成功完成了 2-烷氧基-4-戊烯酰胺 7 中末端烯烃的立体选择性二羟基化,并且发现底物中 l-脯氨酸部分作为手性辅助基对于高立体选择性的诱导是必不可少的,从而以克级规模得到关键化合物 4。即使在更高稀释条件下,MNBA 介导的大环内酯化 3 也不会形成二聚产物,值得注意的是,在环化前体 3 中 N-甲基丙氨酸和 N-甲基缬氨酸之间的酰胺键的内部氢键和 s-cis 构象有助于大环内酯化,而无需形成二聚产物即可提供大环内酯 2。最后,侧链中环氧化物的形成以高纯度(>98%)在克级规模上得到了环二肽素 E(1)。
