Caren Weinhouse, Luiza Perez, Ian Ryde, Jaclyn M Goodrich, J Jaime Miranda, Heileen Hsu-Kim, Susan K Murphy, Joel N Meyer, William K Pan
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Here, we provide proof of principle that maximizing exposure variance in EWAS enables effective candidate biomarker detection, even in small sample sizes.</p><p><strong>Methods: </strong>We profiled genome-wide DNA methylation in whole blood from individuals from Madre de Dios, Peru, with either high methylmercury (MeHg) exposure (> 10 µg/g total hair mercury; N = 16) or low MeHg exposure (< 1 µg/g total hair mercury; N = 16).</p><p><strong>Results: </strong>We identified nine differentially methylated CpG sites (FDR < 0.05), which is comparable to the number identified by much larger EWAS. The most significantly different CpG site was in an intronic enhancer of the SLC5A7 gene, which encodes the L-type amino acid transporter 1 (LAT1) that facilitates MeHg transport. 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引用次数: 0
摘要
背景:全表观基因组关联研究(EWAS)是一种非常有前途的方法,可以为精确环境健康提供信息。然而,目前的EWAS动力不足,增加样本量将需要大量资源。因此,通过EWAS识别候选生物标志物的替代方法至关重要。在这里,我们提供了原理证明,即使在小样本量下,EWAS中最大化暴露方差也能有效地检测候选生物标志物。方法:我们分析了来自秘鲁Madre de Dios的个体全血中全基因组DNA甲基化,这些个体要么是高甲基汞(MeHg)暴露(bbb10 μ g/g总发汞;结果:我们确定了9个差异甲基化的CpG位点(FDR)。结论:在已知高暴露差异的全球人群中,类似的EWAS可以用来开发靶向的、定制的测序面板和微阵列,仅限于复制、验证给定暴露的生物标志物。
High exposure variance enables candidate biomarker detection in a small EWAS of methylmercury-exposed Peruvian adults.
Background: Epigenome-wide association studies (EWAS) are a highly promising approach that can inform precision environmental health. However, current EWAS are underpowered and increasing sample sizes will require substantial resources. Therefore, alternative approaches for identifying candidate biomarkers through EWAS are critical. Here, we provide proof of principle that maximizing exposure variance in EWAS enables effective candidate biomarker detection, even in small sample sizes.
Methods: We profiled genome-wide DNA methylation in whole blood from individuals from Madre de Dios, Peru, with either high methylmercury (MeHg) exposure (> 10 µg/g total hair mercury; N = 16) or low MeHg exposure (< 1 µg/g total hair mercury; N = 16).
Results: We identified nine differentially methylated CpG sites (FDR < 0.05), which is comparable to the number identified by much larger EWAS. The most significantly different CpG site was in an intronic enhancer of the SLC5A7 gene, which encodes the L-type amino acid transporter 1 (LAT1) that facilitates MeHg transport. Our Gene Ontology and transcription factor motif enrichment analyses identified genes involved in outcomes linked to MeHg toxicity, including immune response, neurotoxicity, and type 2 diabetes (T2D).
Conclusions: Similar EWAS in global populations with known high exposure variance can be leveraged to develop targeted, custom sequencing panels and microarrays limited to replicated, validated biomarkers of a given exposure.
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