基于基因表达特征的化学基因组预测鉴定出一类新型的HSP90途径调节剂。

Gene expression signature-based chemical genomic prediction identifies a novel class of HSP90 pathway modulators.

作者信息

Hieronymus Haley, Lamb Justin, Ross Kenneth N, Peng Xiao P, Clement Cristina, Rodina Anna, Nieto Maria, Du Jinyan, Stegmaier Kimberly, Raj Srilakshmi M, Maloney Katherine N, Clardy Jon, Hahn William C, Chiosis Gabriela, Golub Todd R

机构信息

The Broad Institute of Harvard University and Massachusetts Institute of Technology, Cambridge, Massachusetts 02142, USA.

出版信息

Cancer Cell. 2006 Oct;10(4):321-30. doi: 10.1016/j.ccr.2006.09.005. Epub 2006 Sep 28.

DOI:10.1016/j.ccr.2006.09.005

PMID:17010675

Abstract

Although androgen receptor (AR)-mediated signaling is central to prostate cancer, the ability to modulate AR signaling states is limited. Here we establish a chemical genomic approach for discovery and target prediction of modulators of cancer phenotypes, as exemplified by AR signaling. We first identify AR activation inhibitors, including a group of structurally related compounds comprising celastrol, gedunin, and derivatives. To develop an in silico approach for target pathway identification, we apply a gene expression-based analysis that classifies HSP90 inhibitors as having similar activity to celastrol and gedunin. Validating this prediction, we demonstrate that celastrol and gedunin inhibit HSP90 activity and HSP90 clients, including AR. Broadly, this work identifies new modes of HSP90 modulation through a gene expression-based strategy.

摘要

尽管雄激素受体（AR）介导的信号传导是前列腺癌的核心，但调节AR信号状态的能力却很有限。在此，我们建立了一种化学基因组学方法，用于发现癌症表型调节剂并进行靶点预测，以AR信号传导为例。我们首先鉴定出AR激活抑制剂，包括一组结构相关的化合物，如雷公藤红素、格杜宁及其衍生物。为了开发一种用于靶点通路鉴定的计算机方法，我们应用了基于基因表达的分析方法，该方法将HSP90抑制剂归类为具有与雷公藤红素和格杜宁相似的活性。通过验证这一预测，我们证明雷公藤红素和格杜宁可抑制HSP90活性以及包括AR在内的HSP90客户蛋白。总体而言，这项工作通过基于基因表达的策略确定了HSP90调节的新模式。

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Gene expression signature-based chemical genomic prediction identifies a novel class of HSP90 pathway modulators.基于基因表达特征的化学基因组预测鉴定出一类新型的HSP90途径调节剂。

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基于基因表达特征的化学基因组预测鉴定出一类新型的HSP90途径调节剂。

Gene expression signature-based chemical genomic prediction identifies a novel class of HSP90 pathway modulators.

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