Epigenome Analysis Links Gene Regulatory Elements in Group 2 Innate Lymphocytes to Asthma Susceptibility

Overview

Journal J Allergy Clin Immunol

Specialty Allergy & Immunology

Date 2018 Feb 28

PMID 29486229

Citations 27

Authors

Ralph Stadhouders

Bobby W S Li

Marjolein J W de Bruijn

Antonio Gomez

Tata Nageswara Rao

Hans Jorg Fehling

Wilfred F J van IJcken

Ai Ing Lim

James P Di Santo

Thomas Graf

Rudi W Hendriks

Affiliations

Soon will be listed here.

Abstract

Background: Group 2 innate lymphoid cells (ILC2s) are major producers of the cytokines driving allergic asthma, and increased ILC2 numbers have been detected in blood and sputum of asthmatic patients. Asthma susceptibility has a strong genetic component, but the underlying mechanisms and whether asthma genetics affect ILC2 biology remain unclear.

Objective: We sought to study the ILC2 transcriptome and epigenome during airway inflammation (AI) to couple these to genes and genetic variants associated with asthma pathogenesis.

Methods: Mice harboring a reporter for the key ILC2 transcription factor GATA-3 were subjected to IL-33-driven AI, and ILC2s were isolated from bronchoalveolar lavage fluid and mediastinal lymph nodes. Human ILC2s were purified from peripheral blood and activated in vitro. We used RNA sequencing, genome-wide identification of histone-3 lysine-4 dimethylation-marked chromatin, and computational approaches to study the ILC2 transcriptome and epigenome.

Results: Activated ILC2s in mice displayed a tissue-specific gene expression signature that emerged from remarkably similar epigenomes. We identified superenhancers implicated in controlling ILC2 identity and asthma-associated genes. More than 300 asthma-associated genetic polymorphisms identified in genome-wide association studies localized to H3K4Me2 gene regulatory elements in ILC2s. A refined set of candidate causal asthma-associated variants was uniquely enriched in ILC2, but not T2 cell, regulatory regions.

Conclusions: ILC2s in AI use a flexible epigenome that couples adaptation to new microenvironments with functional plasticity. Importantly, we reveal strong correlations between gene regulatory mechanisms in ILC2s and the genetic basis of asthma, supporting a pathogenic role for ILC2s in patients with allergic asthma.

Citing Articles

Chronic Inflammation in Asthma: Looking Beyond the Th2 Cell.

Olsthoorn S, van Krimpen A, Hendriks R, Stadhouders R Immunol Rev. 2025; 330(1):e70010.

PMID: 40016948 PMC: 11868696. DOI: 10.1111/imr.70010.

A distal enhancer of GATA3 regulates Th2 differentiation and allergic inflammation.

Kumagai T, Iwata A, Furuya H, Kato K, Okabe A, Toda Y Proc Natl Acad Sci U S A. 2024; 121(27):e2320727121.

PMID: 38923989 PMC: 11228505. DOI: 10.1073/pnas.2320727121.

Epigenomic partitioning of a polygenic risk score for asthma reveals distinct genetically driven disease pathways.

Stikker B, Trap L, Sedaghati-Khayat B, de Bruijn M, van IJcken W, de Roos E Eur Respir J. 2024; 64(2).

PMID: 38901884 PMC: 11358516. DOI: 10.1183/13993003.02059-2023.

Exploring the immunopathology of type 2 inflammatory airway diseases.

AlBloushi S, Al-Ahmad M Front Immunol. 2024; 15:1285598.

PMID: 38680486 PMC: 11045947. DOI: 10.3389/fimmu.2024.1285598.

Allergen immunotherapy combined with Notch pathway inhibitors improves HDM-induced allergic airway inflammation and inhibits ILC2 activation.

Tong Y, Wang L, Wang L, Song J, Fan J, Lai C Front Immunol. 2024; 14:1264071.

PMID: 38371944 PMC: 10869474. DOI: 10.3389/fimmu.2023.1264071.