Gene activation precedes DNA demethylation in response to infection in human dendritic cells

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Immune response to infection is accompanied by active demethylation of thousands of CpG sites. Yet, the causal relationship between changes in DNA methylation and gene expression during infection remains to be elucidated. Here, we investigated the role of DNA methylation in the regulation of innate immune responses to bacterial infections. We found that virtually all changes in gene expression in response to infection occur prior to detectable alterations in the methylome. We also found that the binding of most infection-induced transcription factors precedes loss of methylation. Collectively, our results show that changes in methylation are a downstream consequence of transcription factor binding, and not essential for the establishment of the core regulatory program engaged upon infection.

Abstract

DNA methylation is considered to be a relatively stable epigenetic mark. However, a growing body of evidence indicates that DNA methylation levels can change rapidly; for example, in innate immune cells facing an infectious agent. Nevertheless, the causal relationship between changes in DNA methylation and gene expression during infection remains to be elucidated. Here, we generated time-course data on DNA methylation, gene expression, and chromatin accessibility patterns during infection of human dendritic cells with Mycobacterium tuberculosis. We found that the immune response to infection is accompanied by active demethylation of thousands of CpG sites overlapping distal enhancer elements. However, virtually all changes in gene expression in response to infection occur before detectable changes in DNA methylation, indicating that the observed losses in methylation are a downstream consequence of transcriptional activation. Footprinting analysis revealed that immune-related transcription factors (TFs), such as NF-κB/Rel, are recruited to enhancer elements before the observed losses in methylation, suggesting that DNA demethylation is mediated by TF binding to cis-acting elements. Collectively, our results show that DNA demethylation plays a limited role to the establishment of the core regulatory program engaged upon infection.

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Epigenetic programming of monocyte-to-macrophage differentiation and trained innate immunity.

Sadia Saeed, Jessica Quintin, Hindrik Kerstens … (2014)

Monocyte differentiation into macrophages represents a cornerstone process for host defense. Concomitantly, immunological imprinting of either tolerance or trained immunity determines the functional fate of macrophages and susceptibility to secondary infections. We characterized the transcriptomes and epigenomes in four primary cell types: monocytes and in vitro-differentiated naïve, tolerized, and trained macrophages. Inflammatory and metabolic pathways were modulated in macrophages, including decreased inflammasome activation, and we identified pathways functionally implicated in trained immunity. β-glucan training elicits an exclusive epigenetic signature, revealing a complex network of enhancers and promoters. Analysis of transcription factor motifs in deoxyribonuclease I hypersensitive sites at cell-type-specific epigenetic loci unveiled differentiation and treatment-specific repertoires. Altogether, we provide a resource to understand the epigenetic changes that underlie innate immunity in humans. Copyright © 2014, American Association for the Advancement of Science.

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Base-resolution analysis of 5-hydroxymethylcytosine in the mammalian genome.

Miao Yu, Gary C. Hon, Keith E. Szulwach … (2012)

The study of 5-hydroxylmethylcytosines (5hmC) has been hampered by the lack of a method to map it at single-base resolution on a genome-wide scale. Affinity purification-based methods cannot precisely locate 5hmC nor accurately determine its relative abundance at each modified site. We here present a genome-wide approach, Tet-assisted bisulfite sequencing (TAB-Seq), that when combined with traditional bisulfite sequencing can be used for mapping 5hmC at base resolution and quantifying the relative abundance of 5hmC as well as 5mC. Application of this method to embryonic stem cells not only confirms widespread distribution of 5hmC in the mammalian genome but also reveals sequence bias and strand asymmetry at 5hmC sites. We observe high levels of 5hmC and reciprocally low levels of 5mC near but not on transcription factor-binding sites. Additionally, the relative abundance of 5hmC varies significantly among distinct functional sequence elements, suggesting different mechanisms for 5hmC deposition and maintenance. Copyright © 2012 Elsevier Inc. All rights reserved.

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Latent enhancers activated by stimulation in differentiated cells.

Renato Ostuni, Viviana Piccolo, Iros Barozzi … (2013)

According to current models, once the cell has reached terminal differentiation, the enhancer repertoire is completely established and maintained by cooperatively acting lineage-specific transcription factors (TFs). TFs activated by extracellular stimuli operate within this predetermined repertoire, landing close to where master regulators are constitutively bound. Here, we describe latent enhancers, defined as regions of the genome that in terminally differentiated cells are unbound by TFs and lack the histone marks characteristic of enhancers but acquire these features in response to stimulation. Macrophage stimulation caused sequential binding of stimulus-activated and lineage-determining TFs to these regions, enabling deposition of enhancer marks. Once unveiled, many of these enhancers did not return to a latent state when stimulation ceased; instead, they persisted and mediated a faster and stronger response upon restimulation. We suggest that stimulus-specific expansion of the cis-regulatory repertoire provides an epigenomic memory of the exposure to environmental agents. Copyright © 2013 Elsevier Inc. All rights reserved.

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Author and article information

Journal

Journal ID (nlm-ta): Proc Natl Acad Sci U S A

Journal ID (iso-abbrev): Proc. Natl. Acad. Sci. U.S.A

Journal ID (hwp): pnas

Journal ID (pmc): pnas

Journal ID (publisher-id): PNAS

Title: Proceedings of the National Academy of Sciences of the United States of America

Publisher: National Academy of Sciences

ISSN (Print): 0027-8424

ISSN (Electronic): 1091-6490

Publication date (Print): 2 April 2019

Publication date (Electronic): 18 March 2019

Publication date PMC-release: 18 March 2019

Volume: 116

Issue: 14

Pages: 6938-6943

Affiliations

[1] ^aDepartment of Genetics, CHU Sainte-Justine Research Center , Montreal, H3T1C5, Canada;

[2] ^bDepartment of Biochemistry, University of Montreal , Montreal, H3T1J4, Canada;

[3] ^cMycobacterial Genetics Unit, Institut Pasteur , 75015 Paris, France;

[4] ^dUnit for Integrated Mycobacterial Pathogenomics, Institut Pasteur , CNRS UMR 3525, 75015 Paris, France;

[5] ^eDepartment of Pediatrics, University of Montreal , Montreal, H3T1J4, Canada;

[6] ^fGenetics Section, Department of Medicine, The University of Chicago , Chicago, IL 60637

Author notes

³To whom correspondence should be addressed. Email: lbarreiro@ 123456uchicago.edu .

Edited by Barry R. Bloom, Harvard T. H. Chan School of Public Health, Boston, MA, and approved February 21, 2019 (received for review August 27, 2018)

Author contributions: L.B.B. designed research; A.P., F.M.-L., L.T., H.E.R., V.Y., A.D., and L.B.B. performed research; L.T. contributed new reagents/analytic tools; A.P. and J.-C.G. analyzed data; and A.P., F.M.-L., and L.B.B. wrote the paper.

¹A.P. and F.M.-L. contributed equally to this work.

²Present address: Canadian Centre for Computational Genomics, McGill University and Genome Quebec Innovation Center, Montreal, QC H3A0G1, Canada.

Author information

Alain Pacis http://orcid.org/0000-0003-4883-6176

Jean-Christophe Grenier http://orcid.org/0000-0001-7937-5160

Article

Publisher ID: 201814700

DOI: 10.1073/pnas.1814700116

PMC ID: 6452747

PubMed ID: 30886108

SO-VID: ca2b07ee-a2e8-4fd4-b838-abe1d5608b16

License:

This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).

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Pages: 6

Funding

Funded by: Gouvernement du Canada | Canadian Institutes of Health Research (CIHR) 501100000024

Award ID: 301538

Award Recipient : Luis B Barreiro

Funded by: Gouvernement du Canada | Canadian Institutes of Health Research (CIHR) 501100000024

Award ID: 232519

Award Recipient : Luis B Barreiro

Funded by: Canada Research Chairs (Chaires de recherche du Canada) 501100001804

Award ID: 950-228993

Award Recipient : Luis B Barreiro

Funded by: Fonds de Recherche du Québec - Santé (FRQS) 501100000156

Award ID: 000000

Award Recipient : Alain Pacis Award Recipient : Florence Mailhot-Leonard

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Gene activation precedes DNA demethylation in response to infection in human dendritic cells

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Most cited references 42

Epigenetic programming of monocyte-to-macrophage differentiation and trained innate immunity.

Base-resolution analysis of 5-hydroxymethylcytosine in the mammalian genome.

Latent enhancers activated by stimulation in differentiated cells.

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