Microbiota-sensitive epigenetic signature predicts inflammation in Crohn’s disease
Daniel Kelly, Michael Kotliar, Vivienne Woo, Sajjeev Jagannathan, Jordan Whitt, Jessica Moncivaiz, Bruce J. Aronow, Marla C. Dubinsky, Jeffrey S. Hyams, James F. Markowitz, Robert N. Baldassano, Michael C. Stephens, Thomas D. Walters, Subra Kugathasan, Yael Haberman, Nambirajan Sundaram, Michael J. Rosen, Michael Helmrath, Rebekah Karns, Artem Barski, Lee A. Denson, Theresa Alenghat
Daniel Kelly, Michael Kotliar, Vivienne Woo, Sajjeev Jagannathan, Jordan Whitt, Jessica Moncivaiz, Bruce J. Aronow, Marla C. Dubinsky, Jeffrey S. Hyams, James F. Markowitz, Robert N. Baldassano, Michael C. Stephens, Thomas D. Walters, Subra Kugathasan, Yael Haberman, Nambirajan Sundaram, Michael J. Rosen, Michael Helmrath, Rebekah Karns, Artem Barski, Lee A. Denson, Theresa Alenghat
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Research Article Gastroenterology

Microbiota-sensitive epigenetic signature predicts inflammation in Crohn’s disease

Abstract

Altered response to the intestinal microbiota strongly associates with inflammatory bowel disease (IBD); however, how commensal microbial cues are integrated by the host during the pathogenesis of IBD is not understood. Epigenetics represents a potential mechanism that could enable intestinal microbes to modulate transcriptional output during the development of IBD. Here, we reveal a histone methylation signature of intestinal epithelial cells isolated from the terminal ilea of newly diagnosed pediatric IBD patients. Genes characterized by significant alterations in histone H3-lysine 4 trimethylation (H3K4me3) showed differential enrichment in pathways involving immunoregulation, cell survival and signaling, and metabolism. Interestingly, a large subset of these genes was epigenetically regulated by microbiota in mice and several microbiota-sensitive epigenetic targets demonstrated altered expression in IBD patients. Remarkably though, a substantial proportion of these genes exhibited H3K4me3 levels that correlated with the severity of intestinal inflammation in IBD, despite lacking significant differential expression. Collectively, these data uncover a previously unrecognized epigenetic profile of IBD that can be primed by commensal microbes and indicate sensitive targets in the epithelium that may underlie how microbiota predispose to subsequent intestinal inflammation and disease.

Authors

Daniel Kelly, Michael Kotliar, Vivienne Woo, Sajjeev Jagannathan, Jordan Whitt, Jessica Moncivaiz, Bruce J. Aronow, Marla C. Dubinsky, Jeffrey S. Hyams, James F. Markowitz, Robert N. Baldassano, Michael C. Stephens, Thomas D. Walters, Subra Kugathasan, Yael Haberman, Nambirajan Sundaram, Michael J. Rosen, Michael Helmrath, Rebekah Karns, Artem Barski, Lee A. Denson, Theresa Alenghat

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Figure 3

Microbiota regulate histone methylation of a unique subset of epithelial Crohn’s disease targets.

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Microbiota regulate histone methylation of a unique subset of epithelial...
(A) Volcano plot representation of genes with differential H3K4me3 peaks in IECs from microbiota-replete conventionally housed (CNV) mice relative to germ-free (GF) mice (P < 0.05, n = 3 per group). (B) Genomic locations of sites with significantly increased or decreased H3K4me3 peaks in IECs due to the presence of microbiota. (C) Venn diagram showing overlap of genes with increased H3K4me3 in CD due to microbiota exposure (P = 3.8e-06 by hypergeometric test). (D) Representative sample tracks of peaks with increased H3K4me3 in IECs of CD patients and CNV mice. (E) Average H3K4me3 density for microbiota-sensitive genes in CD from C. Wilcoxon rank-sum test was used to determine the P value. (F) Venn diagram showing overlap of genes with decreased H3K4me3 in CD due to microbiota exposure (P = 1.9e-16 by hypergeometric test). (G) Representative sample tracks of peaks with decreased H3K4me3 in IECs of CD patients and CNV mice. (H) Average H3K4me3 density for microbiota-sensitive genes in CD from F. Wilcoxon rank-sum test was used to determine P value.