Non-small Cell Lung Cancer Epigenomes Exhibit Altered DNA Methylation in Smokers and Never-smokers.

Genomics, proteomics & bioinformatics Pub Date : 2023-10-01 Epub Date: 2023-09-22 DOI:10.1016/j.gpb.2023.03.006
Jennifer A Karlow, Erica C Pehrsson, Xiaoyun Xing, Mark Watson, Siddhartha Devarakonda, Ramaswamy Govindan, Ting Wang
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Abstract

Epigenetic alterations are widespread in cancer and can complement genetic alterations to influence cancer progression and treatment outcome. To determine the potential contribution of DNAmethylation alterations to tumor phenotype in non-small cell lung cancer (NSCLC) in both smoker and never-smoker patients, we performed genome-wide profiling of DNA methylation in 17 primary NSCLC tumors and 10 matched normal lung samples using the complementary assays, methylated DNA immunoprecipitation sequencing (MeDIP-seq) and methylation sensitive restriction enzyme sequencing (MRE-seq). We reported recurrent methylation changes in the promoters of several genes, many previously implicated in cancer, including FAM83A and SEPT9 (hypomethylation), as well as PCDH7, NKX2-1, and SOX17 (hypermethylation). Although many methylation changes between tumors and their paired normal samples were shared across patients, several were specific to a particular smoking status. For example, never-smokers displayed a greater proportion of hypomethylated differentially methylated regions (hypoDMRs) and a greater number of recurrently hypomethylated promoters, including those of ASPSCR1, TOP2A, DPP9, and USP39, all previously linked to cancer. Changes outside of promoters were also widespread and often recurrent, particularly methylation loss over repetitive elements, highly enriched for ERV1 subfamilies. Recurrent hypoDMRs were enriched for several transcription factor binding motifs, often for genes involved in signaling and cell proliferation. For example, 71% of recurrent promoter hypoDMRs contained a motif for NKX2-1. Finally, the majority of DMRs were located within an active chromatin state in tissues profiled using the Roadmap Epigenomics data, suggesting that methylation changes may contribute to altered regulatory programs through the adaptation of cell type-specific expression programs.

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非小细胞肺癌癌症表观基因组显示吸烟者和从不吸烟者的DNA甲基化改变。
表观遗传改变在癌症中广泛存在,可以补充遗传改变,影响癌症的进展和治疗结果。为了确定DNA甲基化改变对吸烟和从不吸烟的非小细胞肺癌癌症(NSCLC)患者肿瘤表型的潜在贡献,我们使用互补分析甲基化DNA免疫沉淀(MeDIP-seq)和甲基化敏感限制性内切酶消化后测序(MRE-seq)对17个原发性NSCLC肿瘤和10个匹配的正常肺样本的DNA甲基化进行了全基因组分析。我们报道了几个基因启动子的重复甲基化变化,其中许多先前与癌症有关,包括FAM83A和SEPT9(低甲基化),以及PCDH7、NKX2-1和SOX17(高甲基化)。尽管肿瘤及其配对正常样本之间的许多甲基化变化在患者之间是共享的,但其中一些变化是特定吸烟状态特有的。例如,never-smakers显示出更大比例的低甲基化差异甲基化区域(hypoDMR)和更多数量的复发性低甲基化启动子,包括ASPSCR1、TOP2A、DPP9和USP39的启动子,所有这些都先前与癌症相关。启动子外的变化也很普遍,而且经常复发,特别是重复元件的甲基化损失,ERV1亚家族高度富集。复发性低DMR富集了几个转录因子结合基序,通常是参与信号传导和细胞增殖的基因。例如,71%的复发启动子低DMRs含有NKX2-1的基序。最后,大多数DMR位于使用Roadmap表观基因组数据分析的组织中的活性染色质状态中,这表明甲基化变化可能通过适应细胞类型特异性表达程序而导致调节程序的改变。
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