通过细胞毒性谱比较鉴定的真核生物蛋白质合成抑制剂。

Eukaryotic protein synthesis inhibitors identified by comparison of cytotoxicity profiles.

作者信息

Chan Jenny, Khan Shakila N, Harvey Isabelle, Merrick William, Pelletier Jerry

机构信息

Department of Biochemistry, McGill University, Montreal, Quebec, H3G 1Y6, Canada.

出版信息

RNA. 2004 Mar;10(3):528-43. doi: 10.1261/rna.5200204.

DOI:10.1261/rna.5200204

PMID:14970397

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1370947/

Abstract

The National Cancer Institute (NCI) Human Tumor Cell Line Anti-Cancer Drug Screen has evaluated the cytotoxicity profiles of a large number of synthetic compounds, natural products, and plant extracts on 60 different cell lines. The data for each compound/extract can be assessed for similarity of cytotoxicity pattern, relative to a given test compound, using an algorithm called COMPARE. In applying a chemical biology approach to better understand the mechanism of eukaryotic protein synthesis, we used these resources to search for novel inhibitors of translation. The cytotoxicity profiles of 31 known protein synthesis inhibitors were used to identify compounds from the NCI database with similar activity profiles. Using this approach, two natural products, phyllanthoside and nagilactone C, were identified and characterized as novel protein synthesis inhibitors. Both compounds are specific for the eukaryotic translation apparatus, function in vivo and in vitro, and interfere with translation elongation. Our results demonstrate the feasibility of utilizing cytotoxicity profiles to identify new inhibitors of translation.

摘要

美国国立癌症研究所（NCI）的人类肿瘤细胞系抗癌药物筛选项目评估了大量合成化合物、天然产物和植物提取物对60种不同细胞系的细胞毒性谱。使用一种名为COMPARE的算法，可以针对每种化合物/提取物的数据，评估其相对于给定测试化合物的细胞毒性模式的相似性。在应用化学生物学方法以更好地理解真核生物蛋白质合成机制的过程中，我们利用这些资源来寻找新型翻译抑制剂。使用31种已知蛋白质合成抑制剂的细胞毒性谱，从NCI数据库中鉴定出具有相似活性谱的化合物。通过这种方法，两种天然产物叶下珠苷和纳吉内酯C被鉴定并表征为新型蛋白质合成抑制剂。这两种化合物对真核生物翻译装置具有特异性，在体内和体外均起作用，并干扰翻译延伸。我们的结果证明了利用细胞毒性谱来鉴定新型翻译抑制剂的可行性。

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本文引用的文献

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J Biol Chem. 1963 Dec;238:3955-62.

Molecular events in the reproduction of animal cells. I. The effect of puromycin on the duplication of DNA.动物细胞繁殖中的分子事件。I. 嘌呤霉素对DNA复制的影响。

Cancer Res. 1962 Oct;22:1084-90.

Translational control and metastatic progression: enhanced activity of the mRNA cap-binding protein eIF-4E selectively enhances translation of metastasis-related mRNAs.翻译控制与转移进展：mRNA帽结合蛋白eIF-4E的活性增强选择性地增强了转移相关mRNA的翻译。

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