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杂环稠合嘧啶类化合物作为新型微管蛋白聚合抑制剂靶向秋水仙碱结合位点:结构基础和抗肿瘤功效。

Heterocyclic-Fused Pyrimidines as Novel Tubulin Polymerization Inhibitors Targeting the Colchicine Binding Site: Structural Basis and Antitumor Efficacy.

机构信息

Department of Pharmaceutical Sciences, College of Pharmacy, University of Tennessee Health Science Center , Memphis, Tennessee 38163, United States.

State Key Laboratory of Biotherapy and Cancer Center, West China Hospital, Sichuan University and Collaborative Innovation Center of Biotherapy , Chengdu 610041, China.

出版信息

J Med Chem. 2018 Feb 22;61(4):1704-1718. doi: 10.1021/acs.jmedchem.7b01858. Epub 2018 Feb 12.

DOI:10.1021/acs.jmedchem.7b01858
PMID:29406710
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5912893/
Abstract

We report the design, synthesis, and biological evaluation of heterocyclic-fused pyrimidines as tubulin polymerization inhibitors targeting the colchicine binding site with significantly improved therapeutic index. Additionally, for the first time, we report high-resolution X-ray crystal structures for the best compounds in this scaffold, 4a, 4b, 6a, and 8b. These structures not only confirm their direct binding to the colchicine site in tubulin and reveal their detailed molecular interactions but also contrast the previously published proposed binding mode. Compounds 4a and 6a significantly inhibited tumor growth in an A375 melanoma xenograft model and were accompanied by elevated levels of apoptosis and disruption of tumor vasculature. Finally, we demonstrated that compound 4a significantly overcame clinically relevant multidrug resistance in a paclitaxel resistant PC-3/TxR prostate cancer xenograft model. Collectively, these studies provide preclinical and structural proof of concept to support the continued development of this scaffold as a new generation of tubulin inhibitors.

摘要

我们报告了杂环稠合嘧啶类化合物的设计、合成和生物学评价,这些化合物作为微管蛋白聚合抑制剂,以显著改善的治疗指数靶向秋水仙碱结合位点。此外,我们首次报道了该骨架中最佳化合物 4a、4b、6a 和 8b 的高分辨率 X 射线晶体结构。这些结构不仅证实了它们与微管蛋白中秋水仙碱位点的直接结合,并揭示了它们详细的分子相互作用,而且与以前发表的提出的结合模式形成对比。化合物 4a 和 6a 显著抑制了 A375 黑色素瘤异种移植模型中的肿瘤生长,并伴有细胞凋亡水平升高和肿瘤血管破坏。最后,我们证明化合物 4a 显著克服了紫杉醇耐药 PC-3/TxR 前列腺癌异种移植模型中临床相关的多药耐药性。总之,这些研究提供了临床前和结构概念验证,支持将该骨架作为新一代微管蛋白抑制剂继续开发。

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