Literature DB >> 24777532

The epigenetic regulator Uhrf1 facilitates the proliferation and maturation of colonic regulatory T cells.

Yuuki Obata1, Yukihiro Furusawa2, Takaho A Endo3, Jafar Sharif4, Daisuke Takahashi5, Koji Atarashi6, Manabu Nakayama7, Satoshi Onawa5, Yumiko Fujimura8, Masumi Takahashi5, Tomokatsu Ikawa9, Takeshi Otsubo10, Yuki I Kawamura10, Taeko Dohi10, Shoji Tajima11, Hiroshi Masumoto12, Osamu Ohara3, Kenya Honda13, Shohei Hori14, Hiroshi Ohno15, Haruhiko Koseki4, Koji Hase16.   

Abstract

Intestinal regulatory T cells (Treg cells) are necessary for the suppression of excessive immune responses to commensal bacteria. However, the molecular machinery that controls the homeostasis of intestinal Treg cells has remained largely unknown. Here we report that colonization of germ-free mice with gut microbiota upregulated expression of the DNA-methylation adaptor Uhrf1 in Treg cells. Mice with T cell-specific deficiency in Uhrf1 (Uhrf1(fl/fl)Cd4-Cre mice) showed defective proliferation and functional maturation of colonic Treg cells. Uhrf1 deficiency resulted in derepression of the gene (Cdkn1a) that encodes the cyclin-dependent kinase inhibitor p21 due to hypomethylation of its promoter region, which resulted in cell-cycle arrest of Treg cells. As a consequence, Uhrf1(fl/fl)Cd4-Cre mice spontaneously developed severe colitis. Thus, Uhrf1-dependent epigenetic silencing of Cdkn1a was required for the maintenance of gut immunological homeostasis. This mechanism enforces symbiotic host-microbe interactions without an inflammatory response.

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Year:  2014        PMID: 24777532     DOI: 10.1038/ni.2886

Source DB:  PubMed          Journal:  Nat Immunol        ISSN: 1529-2908            Impact factor:   25.606


  49 in total

1.  Commensal microbe-derived butyrate induces the differentiation of colonic regulatory T cells.

Authors:  Yukihiro Furusawa; Yuuki Obata; Shinji Fukuda; Takaho A Endo; Gaku Nakato; Daisuke Takahashi; Yumiko Nakanishi; Chikako Uetake; Keiko Kato; Tamotsu Kato; Masumi Takahashi; Noriko N Fukuda; Shinnosuke Murakami; Eiji Miyauchi; Shingo Hino; Koji Atarashi; Satoshi Onawa; Yumiko Fujimura; Trevor Lockett; Julie M Clarke; David L Topping; Masaru Tomita; Shohei Hori; Osamu Ohara; Tatsuya Morita; Haruhiko Koseki; Jun Kikuchi; Kenya Honda; Koji Hase; Hiroshi Ohno
Journal:  Nature       Date:  2013-11-13       Impact factor: 49.962

2.  T cell receptor stimulation-induced epigenetic changes and Foxp3 expression are independent and complementary events required for Treg cell development.

Authors:  Naganari Ohkura; Masahide Hamaguchi; Hiromasa Morikawa; Kyoko Sugimura; Atsushi Tanaka; Yoshinaga Ito; Motonao Osaki; Yoshiaki Tanaka; Riu Yamashita; Naoko Nakano; Jochen Huehn; Hans Joerg Fehling; Tim Sparwasser; Kenta Nakai; Shimon Sakaguchi
Journal:  Immunity       Date:  2012-11-01       Impact factor: 31.745

3.  Activation of Gpr109a, receptor for niacin and the commensal metabolite butyrate, suppresses colonic inflammation and carcinogenesis.

Authors:  Nagendra Singh; Ashish Gurav; Sathish Sivaprakasam; Evan Brady; Ravi Padia; Huidong Shi; Muthusamy Thangaraju; Puttur D Prasad; Santhakumar Manicassamy; David H Munn; Jeffrey R Lee; Stefan Offermanns; Vadivel Ganapathy
Journal:  Immunity       Date:  2014-01-09       Impact factor: 31.745

4.  Inducible IL-2 production by dendritic cells revealed by global gene expression analysis.

Authors:  F Granucci; C Vizzardelli; N Pavelka; S Feau; M Persico; E Virzi; M Rescigno; G Moro; P Ricciardi-Castagnoli
Journal:  Nat Immunol       Date:  2001-09       Impact factor: 25.606

5.  Inducible Foxp3+ regulatory T-cell development by a commensal bacterium of the intestinal microbiota.

Authors:  June L Round; Sarkis K Mazmanian
Journal:  Proc Natl Acad Sci U S A       Date:  2010-06-21       Impact factor: 11.205

6.  Plasticity of Foxp3(+) T cells reflects promiscuous Foxp3 expression in conventional T cells but not reprogramming of regulatory T cells.

Authors:  Takahisa Miyao; Stefan Floess; Ruka Setoguchi; Hervé Luche; Hans Joerg Fehling; Herman Waldmann; Jochen Huehn; Shohei Hori
Journal:  Immunity       Date:  2012-02-09       Impact factor: 31.745

7.  Role of conserved non-coding DNA elements in the Foxp3 gene in regulatory T-cell fate.

Authors:  Ye Zheng; Steven Josefowicz; Ashutosh Chaudhry; Xiao P Peng; Katherine Forbush; Alexander Y Rudensky
Journal:  Nature       Date:  2010-01-13       Impact factor: 49.962

8.  Neuropilin-1 distinguishes natural and inducible regulatory T cells among regulatory T cell subsets in vivo.

Authors:  Mahesh Yadav; Cedric Louvet; Dan Davini; James M Gardner; Marc Martinez-Llordella; Samantha Bailey-Bucktrout; Bryan A Anthony; Francis M Sverdrup; Richard Head; Daniel J Kuster; Peter Ruminski; David Weiss; David Von Schack; Jeffrey A Bluestone
Journal:  J Exp Med       Date:  2012-09-10       Impact factor: 14.307

9.  GPR15-mediated homing controls immune homeostasis in the large intestine mucosa.

Authors:  Sangwon V Kim; Wenkai V Xiang; Changsoo Kwak; Yi Yang; Xiyao W Lin; Mitsuhiko Ota; Umut Sarpel; Daniel B Rifkin; Ruliang Xu; Dan R Littman
Journal:  Science       Date:  2013-05-09       Impact factor: 47.728

10.  Metabolites produced by commensal bacteria promote peripheral regulatory T-cell generation.

Authors:  Nicholas Arpaia; Clarissa Campbell; Xiying Fan; Stanislav Dikiy; Joris van der Veeken; Paul deRoos; Hui Liu; Justin R Cross; Klaus Pfeffer; Paul J Coffer; Alexander Y Rudensky
Journal:  Nature       Date:  2013-11-13       Impact factor: 49.962
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  75 in total

Review 1.  CD4+ T-cell subsets in inflammatory diseases: beyond the Th1/Th2 paradigm.

Authors:  Kiyoshi Hirahara; Toshinori Nakayama
Journal:  Int Immunol       Date:  2016-02-12       Impact factor: 4.823

2.  Epigenetic and inflammatory events in experimental periodontitis following systemic microbial challenge.

Authors:  Daniela B Palioto; Livia S Finoti; Denis F Kinane; Manjunatha Benakanakere
Journal:  J Clin Periodontol       Date:  2019-06-25       Impact factor: 8.728

3.  Epigenetic Compensation Promotes Liver Regeneration.

Authors:  Shuang Wang; Chi Zhang; Dan Hasson; Anal Desai; Sucharita SenBanerjee; Elena Magnani; Chinweike Ukomadu; Amaia Lujambio; Emily Bernstein; Kirsten C Sadler
Journal:  Dev Cell       Date:  2019-06-20       Impact factor: 12.270

4.  Epigenetic regulator UHRF1 inactivates REST and growth suppressor gene expression via DNA methylation to promote axon regeneration.

Authors:  Young Mi Oh; Marcus Mahar; Eric E Ewan; Kathleen M Leahy; Guoyan Zhao; Valeria Cavalli
Journal:  Proc Natl Acad Sci U S A       Date:  2018-12-10       Impact factor: 11.205

5.  IBD. Fishing for missing heritability in IBD.

Authors:  Michael Pack
Journal:  Nat Rev Gastroenterol Hepatol       Date:  2015-05-05       Impact factor: 46.802

6.  Epigenomics and the microbiota.

Authors:  Theresa Alenghat
Journal:  Toxicol Pathol       Date:  2014-10-20       Impact factor: 1.902

Review 7.  Epigenetic modifications of the immune system in health and disease.

Authors:  Yuuki Obata; Yukihiro Furusawa; Koji Hase
Journal:  Immunol Cell Biol       Date:  2015-02-10       Impact factor: 5.126

8.  Transcriptional analysis of Foxp3+ Tregs and functions of two identified molecules during resolution of ALI.

Authors:  Jason R Mock; Catherine F Dial; Miriya K Tune; Dustin L Norton; Jessica R Martin; John C Gomez; Robert S Hagan; Hong Dang; Claire M Doerschuk
Journal:  JCI Insight       Date:  2019-03-21

9.  DNA hypomethylation induces a DNA replication-associated cell cycle arrest to block hepatic outgrowth in uhrf1 mutant zebrafish embryos.

Authors:  Vinitha Jacob; Yelena Chernyavskaya; Xintong Chen; Poh Seng Tan; Brandon Kent; Yujin Hoshida; Kirsten C Sadler
Journal:  Development       Date:  2015-01-06       Impact factor: 6.868

Review 10.  Genetically engineered mouse models for studying inflammatory bowel disease.

Authors:  Atsushi Mizoguchi; Takahito Takeuchi; Hidetomo Himuro; Toshiyuki Okada; Emiko Mizoguchi
Journal:  J Pathol       Date:  2015-11-14       Impact factor: 7.996
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