The application of epiphenotyping approaches to DNA methylation array studies of the human placenta

Khan, A.; Inkster, A. M.; Peñaherrera, M. S.; King, S.; Kildea, S.; Oberlander, T. F.; Olson, D. M.; Vaillancourt, C.; Brain, U.; Beraldo, E. O.; Beristain, A. G.; Clifton, V. L.; Del Gobbo, G. F.; Lam, W. L.; Metz, G. A. S.; Ng, J. W. Y.; Price, E. M.; Schuetz, J. M.; Yuan, V.; Portales-Casamar, É.; Robinson, W. P.

doi:10.1186/s13072-023-00507-5

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References 94 publications

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“…To assess the performance of our placental DNA methylation deconvolution reference, we compared its ability to predict DNA methylation variation [44] in a preprocessed placental whole tissue Illumina EPIC microarray DNA methylation dataset comprised of 204 placentas across three cohorts (GEO accession number GSE232778) [45] against the only existing multi-cell type reference [15]. To capture a low-dimensional representation of placental DNA methylation variation, we performed a principal component analysis using prcomp v4.2.2 [46] of site-specific methylation rates in GSE232778 and extracted the first principal component.…”

Section: Methodsmentioning

confidence: 99%

Placental and Immune Cell DNA Methylation Reference Panel for Bulk Tissue Cell Composition Estimation in Epidemiological Studies

Campbell,

Colacino,

Dou

et al. 2024

Preprint

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To distinguish DNA methylation (DNAm) from cell proportion changes in whole placental tissue research, we developed a robust cell type-specific DNAm reference to estimate cell composition. We collated newly collected and existing cell type DNAm profiles quantified via Illumina EPIC or 450k microarrays. To estimate cell composition, we deconvoluted whole placental samples (n=36) with robust partial correlation based on the top 50 hyper- and hypomethylated sites per cell type. To test deconvolution performance, we evaluated RMSE in predicting principal component one of DNAm variation in 204 external placental samples. We analyzed DNAm profiles (n=368,435 sites) from 12 cell types: cytotrophoblasts (n=18), endothelial cells (n=19), Hofbauer cells (n=26), stromal cells (n=21), syncytiotrophoblasts (n=4), six lymphocyte types (n=36), and nucleated red blood cells (n=11). Median cell composition was consistent with placental biology: 60.4% syncytiotrophoblast, 17.1% stromal, 8.8% endothelial, 4.5% cytotrophoblast, 3.9% Hofbauer, 1.7% nucleated red blood cells, and 1.2% neutrophils. Our expanded reference outperformed an existing reference in predicting DNAm variation (15.4% variance explained, IQR=21.61) with cell composition estimates (RMSE:10.51 vs. 11.43, p-value<0.001). This cell type reference can robustly estimate cell composition from whole placental DNAm data to detect important cell types, reveal biological mechanisms, and improve casual inference.

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Section: Methodsmentioning

confidence: 99%