SETD2 缺失通过 DNA 甲基化失调在肿瘤发生中的作用。

A role for SETD2 loss in tumorigenesis through DNA methylation dysregulation.

机构信息

Department of Oncology, University of Oxford, Oxford, OX3 7DQ, UK.

Nuffield Department of Surgical Sciences, University of Oxford, John Radcliffe Hospital, Oxford, OX3 9DU, UK.

出版信息

BMC Cancer. 2023 Aug 1;23(1):721. doi: 10.1186/s12885-023-11162-0.

DOI:10.1186/s12885-023-11162-0

PMID:37528416

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10394884/

Abstract

SETD2-dependent H3 Lysine-36 trimethylation (H3K36me3) has been recently linked to the deposition of de-novo DNA methylation. SETD2 is frequently mutated in cancer, however, the functional impact of SETD2 loss and depletion on DNA methylation across cancer types and tumorigenesis is currently unknown. Here, we perform a pan-cancer analysis and show that both SETD2 mutation and reduced expression are associated with DNA methylation dysregulation across 21 out of the 24 cancer types tested. In renal cancer, these DNA methylation changes are associated with altered gene expression of oncogenes, tumour suppressors, and genes involved in neoplasm invasiveness, including TP53, FOXO1, and CDK4. This suggests a new role for SETD2 loss in tumorigenesis and cancer aggressiveness through DNA methylation dysregulation. Moreover, using a robust machine learning methodology, we develop and validate a 3-CpG methylation signature which is sufficient to predict SETD2 mutation status with high accuracy and correlates with patient prognosis.

摘要

SETD2 依赖性 H3 赖氨酸-36 三甲基化 (H3K36me3) 最近与从头 DNA 甲基化的沉积有关。SETD2 在癌症中经常发生突变，然而，SETD2 缺失和耗竭对癌症类型和肿瘤发生过程中 DNA 甲基化的功能影响目前尚不清楚。在这里，我们进行了泛癌症分析，结果表明 SETD2 突变和表达降低与 24 种测试癌症类型中的 21 种癌症的 DNA 甲基化失调有关。在肾细胞癌中，这些 DNA 甲基化变化与癌基因、肿瘤抑制基因和参与肿瘤侵袭的基因的表达改变有关，包括 TP53、FOXO1 和 CDK4。这表明 SETD2 缺失通过 DNA 甲基化失调在肿瘤发生和癌症侵袭性方面发挥了新的作用。此外，我们使用强大的机器学习方法，开发并验证了一个由 3 个 CpG 甲基化组成的特征签名，该特征签名足以高精度预测 SETD2 突变状态，并与患者预后相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8664/10394884/035bf71152c3/12885_2023_11162_Figa_HTML.jpg

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SETD2 缺失通过 DNA 甲基化失调在肿瘤发生中的作用。

A role for SETD2 loss in tumorigenesis through DNA methylation dysregulation.

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