10'-氟长春碱和10'-氟长春新碱:关键系列修饰长春花生物碱的合成
10'-Fluorovinblastine and 10'-Fluorovincristine: Synthesis of a Key Series of Modified Vinca Alkaloids.
作者信息
Gotoh Hiroaki, Duncan Katharine K, Robertson William M, Boger Dale L
机构信息
Department of Chemistry and The Skaggs Institute for Chemical Biology, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, California 92037.
出版信息
ACS Med Chem Lett. 2011 Dec 8;2(12):948-952. doi: 10.1021/ml200236a.
Abstract
A study on the impact of catharanthine C10 and C12 indole substituents on the biomimetic Fe(III)-mediated coupling with vindoline led to the discovery and characterization of two new and substantially more potent derivatives, 10'-fluorovinblastine and 10'-fluorovincristine. In addition to defining a pronounced and unanticipated substituent effect on the biomimetic coupling, fluorine substitution at C10', which minimally alters the natural products, was found to uniquely enhance the activity 8-fold against both sensitive (IC(50) = 800 pM, HCT116) and vinblastine-resistant tumor cell lines (IC(50) = 80 nM, HCT166/VM46). As depicted in the X-ray structure of vinblastine bound to tubulin, this site resides at one end of the upper portion of the T-shaped conformation of the tubulin-bound molecule, suggesting the 10'-fluorine substituent makes critical contacts with the protein at a hydrophobic site uniquely sensitive to steric interactions.
摘要
一项关于长春质碱C10和C12吲哚取代基对仿生铁(III)介导的与长春多灵偶联影响的研究,导致了两种新的、活性显著更高的衍生物10'-氟长春碱和10'-氟长春新碱的发现与表征。除了确定对仿生偶联有明显且意想不到的取代基效应外,还发现C10'处的氟取代对天然产物影响极小,但能使对敏感(IC(50) = 800 pM,HCT116)和长春碱耐药肿瘤细胞系(IC(50) = 80 nM,HCT166/VM46)的活性独特地增强8倍。如与微管蛋白结合的长春碱的X射线结构所示,该位点位于微管蛋白结合分子T形构象上部的一端,表明10'-氟取代基在对空间相互作用独特敏感的疏水位点与蛋白质形成关键接触。
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