分剂量照射后小儿神经胶质瘤干细胞中 DNA 甲基化改变的积累。

Accumulation of DNA methylation alterations in paediatric glioma stem cells following fractionated dose irradiation.

机构信息

Sahlgrenska Cancer Center, Department of Oncology, Institute of Clinical Sciences, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden.

Sahlgrenska Cancer Center, Department of Laboratory Medicine, Institute of Biomedicine, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden.

出版信息

Clin Epigenetics. 2020 Feb 11;12(1):26. doi: 10.1186/s13148-020-0817-8.

DOI:10.1186/s13148-020-0817-8

PMID:32046773

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7014676/

Abstract

BACKGROUND

Radiation is an important therapeutic tool. However, radiotherapy has the potential to promote co-evolution of genetic and epigenetic changes that can drive tumour heterogeneity, formation of radioresistant cells and tumour relapse. There is a clinical need for a better understanding of DNA methylation alterations that may follow radiotherapy to be able to prevent the development of radiation-resistant cells.

METHODS

We examined radiation-induced changes in DNA methylation profiles of paediatric glioma stem cells (GSCs) in vitro. Five GSC cultures were irradiated in vitro with repeated doses of 2 or 4 Gy. Radiation was given in 3 or 15 fractions. DNA methylation profiling using Illumina DNA methylation arrays was performed at 14 days post-radiation. The cellular characteristics were studied in parallel.

RESULTS

Few fractions of radiation did not result in significant accumulation of DNA methylation alterations. However, extended dose fractionations changed DNA methylation profiles and induced thousands of differentially methylated positions, specifically in enhancer regions, sites involved in alternative splicing and in repetitive regions. Radiation induced dose-dependent morphological and proliferative alterations of the cells as a consequence of the radiation exposure.

CONCLUSIONS

DNA methylation alterations of sites with regulatory functions in proliferation and differentiation were identified, which may reflect cellular response to radiation stress through epigenetic reprogramming and differentiation cues.

摘要

背景

辐射是一种重要的治疗工具。然而，放疗有可能促进遗传和表观遗传变化的共同进化，从而推动肿瘤异质性、放射抗性细胞的形成和肿瘤复发。临床需要更好地了解放疗后可能发生的 DNA 甲基化改变，以便能够预防放射抗性细胞的发展。

方法

我们在体外研究了小儿脑肿瘤干细胞（GSCs）中辐射诱导的 DNA 甲基化谱变化。将 5 种 GSC 培养物在体外用 2 或 4Gy 的重复剂量照射。辐射以 3 或 15 个分数进行。在辐射后 14 天使用 Illumina DNA 甲基化阵列进行 DNA 甲基化分析。同时研究细胞特性。

结果

少量的辐射分数并没有导致明显的 DNA 甲基化改变的积累。然而，延长的剂量分割改变了 DNA 甲基化谱，并诱导了数千个差异甲基化位置，特别是在增强子区域、参与可变剪接的位点和重复区域。辐射诱导了细胞的剂量依赖性形态和增殖改变，这是辐射暴露的结果。

结论

鉴定出具有增殖和分化调节功能的位点的 DNA 甲基化改变，这可能反映了通过表观遗传重编程和分化线索，细胞对辐射应激的反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a90/7014676/8308c33465a1/13148_2020_817_Fig1_HTML.jpg

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分剂量照射后小儿神经胶质瘤干细胞中 DNA 甲基化改变的积累。

Accumulation of DNA methylation alterations in paediatric glioma stem cells following fractionated dose irradiation.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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