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具有对多药耐药细胞选择性活性的异吲哚酮-β-硫代半卡巴腙的合成、活性及药效团开发

Synthesis, activity, and pharmacophore development for isatin-beta-thiosemicarbazones with selective activity toward multidrug-resistant cells.

作者信息

Hall Matthew D, Salam Noeris K, Hellawell Jennifer L, Fales Henry M, Kensler Caroline B, Ludwig Joseph A, Szakács Gergely, Hibbs David E, Gottesman Michael M

机构信息

Laboratory of Cell Biology, National Cancer Institute, National Institutes of Health, Bethesda, Maryland 20892, USA.

出版信息

J Med Chem. 2009 May 28;52(10):3191-204. doi: 10.1021/jm800861c.

DOI:10.1021/jm800861c
PMID:19397322
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2744114/
Abstract

We have recently identified a new class of compounds that selectively kill cells that express P-glycoprotein (P-gp, MDR1), the ATPase efflux pump that confers multidrug resistance on cancer cells. Several isatin-beta-thiosemicarbazones from our initial study have been validated and a range of analogues synthesized and tested. A number demonstrated improved MDR1-selective activity over the lead, NSC73306 (1). Pharmacophores for cytotoxicity and MDR1 selectivity were generated to delineate the structural features required for activity. The MDR1-selective pharmacophore highlights the importance of aromatic/hydrophobic features at the N4 position of the thiosemicarbazone and the reliance on the isatin moiety as key bioisosteric contributors. Additionally, a quantitative structure-activity relationship (QSAR) model that yielded a cross-validated correlation coefficient of 0.85 effectively predicts the cytotoxicity of untested thiosemicarbazones. Together, the models serve as effective approaches for predicting structures with MDR1-selective activity and aid in directing the search for the mechanism of action of 1.

摘要

我们最近鉴定出了一类新型化合物,这类化合物能选择性杀死表达P-糖蛋白(P-gp,MDR1)的细胞,P-gp是一种ATP酶外排泵,可赋予癌细胞多药耐药性。我们初步研究中的几种异吲哚酮-β-硫代半卡巴腙已得到验证,并且合成并测试了一系列类似物。一些类似物显示出比先导化合物NSC73306(1)更高的MDR1选择性活性。生成了细胞毒性和MDR1选择性的药效团,以描绘活性所需的结构特征。MDR1选择性药效团突出了硫代半卡巴腙N4位芳香/疏水特征的重要性,以及对异吲哚酮部分作为关键生物电子等排体贡献者的依赖性。此外,一个交叉验证相关系数为0.85的定量构效关系(QSAR)模型有效地预测了未测试硫代半卡巴腙的细胞毒性。这些模型共同作为预测具有MDR1选择性活性结构的有效方法,并有助于指导对化合物1作用机制的研究。

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