Institut für Organische Chemie, Universität Tübingen, Auf der Morgenstelle 18, 72076 Tübingen, Germany.
Chemistry. 2011 Nov 18;17(47):13349-57. doi: 10.1002/chem.201101978. Epub 2011 Oct 20.
Starting from cinnamates 9, obtained by Wittig reaction or Heck coupling, the diols 17 were prepared by asymmetric dihydroxylation. This was followed by a regioselective substitution of the 3-OH group with hydrazoic acid under Mitsunobu conditions. Methylation of the 2-OH group and reduction of the azide group led to the β-tyrosine derivatives 8. Condensation with the dipeptide acid 6 furnished the tripeptide part of the chondramides. The derived acids 21 were combined with the hydroxy ester 7 to the esters 22. Cleavage of the tert-butyl groups and intramolecular lactam formation gave rise to the chondramide A analogues 2 b-k. Growth inhibition assays showed most of the analogues to be biologically active. Some of them even reach the activity of jasplakinolide. It can be concluded that the 4-position of the aryl ring in the β-tyrosine of chondramide A tolerates structural modifications quite well.
从通过 Wittig 反应或 Heck 偶联得到的肉桂酸酯 9 出发,通过不对称二羟基化反应制备二醇 17。接着在 Mitsunobu 条件下,3-OH 基团被叠氮化氢进行区域选择性取代。2-OH 基团的甲基化和叠氮基团的还原得到β-酪氨酸衍生物 8。与二肽酸 6 缩合得到软骨素酰胺的三肽部分。衍生酸 21 与羟基酯 7 缩合得到酯 22。叔丁基的裂解和分子内内酰胺的形成导致了软骨素 A 类似物 2 b-k 的生成。生长抑制试验表明,大多数类似物具有生物活性。其中一些甚至达到了 Jasplakinolide 的活性。可以得出结论,软骨素 A 中β-酪氨酸的芳环的 4 位能够很好地耐受结构修饰。