游离DNA及其细胞来源的全基因组亚硫酸氢盐测序揭示胎盘低甲基化区域。

Whole genome bisulfite sequencing of cell-free DNA and its cellular contributors uncovers placenta hypomethylated domains.

作者信息

Jensen Taylor J, Kim Sung K, Zhu Zhanyang, Chin Christine, Gebhard Claudia, Lu Tim, Deciu Cosmin, van den Boom Dirk, Ehrich Mathias

机构信息

Sequenom Laboratories, 3595 John Hopkins Ct, San Diego, CA, 92121, USA.

Sequenom Inc., 3595 John Hopkins Ct, San Diego, CA, 92121, USA.

出版信息

Genome Biol. 2015 Apr 15;16(1):78. doi: 10.1186/s13059-015-0645-x.

DOI:10.1186/s13059-015-0645-x

PMID:25886572

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4427941/

Abstract

BACKGROUND

Circulating cell-free fetal DNA has enabled non-invasive prenatal fetal aneuploidy testing without direct discrimination of the maternal and fetal DNA. Testing may be improved by specifically enriching the sample material for fetal DNA. DNA methylation may allow for such a separation of DNA; however, this depends on knowledge of the methylomes of circulating cell-free DNA and its cellular contributors.

RESULTS

We perform whole genome bisulfite sequencing on a set of unmatched samples including circulating cell-free DNA from non-pregnant and pregnant female donors and genomic DNA from maternal buffy coat and placenta samples. We find CpG cytosines within longer fragments are more likely to be methylated. Comparison of the methylomes of placenta and non-pregnant circulating cell-free DNA reveal many of the 51,259 identified differentially methylated regions are located in domains exhibiting consistent placenta hypomethylation across millions of consecutive bases. We find these placenta hypomethylated domains are consistently located within regions exhibiting low CpG and gene density. Differentially methylated regions identified when comparing placenta to non-pregnant circulating cell-free DNA are recapitulated in pregnant circulating cell-free DNA, confirming the ability to detect differential methylation in circulating cell-free DNA mixtures.

CONCLUSIONS

We generate methylome maps for four sample types at single-base resolution, identify a link between DNA methylation and fragment length in circulating cell-free DNA, identify differentially methylated regions between sample groups, and uncover the presence of megabase-size placenta hypomethylated domains.

摘要

背景

循环游离胎儿DNA已使无创产前胎儿非整倍体检测成为可能，而无需直接区分母体和胎儿DNA。通过特异性富集胎儿DNA的样本材料，检测可能会得到改善。DNA甲基化可能允许对DNA进行这种分离；然而，这取决于对循环游离DNA及其细胞来源的甲基化组的了解。

结果

我们对一组不匹配的样本进行了全基因组亚硫酸氢盐测序，这些样本包括来自未怀孕和怀孕女性供体的循环游离DNA，以及来自母体血沉棕黄层和胎盘样本的基因组DNA。我们发现较长片段内的CpG胞嘧啶更有可能被甲基化。胎盘和未怀孕循环游离DNA甲基化组的比较显示，在51259个已鉴定的差异甲基化区域中，许多位于数百万个连续碱基上呈现一致胎盘低甲基化的区域。我们发现这些胎盘低甲基化区域始终位于CpG和基因密度较低的区域内。比较胎盘与未怀孕循环游离DNA时鉴定出的差异甲基化区域在怀孕循环游离DNA中得到重现，证实了在循环游离DNA混合物中检测差异甲基化的能力。

结论

我们以单碱基分辨率生成了四种样本类型的甲基化组图谱，确定了循环游离DNA中DNA甲基化与片段长度之间的联系，鉴定了样本组之间的差异甲基化区域，并发现了兆碱基大小的胎盘低甲基化区域的存在。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0d39/4427941/c5a2dd5725e9/13059_2015_645_Fig1_HTML.jpg

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游离DNA及其细胞来源的全基因组亚硫酸氢盐测序揭示胎盘低甲基化区域。

Whole genome bisulfite sequencing of cell-free DNA and its cellular contributors uncovers placenta hypomethylated domains.

作者信息

Jensen Taylor J, Kim Sung K, Zhu Zhanyang, Chin Christine, Gebhard Claudia, Lu Tim, Deciu Cosmin, van den Boom Dirk, Ehrich Mathias

机构信息

Sequenom Laboratories, 3595 John Hopkins Ct, San Diego, CA, 92121, USA.

Sequenom Inc., 3595 John Hopkins Ct, San Diego, CA, 92121, USA.