A20’s linear ubiquitin–binding motif restrains pathogenic activation of Th17 cells and IL-22–driven enteritis
Christopher J. Bowman, Dorothea M. Stibor, Xiaofei Sun, Nika Lenci, Hiromichi Shimizu, Emily F. Yamashita, Rommel Advincula, Min Cheol Kim, Jessie A. Turnbaugh, Yang Sun, Bahram Razani, Peter J. Turnbaugh, Chun Jimmie Ye, Barbara A. Malynn, Averil Ma
Christopher J. Bowman, Dorothea M. Stibor, Xiaofei Sun, Nika Lenci, Hiromichi Shimizu, Emily F. Yamashita, Rommel Advincula, Min Cheol Kim, Jessie A. Turnbaugh, Yang Sun, Bahram Razani, Peter J. Turnbaugh, Chun Jimmie Ye, Barbara A. Malynn, Averil Ma
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Research Article Gastroenterology Immunology

A20’s linear ubiquitin–binding motif restrains pathogenic activation of Th17 cells and IL-22–driven enteritis

Abstract

A20, encoded by the TNFAIP3 gene, is a protein linked to Crohn’s disease and celiac disease in humans. We now find that mice expressing point mutations in A20’s M1-ubiquitin–binding zinc finger 7 (ZF7) motif spontaneously develop proximal enteritis that requires both luminal microbes and T cells. Cellular and transcriptomic profiling reveals expansion of Th17 cells and exuberant expression of IL-17A and IL-22 in intestinal lamina propria of A20ZF7 mice. While deletion of IL-17A from A20ZF7/ZF7 mice exacerbates enteritis, deletion of IL-22 abrogates intestinal epithelial cell hyperproliferation, barrier dysfunction, and alarmin expression. Colonization of adult germ-free mice with microbiota from adult WT specific pathogen–free mice drives duodenal IL-22 expression and duodenitis. A20ZF7/ZF7 Th17 cells autonomously express more RORγt and IL-22 after differentiation in vitro. ATAC sequencing identified an enhancer region upstream of the Il22 gene, and this enhancer demonstrated increased activating histone acetylation coupled with exaggerated Il22 transcription in A20ZF7/ZF7 T cells. Acute inhibition of RORγt normalized histone acetylation at this enhancer. Finally, CRISPR/Cas9–mediated ablation of A20ZF7 in human T cells increases RORγt expression and IL22 transcription. These studies link A20’s M1-ubiquitin binding function with RORγt expression, expansion of Th17 cells, and epigenetic activation of IL-22–driven enteritis.

Authors

Christopher J. Bowman, Dorothea M. Stibor, Xiaofei Sun, Nika Lenci, Hiromichi Shimizu, Emily F. Yamashita, Rommel Advincula, Min Cheol Kim, Jessie A. Turnbaugh, Yang Sun, Bahram Razani, Peter J. Turnbaugh, Chun Jimmie Ye, Barbara A. Malynn, Averil Ma

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Figure 5

IL-22 disrupts epithelial barrier integrity and drives microbe-dependent enteritis in A20ZF7 mice.

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IL-22 disrupts epithelial barrier integrity and drives microbe-dependent...
(A) Average crypt length measured in histology sections of proximal small intestines from indicated genotypes of mice. (B) Representative immunohistochemistry of Ki67 expression in small intestines of indicated genotypes of mice. Data are representative of 2–3 mice from each genotype. Scale bars: 100 μm. (C) qPCR analyses of IL-22–dependent defensins from intact small intestines of indicated radiation chimeras. (D) qPCR analyses of IL-22–dependent genes from isolated small intestinal IECs. (E) Normalized mRNA counts of IL-22–dependent genes from bulk RNA-Seq of intact small intestines. (F) Fluorescence measurements of FITC-dextran in sera from indicated genotypes of mice 4 hours after FITC-dextran gavage. (G) qPCR analyses of indicated tight junction genes from isolated small intestinal IECs from indicated genotypes of mice. (H) Representative H&E histology of proximal small intestines from germ-free (GF) or conventionalized (Conv.) mice of indicated genotypes. Scale bars: 200 μm. (I and J) qPCR analyses of indicated genes from small intestines from indicated genotypes of specific pathogen–free (SPF) and GF mice. (K) qPCR analyses of indicated genes from small intestines from indicated genotypes of GF or Conv. mice. Data are shown as mean ± SEM. Each circle represents an independent mouse. Statistics were calculated using unpaired 2-tailed Student’s t test with Welch’s correction (CF, Il22 in K) or 2-way ANOVA with Bonferroni’s multiple-comparison correction (A, Ccl20 in E, G, I, J, Reg3b and Reg3g in K). *P < 0.05, **P < 0.01, ***P < 0.001.