DNA methylation landscapes in DIPG reveal methylome variability that can be modified pharmacologically.

IF 3.7 Q1 CLINICAL NEUROLOGY Neuro-oncology advances Pub Date : 2024-02-19 eCollection Date: 2024-01-01 DOI:10.1093/noajnl/vdae023
Ashley R Tetens, Allison M Martin, Antje Arnold, Orlandi V Novak, Adrian Idrizi, Rakel Tryggvadottir, Jordyn Craig-Schwartz, Athanasia Liapodimitri, Kayleigh Lunsford, Michael I Barbato, Charles G Eberhart, Adam C Resnick, Eric H Raabe, Michael A Koldobskiy
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Abstract

Background: Diffuse intrinsic pontine glioma (DIPG) is a uniformly lethal brainstem tumor of childhood, driven by histone H3 K27M mutation and resultant epigenetic dysregulation. Epigenomic analyses of DIPG have shown global loss of repressive chromatin marks accompanied by DNA hypomethylation. However, studies providing a static view of the epigenome do not adequately capture the regulatory underpinnings of DIPG cellular heterogeneity and plasticity.

Methods: To address this, we performed whole-genome bisulfite sequencing on a large panel of primary DIPG specimens and applied a novel framework for analysis of DNA methylation variability, permitting the derivation of comprehensive genome-wide DNA methylation potential energy landscapes that capture intrinsic epigenetic variation.

Results: We show that DIPG has a markedly disordered epigenome with increasingly stochastic DNA methylation at genes regulating pluripotency and developmental identity, potentially enabling cells to sample diverse transcriptional programs and differentiation states. The DIPG epigenetic landscape was responsive to treatment with the hypomethylating agent decitabine, which produced genome-wide demethylation and reduced the stochasticity of DNA methylation at active enhancers and bivalent promoters. Decitabine treatment elicited changes in gene expression, including upregulation of immune signaling such as the interferon response, STING, and MHC class I expression, and sensitized cells to the effects of histone deacetylase inhibition.

Conclusions: This study provides a resource for understanding the epigenetic instability that underlies DIPG heterogeneity. It suggests the application of epigenetic therapies to constrain the range of epigenetic states available to DIPG cells, as well as the use of decitabine in priming for immune-based therapies.

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DIPG 的 DNA 甲基化景观揭示了可通过药物改变的甲基组变异性。
背景:弥漫性内生性桥脑胶质瘤(DIPG)是一种致命的儿童脑干肿瘤,由组蛋白 H3 K27M 突变和由此导致的表观遗传失调引起。对 DIPG 的表观基因组学分析表明,抑制性染色质标记的全面缺失伴随着 DNA 的低甲基化。然而,提供表观基因组静态视图的研究并不能充分捕捉到 DIPG 细胞异质性和可塑性的调控基础:为了解决这个问题,我们对大量原发性 DIPG 标本进行了全基因组亚硫酸氢盐测序,并应用一种新的 DNA 甲基化变异性分析框架,从而得出了全面的全基因组 DNA 甲基化势能图谱,捕捉到了内在的表观遗传变异:结果:我们发现,DIPG的表观遗传组明显紊乱,调控多能性和发育特性的基因上的DNA甲基化越来越随机,这可能使细胞能够采样不同的转录程序和分化状态。DIPG的表观遗传景观对低甲基化药物地西他滨的治疗反应灵敏,地西他滨可产生全基因组范围的去甲基化,并降低活性增强子和双价启动子处DNA甲基化的随机性。地西他滨治疗引起了基因表达的变化,包括干扰素反应、STING 和 MHC I 类表达等免疫信号的上调,并使细胞对组蛋白去乙酰化酶抑制剂的作用敏感:这项研究为了解导致DIPG异质性的表观遗传不稳定性提供了资源。结论:这项研究为了解DIPG异质性的表观遗传不稳定性提供了资料,它建议应用表观遗传学疗法来限制DIPG细胞的表观遗传学状态范围,以及使用地西他滨来启动基于免疫的疗法。
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6.20
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12 weeks
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