靶标鉴定揭示羊毛甾醇合酶是神经胶质瘤的一个弱点。

Target identification reveals lanosterol synthase as a vulnerability in glioma.

机构信息

Department of Neurology and Brain Tumor Center, Memorial Sloan Kettering Cancer Center, New York, NY 10065.

Laboratory of Chromatin Biology and Epigenetics, The Rockefeller University, New York, NY 10065.

出版信息

Proc Natl Acad Sci U S A. 2019 Apr 16;116(16):7957-7962. doi: 10.1073/pnas.1820989116. Epub 2019 Mar 28.

DOI:10.1073/pnas.1820989116

PMID:30923116

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6475387/

Abstract

Diffuse intrinsic pontine glioma (DIPG) remains an incurable childhood brain tumor for which novel therapeutic approaches are desperately needed. Previous studies have shown that the menin inhibitor MI-2 exhibits promising activity in preclinical DIPG and adult glioma models, although the mechanism underlying this activity is unknown. Here, using an integrated approach, we show that MI-2 exerts its antitumor activity in glioma largely independent of its ability to target menin. Instead, we demonstrate that MI-2 activity in glioma is mediated by disruption of cholesterol homeostasis, with suppression of cholesterol synthesis and generation of the endogenous liver X receptor ligand, 24,25-epoxycholesterol, resulting in cholesterol depletion and cell death. Notably, this mechanism is responsible for MI-2 activity in both DIPG and adult glioma cells. Metabolomic and biochemical analyses identify lanosterol synthase as the direct molecular target of MI-2, revealing this metabolic enzyme as a vulnerability in glioma and further implicating cholesterol homeostasis as an attractive pathway to target in this malignancy.

摘要

弥漫性内在脑桥胶质瘤（DIPG）仍然是一种无法治愈的儿童脑肿瘤，迫切需要新的治疗方法。先前的研究表明，menin 抑制剂 MI-2 在 DIPG 和成人神经胶质瘤模型的临床前研究中表现出有希望的活性，尽管其活性的机制尚不清楚。在这里，我们使用综合方法表明，MI-2 在神经胶质瘤中的抗肿瘤活性在很大程度上与其靶向 menin 的能力无关。相反，我们证明 MI-2 在神经胶质瘤中的活性是通过破坏胆固醇稳态介导的，抑制胆固醇合成和产生内源性肝 X 受体配体 24,25-环氧胆固醇，导致胆固醇耗竭和细胞死亡。值得注意的是，这种机制负责 MI-2 在 DIPG 和成人神经胶质瘤细胞中的活性。代谢组学和生化分析将羊毛甾醇合酶确定为 MI-2 的直接分子靶标，揭示了这种代谢酶在神经胶质瘤中的脆弱性，并进一步表明胆固醇稳态是靶向这种恶性肿瘤的有吸引力的途径。

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