(+)-格尔德霉素和(-)-邻醌格尔德霉素的全合成:不对称乙醇酸酯羟醛反应及生物学评价
Total synthesis of (+)-geldanamycin and (-)-o-quinogeldanamycin: asymmetric glycolate aldol reactions and biological evaluation.
作者信息
Andrus Merritt B, Meredith Erik L, Hicken Erik J, Simmons Bryon L, Glancey Russell R, Ma Wei
机构信息
Brigham Young University, Department of Chemistry and Biochemistry, C100 BNSN, Provo, Utah 84602-5700, USA.
出版信息
J Org Chem. 2003 Oct 17;68(21):8162-9. doi: 10.1021/jo034870l.
The total synthesis of (+)-geldanamycin (GA), following a linear route, has been completed using a demethylative quinone-forming reaction as the last step. Key steps include the use of two new asymmetric boron glycolate aldol reactions. To set the anti-C11,12 hydroxymethoxy functionality, (S,S)-5,6-bis-4-methoxyphenyldioxanone 8 was used. Methylglycolate derived from norephedrine 5 set the C6,7 methoxyurethane stereochemistry. The quinone formation step using nitric acid gave the non-natural o-quino-GA product 55 10:1 over geldanamycin. Other known oxidants gave an unusual azaquinone product 49. o-Quino-GA 55 binds Hsp90 with good affinity but is less cytotoxic compared to GA.
通过线性路线完成了(+)-格尔德霉素(GA)的全合成,最后一步采用脱甲基形成醌的反应。关键步骤包括使用两个新的不对称硼酸乙醇酸酯羟醛反应。为了构建反式C11,12-羟基甲氧基官能团,使用了(S,S)-5,6-双-4-甲氧基苯基二恶烷酮8。源自去甲麻黄碱5的乙醇酸甲酯确定了C6,7-甲氧基脲烷的立体化学。使用硝酸的醌形成步骤得到了非天然的邻醌-GA产物55,其与格尔德霉素的比例为10:1。其他已知的氧化剂得到了一种不寻常的氮杂醌产物49。邻醌-GA 55与热休克蛋白90(Hsp90)具有良好的亲和力,但与GA相比细胞毒性较小。
Zotero 插件