Pre-diagnosis blood DNA methylation profiling of twin pairs discordant for breast cancer points to the importance of environmental risk factors.

IF 4.8 2区 医学 Q1 GENETICS & HEREDITY
Hannes Frederik Bode, Liang He, Jacob V B Hjelmborg, Jaakko Kaprio, Miina Ollikainen
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Abstract

Background: Assessment of breast cancer (BC) risk generally relies on mammography, family history, reproductive history, and genotyping of major mutations. However, assessing the impact of environmental factors, such as lifestyle, health-related behavior, or external exposures, is still challenging. DNA methylation (DNAm), capturing both genetic and environmental effects, presents a promising opportunity. Previous studies have identified associations and predicted the risk of BC using DNAm in blood; however, these studies did not distinguish between genetic and environmental contributions to these DNAm sites. In this study, associations between DNAm and BC are assessed using paired twin models, which control for shared genetic and environmental effects, allowing testing for associations between DNAm and non-shared environmental exposures and behavior.

Results: Pre-diagnosis blood samples of 32 monozygotic (MZ) and 76 dizygotic (DZ) female twin pairs discordant for BC were collected at the mean age of 56.0 years, with the mean age at diagnosis 66.8 years and censoring 75.2 years. We identified 212 CpGs (p < 6.4*10-8) and 15 DMRs associated with BC risk across all pairs using paired Cox proportional hazard models. All but one of the BC risks associated with CpGs were hypomethylated, and 198/212 CpGs had their DNAm associated with BC risk independent of genetic effects. According to previous literature, at least five of the top CpGs were related to estrogen signaling. Following a comprehensive two-sample Mendelian randomization analysis, we found evidence supporting a dual causal impact of DNAm at cg20145695 (gene body of NXN, rs480351) with increased risk for estrogen receptor positive BC and decreased risk for estrogen receptor negative BC.

Conclusion: While causal effects of DNAm on BC risk are rare, most of the identified CpGs associated with the risk of BC appear to be independent of genetic effects. This suggests that DNAm could serve as a valuable biomarker for environmental risk factors for BC, and may offer potential benefits as a complementary tool to current risk assessment procedures.

对不一致的乳腺癌双胞胎进行诊断前血液 DNA 甲基化分析表明了环境风险因素的重要性。
背景:乳腺癌(BC)风险评估通常依赖于乳房 X 线照相术、家族史、生育史和主要基因突变的基因分型。然而,评估生活方式、健康相关行为或外部暴露等环境因素的影响仍具有挑战性。DNA 甲基化(DNAm)能同时捕捉遗传和环境的影响,是一个很有前景的机会。以前的研究已经发现了相关性,并利用血液中的 DNAm 预测了 BC 的风险;但是,这些研究并没有区分遗传和环境对这些 DNAm 位点的贡献。在本研究中,使用配对双胞胎模型评估了DNAm与BC之间的关联,该模型控制了共同的遗传和环境影响,从而可以测试DNAm与非共同环境暴露和行为之间的关联:我们收集了32对单卵(MZ)和76对双卵(DZ)雌性孪生子的诊断前血样,这两对孪生子的平均年龄为56.0岁,诊断时的平均年龄为66.8岁,普查时的平均年龄为75.2岁。我们使用配对 Cox 比例危险模型确定了所有配对中与 BC 风险相关的 212 个 CpGs(p -8)和 15 个 DMRs。除一个CpGs外,所有与BC风险相关的CpGs都是低甲基化的,198/212个CpGs的DNAm与BC风险相关,与遗传效应无关。根据以往的文献,至少有五个顶级 CpGs 与雌激素信号转导有关。经过全面的双样本孟德尔随机分析,我们发现有证据支持cg20145695(NXN基因体,rs480351)的DNAm具有双重因果影响,即雌激素受体阳性的BC风险增加,而雌激素受体阴性的BC风险降低:虽然 DNAm 对 BC 风险的因果效应并不多见,但大多数已确定的与 BC 风险相关的 CpGs 似乎与遗传效应无关。这表明 DNAm 可作为 BC 环境风险因素的一种有价值的生物标志物,并可作为当前风险评估程序的一种补充工具,提供潜在的益处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
自引率
5.30%
发文量
150
期刊介绍: Clinical Epigenetics, the official journal of the Clinical Epigenetics Society, is an open access, peer-reviewed journal that encompasses all aspects of epigenetic principles and mechanisms in relation to human disease, diagnosis and therapy. Clinical trials and research in disease model organisms are particularly welcome.
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