Rational design, synthesis, and biological evaluation of novel C6-modified geldanamycin derivatives as potent Hsp90 inhibitors and anti-tumor agents

格尔德霉素 热休克蛋白90 合理设计 化学 组合化学 Hsp90抑制剂 药理学 立体化学 计算生物学 生物化学 纳米技术 生物 材料科学 热休克蛋白 基因
作者
Ruxuan Wang,Rentao Zhang,Haoran Yang,Nina Xue,Xiaoguang Chen,Xiaoming Yu
出处
期刊:Chinese Chemical Letters [Elsevier BV]
卷期号:34 (2): 107529-107529 被引量:3
标识
DOI:10.1016/j.cclet.2022.05.043
摘要

Heat shock protein 90 (Hsp90) is an appealing anticancer drug target that provoked a tremendous wave of investigations. Geldanamycin (GA) is the first identified Hsp90 inhibitor that exhibited potent anti-cancer activity, but the off-target toxicity associated with the benzoquinone moiety hampered its clinical application. Until now, structure optimization of GA is still in need to fully exploit the therapeutic value of Hsp90. Due to the structural complexity and synthetic challenge of this compound family, conventional optimization is bound to be costly but high efficiency is expected to be reachable by combining the art of rational design and total synthesis. Described in this paper is our first attempt at this approach aiming at rational modification of the C6-position of GA. The binding affinities towards Hsp90 of compound 1 (C6-ethyl) and 2 (C6-methyl) were designed and predicted by using Discovery Studio. These compounds were synthesized and further subjected to a thorough in vitro biological evaluation. We found that compounds 1 and 2 bind to Hsp90 protein with the IC 50 of 34.26 nmol/L and 163.7 nmol/L, respectively. Both compounds showed broad-spectrum antitumor effects. Replacing by ethyl, compound 1 exhibited more potent bioactivity than positive control GA, such as in G2/M cell cycle arrest, cell apoptosis and client proteins degradations. The results firstly indicated that the docking study is able to provide a precise prediction of Hsp90 affinities of GA analogues, and the C6 substituent of GA is not erasable without affecting its biological activity. We firstly demonstrated that docking study is able to provide a precise prediction of Hsp90 affinities of geldanamycin (GA) analogues, and the C6 substituent of GA is not erasable without affecting its biological activity.

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