The Role of the Histone Methyltransferase Enhancer of Zeste Homolog 2 (EZH2) in the Pathobiological Mechanisms Underlying Inflammatory Bowel Disease (IBD)

Olga F Sarmento,Phyllis A Svingen,Yuning Xiong,Zhifu Sun,Adebowale O Bamidele,Angela J Mathison,Thomas C Smyrk,Asha A Nair,Michelle M Gonzalez,Mary R Sagstetter,Saurabh Baheti,Dermot P.B Mcgovern,Jessica J Friton,Konstantinos A Papadakis,Goel Gautam,Ramnik J Xavier,Raul A Urrutia,William A Faubion

doi:10.1074/jbc.m116.749663

Olga F Sarmento, Phyllis A Svingen + Show 16 more

Open Access

https://doi.org/10.1074/jbc.m116.749663

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Abstract

Regulatory T (Treg) cells expressing the transcription factor FOXP3 play a pivotal role in maintaining immunologic self-tolerance. We and others have shown previously that EZH2 is recruited to the FOXP3 promoter and its targets in Treg cells. To further address the role for EZH2 in Treg cellular function, we have now generated mice that lack EZH2 specifically in Treg cells (EZH2Δ/ΔFOXP3+). We find that EZH2 deficiency in FOXP3+ T cells results in lethal multiorgan autoimmunity. We further demonstrate that EZH2Δ/ΔFOXP3+ T cells lack a regulatory phenotype in vitro and secrete proinflammatory cytokines. Of special interest, EZH2Δ/ΔFOXP3+ mice develop spontaneous inflammatory bowel disease. Guided by these results, we assessed the FOXP3 and EZH2 gene networks by RNA sequencing in isolated intestinal CD4+ T cells from patients with Crohn's disease. Gene network analysis demonstrates that these CD4+ T cells display a Th1/Th17-like phenotype with an enrichment of gene targets shared by FOXP3 and EZH2. Combined, these results suggest that the inflammatory milieu found in Crohn's disease could lead to or result from deregulation of FOXP3/EZH2-enforced T cell gene networks contributing to the underlying intestinal inflammation.

Highlights

Regulatory T (Treg) cells expressing the transcription factor FOXP3 play a pivotal role in maintaining immunologic self-tolerance
These results suggest that the inflammatory milieu found in Crohn’s disease could lead to or result from deregulation of FOXP3/enhancer of Zeste homolog 2 (EZH2)-enforced T cell gene networks contributing to the underlying intestinal inflammation
We identified significantly elevated levels of TNF-␣ (11.9 pg/ml versus 6.5 pg/ml, p ϭ 0.003) and IFN-␥ (3.35 versus 0.8 pg/ml, p ϭ 0.0002) in the serum of 14- to 17-day-old EZH2⌬/⌬FOXP3ϩ mice compared with littermate control animals (Fig. 1D)

Summary

Introduction

Regulatory T (Treg) cells expressing the transcription factor FOXP3 play a pivotal role in maintaining immunologic self-tolerance. EZH2⌬/⌬FOXP3؉ mice develop spontaneous inflammatory bowel disease Guided by these results, we assessed the FOXP3 and EZH2 gene networks by RNA sequencing in isolated intestinal CD4؉ T cells from patients with Crohn’s disease. FOXP3 binds to EZH2 [13], suggesting that this HMT may function as a cofactor for the regulation of Treg-specific gene networks The role these interactions may have in either initiating or maintaining inflammation in human disease remains to be established. We further demonstrate that EZH2-deficient FOXP3ϩ T cells do not maintain a regulatory phenotype but instead secrete proinflammatory cytokines Of special interest, these mice developed spontaneous IBD of both the small and large intestine. These data provide insight into the mechanisms of human disease

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