Targeted DNA methylation profiling reveals epigenetic signatures in peanut allergy
Xiaoying Zhou, Xiaorui Han, Shu-Chen Lyu, Bryan Bunning, Laurie Kost, Iris Chang, Shu Cao, Vanitha Sampath, Kari C. Nadeau
Xiaoying Zhou, Xiaorui Han, Shu-Chen Lyu, Bryan Bunning, Laurie Kost, Iris Chang, Shu Cao, Vanitha Sampath, Kari C. Nadeau
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Research Article Genetics Immunology

Targeted DNA methylation profiling reveals epigenetic signatures in peanut allergy

Abstract

DNA methylation (DNAm) has been shown to play a role in mediating food allergy; however, the mechanism by which it does so is poorly understood. In this study, we used targeted next-generation bisulfite sequencing to evaluate DNAm levels in 125 targeted highly informative genomic regions containing 602 CpG sites on 70 immune-related genes to understand whether DNAm can differentiate peanut allergy (PA) versus nonallergy (NA). We found PA-associated DNAm signatures associated with 12 genes (7 potentially novel to food allergy, 3 associated with Th1/Th2, and 2 associated with innate immunity), as well as DNAm signature combinations with superior diagnostic potential compared with serum peanut–specific IgE for PA versus NA. Furthermore, we found that, following peanut protein stimulation, peripheral blood mononuclear cell (PBMCs) from PA participants showed increased production of cognate cytokines compared with NA participants. The varying responses between PA and NA participants may be associated with the interaction between the modification of DNAm and the interference of environment. Using Euclidean distance analysis, we found that the distances of methylation profile comprising 12 DNAm signatures between PA and NA pairs in monozygotic (MZ) twins were smaller than those in randomly paired genetically unrelated individuals, suggesting that PA-related DNAm signatures may be associated with genetic factors.

Authors

Xiaoying Zhou, Xiaorui Han, Shu-Chen Lyu, Bryan Bunning, Laurie Kost, Iris Chang, Shu Cao, Vanitha Sampath, Kari C. Nadeau

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Figure 5

Peanut allergy–associated DNAm levels in 12 targeted genomic regions are genetically influenced.

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Peanut allergy–associated DNAm levels in 12 targeted genomic regions are...
(A) Euclidean distances of 12 DNAm signatures were calculated pairwise either between 5 MZ twin pairs (5 pairs) who are discordant for peanut allergy or randomly selected genetically unrelated pairs (95 pairs) (i.e., 1 sample has peanut allergy and the other is nonallergy without peanut allergy). #Median of the distance within 5 discordant MZ twin pairs. $Median of the distance of all 95 genetically unrelated NA and PA pairs. (B) Box plots overlaid with dot plots represent the Euclidean distances between MZ PA and NA twin pairs (pairs = 5, left panel) and genetically unrelated individuals in PA participants and in NA individuals (pairs = 95, right panel). (C) Box plots overlaid with dot plots represent the Euclidean distances between random pairs, of which 1 of each pair is an NA MZ twin and the other is a genetically unrelated NA individual (pairs = 35, left panel), and random pairs, of which 1 of each pair is a PA MZ twin and the other is a genetically unrelated PA individual (pairs = 35, right panel). Box plots indicate the interquartile range (IQR) and median; whiskers extend to the farthest data point within a maximum of 1.5× IQR. The Wilcoxon rank sum test (2 sided) was used for comparison analysis. ***P < 0.001.