弥漫性内生性脑桥胶质瘤中 H3K27M 突变导致的代谢和表观基因组重编程。

Integrated Metabolic and Epigenomic Reprograming by H3K27M Mutations in Diffuse Intrinsic Pontine Gliomas.

机构信息

Laboratory of Brain Tumor Metabolism and Epigenetics, Department of Pathology, University of Michigan Medical School, Michigan Medicine, University of Michigan, 3520E MSRB 1, 1150 West Medical Center Drive, Ann Arbor, MI 48109-41804, USA; Department of Pathology, University of Michigan Medical School, Ann Arbor, MI 48109, USA.

Laboratory of Brain Tumor Metabolism and Epigenetics, Department of Pathology, University of Michigan Medical School, Michigan Medicine, University of Michigan, 3520E MSRB 1, 1150 West Medical Center Drive, Ann Arbor, MI 48109-41804, USA; Neuroscience Graduate Program, University of Michigan Medical School, Ann Arbor, MI 48109, USA.

出版信息

Cancer Cell. 2020 Sep 14;38(3):334-349.e9. doi: 10.1016/j.ccell.2020.07.008. Epub 2020 Aug 13.

DOI:10.1016/j.ccell.2020.07.008

PMID:32795401

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7494613/

Abstract

H3K27M diffuse intrinsic pontine gliomas (DIPGs) are fatal and lack treatments. They mainly harbor H3.3K27M mutations resulting in H3K27me3 reduction. Integrated analysis in H3.3K27M cells, tumors, and in vivo imaging in patients showed enhanced glycolysis, glutaminolysis, and tricarboxylic acid cycle metabolism with high alpha-ketoglutarate (α-KG) production. Glucose and/or glutamine-derived α-KG maintained low H3K27me3 in H3.3K27M cells, and inhibition of key enzymes in glycolysis or glutaminolysis increased H3K27me3, altered chromatin accessibility, and prolonged survival in animal models. Previous studies have shown that mutant isocitrate-dehydrogenase (mIDH)1/2 glioma cells convert α-KG to D-2-hydroxyglutarate (D-2HG) to increase H3K27me3. Here, we show that H3K27M and IDH1 mutations are mutually exclusive and experimentally synthetic lethal. Overall, we demonstrate that H3.3K27M and mIDH1 hijack a conserved and critical metabolic pathway in opposing ways to maintain their preferred epigenetic state. Consequently, interruption of this metabolic/epigenetic pathway showed potent efficacy in preclinical models, suggesting key therapeutic targets for much needed treatments.

摘要

H3K27M 弥漫性内在脑桥神经胶质瘤（DIPG）是致命的，且缺乏治疗方法。它们主要携带 H3.3K27M 突变，导致 H3K27me3 减少。在 H3.3K27M 细胞、肿瘤中的综合分析以及患者的体内成像研究表明，糖酵解、谷氨酰胺分解和三羧酸循环代谢增强，α-酮戊二酸（α-KG）产量高。葡萄糖和/或谷氨酰胺衍生的 α-KG 维持 H3.3K27M 细胞中的低 H3K27me3，糖酵解或谷氨酰胺分解关键酶的抑制增加了 H3K27me3，改变了染色质可及性，并延长了动物模型的存活时间。先前的研究表明，突变型异柠檬酸脱氢酶（mIDH）1/2 神经胶质瘤细胞将 α-KG 转化为 D-2-羟基戊二酸（D-2HG），以增加 H3K27me3。在这里，我们表明 H3K27M 和 IDH1 突变是相互排斥的，在实验中是合成致死的。总的来说，我们证明 H3.3K27M 和 mIDH1 以相反的方式劫持了一种保守且关键的代谢途径，以维持它们偏好的表观遗传状态。因此，阻断这种代谢/表观遗传途径在临床前模型中显示出强大的疗效，为急需的治疗方法提供了关键的治疗靶点。

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