Literature DB >> 25193380

Epigenetic enzymes are the therapeutic targets for CD4(+)CD25(+/high)Foxp3(+) regulatory T cells.

Jahaira Lopez-Pastrana1, Ying Shao1, Valeria Chernaya1, Hong Wang1, Xiao-Feng Yang2.   

Abstract

CD4(+)CD25(+/high)Foxp3(+) regulatory T (Treg) cells are a subset of CD4(+) T cells that play an essential role in maintaining peripheral immune tolerance. Several transcriptional cofactors have been recently identified, which form complexes with transcription factor Foxp3 of Treg cells and contribute in the suppressive function of Treg cells. However, Foxp3 is still defined as a "master" (multiple pathway) regulator gene that controls the development and stability of Treg cells. Because of its importance, the regulatory mechanisms underlying Foxp3 expression have been a focus of intensive investigation. Recent progress suggests that the epigenetic mechanisms responsible for regulating the Foxp3 gene expression are key components of suppressive activity of Treg cells. This review not only discusses the basic concepts of biology and epigenetic modifications of Treg cells, but also analyzes the translational clinical aspect of epigenetic modifications of Treg cells, focusing on several ongoing clinical trials and the Food and Drugs administration (FDA) approved epigenetic-based drugs. The new progress in identifying epigenetic enzymes functional in Treg cells is a new target for the development of novel therapeutic approaches for autoimmune and inflammatory diseases, graft-vs-host disease and cancers.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2014        PMID: 25193380      PMCID: PMC4259825          DOI: 10.1016/j.trsl.2014.08.001

Source DB:  PubMed          Journal:  Transl Res        ISSN: 1878-1810            Impact factor:   7.012


  191 in total

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2.  Targeted recruitment of Set1 histone methylase by elongating Pol II provides a localized mark and memory of recent transcriptional activity.

Authors:  Huck Hui Ng; François Robert; Richard A Young; Kevin Struhl
Journal:  Mol Cell       Date:  2003-03       Impact factor: 17.970

3.  Histone/protein deacetylase inhibitors increase suppressive functions of human FOXP3+ Tregs.

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Journal:  Clin Immunol       Date:  2010-05-15       Impact factor: 3.969

4.  Cell interactions in the induction of tolerance: the role of thymic lymphocytes.

Authors:  R K Gershon; K Kondo
Journal:  Immunology       Date:  1970-05       Impact factor: 7.397

5.  Genome-wide analysis of Foxp3 target genes in developing and mature regulatory T cells.

Authors:  Ye Zheng; Steven Z Josefowicz; Arnold Kas; Tin-Tin Chu; Marc A Gavin; Alexander Y Rudensky
Journal:  Nature       Date:  2007-01-21       Impact factor: 49.962

6.  Histone deacetylase inhibitors suppress rheumatoid arthritis fibroblast-like synoviocyte and macrophage IL-6 production by accelerating mRNA decay.

Authors:  Aleksander M Grabiec; Olexandr Korchynskyi; Paul P Tak; Kris A Reedquist
Journal:  Ann Rheum Dis       Date:  2011-09-27       Impact factor: 19.103

7.  Phosphorylation of histone deacetylase 7 by protein kinase D mediates T cell receptor-induced Nur77 expression and apoptosis.

Authors:  Franck Dequiedt; Johan Van Lint; Emily Lecomte; Viktor Van Duppen; Thomas Seufferlein; Jackie R Vandenheede; Ruddy Wattiez; Richard Kettmann
Journal:  J Exp Med       Date:  2005-02-28       Impact factor: 14.307

8.  MicroRNA-155 modulates Treg and Th17 cells differentiation and Th17 cell function by targeting SOCS1.

Authors:  Rui Yao; Yu-Lan Ma; Wei Liang; Huan-Huan Li; Zhi-Jun Ma; Xian Yu; Yu-Hua Liao
Journal:  PLoS One       Date:  2012-10-16       Impact factor: 3.240

9.  Transcription factor Foxp3 and its protein partners form a complex regulatory network.

Authors:  Dipayan Rudra; Paul deRoos; Ashutosh Chaudhry; Rachel E Niec; Aaron Arvey; Robert M Samstein; Christina Leslie; Scott A Shaffer; David R Goodlett; Alexander Y Rudensky
Journal:  Nat Immunol       Date:  2012-08-26       Impact factor: 25.606

10.  CREB/ATF-dependent T cell receptor-induced FoxP3 gene expression: a role for DNA methylation.

Authors:  Hyoung-Pyo Kim; Warren J Leonard
Journal:  J Exp Med       Date:  2007-06-25       Impact factor: 14.307
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  18 in total

Review 1.  Mitochondrial ROS, uncoupled from ATP synthesis, determine endothelial activation for both physiological recruitment of patrolling cells and pathological recruitment of inflammatory cells.

Authors:  Xinyuan Li; Pu Fang; William Y Yang; Kylie Chan; Muriel Lavallee; Keman Xu; Tracy Gao; Hong Wang; Xiaofeng Yang
Journal:  Can J Physiol Pharmacol       Date:  2016-11-05       Impact factor: 2.273

2.  IL-35 (Interleukin-35) Suppresses Endothelial Cell Activation by Inhibiting Mitochondrial Reactive Oxygen Species-Mediated Site-Specific Acetylation of H3K14 (Histone 3 Lysine 14).

Authors:  Xinyuan Li; Ying Shao; Xiaojin Sha; Pu Fang; Yin-Ming Kuo; Andrew J Andrews; Yafeng Li; William Y Yang; Massimo Maddaloni; David W Pascual; Jin J Luo; Xiaohua Jiang; Hong Wang; Xiaofeng Yang
Journal:  Arterioscler Thromb Vasc Biol       Date:  2018-01-25       Impact factor: 8.311

3.  Metabolic Diseases Downregulate the Majority of Histone Modification Enzymes, Making a Few Upregulated Enzymes Novel Therapeutic Targets--"Sand Out and Gold Stays".

Authors:  Ying Shao; Valeria Chernaya; Candice Johnson; William Y Yang; Ramon Cueto; Xiaojin Sha; Yi Zhang; Xuebin Qin; Jianxin Sun; Eric T Choi; Hong Wang; Xiao-feng Yang
Journal:  J Cardiovasc Transl Res       Date:  2016-01-08       Impact factor: 4.132

4.  Canonical Secretomes, Innate Immune Caspase-1-, 4/11-Gasdermin D Non-Canonical Secretomes and Exosomes May Contribute to Maintain Treg-Ness for Treg Immunosuppression, Tissue Repair and Modulate Anti-Tumor Immunity via ROS Pathways.

Authors:  Dong Ni; TingTing Tang; Yifan Lu; Keman Xu; Ying Shao; Fatma Saaoud; Jason Saredy; Lu Liu; Charles Drummer; Yu Sun; Wenhui Hu; Jahaira Lopez-Pastrana; Jin J Luo; Xiaohua Jiang; Eric T Choi; Hong Wang; Xiaofeng Yang
Journal:  Front Immunol       Date:  2021-05-18       Impact factor: 7.561

5.  Pathological conditions re-shape physiological Tregs into pathological Tregs.

Authors:  William Y Yang; Ying Shao; Jahaira Lopez-Pastrana; Jietang Mai; Hong Wang; Xiao-Feng Yang
Journal:  Burns Trauma       Date:  2015-05-28

6.  GATA3, HDAC6, and BCL6 Regulate FOXP3+ Treg Plasticity and Determine Treg Conversion into Either Novel Antigen-Presenting Cell-Like Treg or Th1-Treg.

Authors:  Keman Xu; William Y Yang; Gayani Kanchana Nanayakkara; Ying Shao; Fan Yang; Wenhui Hu; Eric T Choi; Hong Wang; Xiaofeng Yang
Journal:  Front Immunol       Date:  2018-01-26       Impact factor: 7.561

Review 7.  Milk's Role as an Epigenetic Regulator in Health and Disease.

Authors:  Bodo C Melnik; Gerd Schmitz
Journal:  Diseases       Date:  2017-03-15

8.  Comparative Analysis of the Regulatory T Cells Dynamics in Peripheral Blood in Human and Porcine Polytrauma.

Authors:  Rafael Serve; Ramona Sturm; Lukas Schimunek; Philipp Störmann; David Heftrig; Michel P J Teuben; Elsie Oppermann; Klemens Horst; Roman Pfeifer; Tim P Simon; Yannik Kalbas; Hans-Christoph Pape; Frank Hildebrand; Ingo Marzi; Borna Relja
Journal:  Front Immunol       Date:  2018-03-13       Impact factor: 7.561

Review 9.  Coexpression of Helios in Foxp3+ Regulatory T Cells and Its Role in Human Disease.

Authors:  Wen-Qing Yu; Ning-Fei Ji; Cheng-Jing Gu; Yan-Li Wang; Mao Huang; Ming-Shun Zhang
Journal:  Dis Markers       Date:  2021-06-22       Impact factor: 3.434

Review 10.  Polyphenols as Modulator of Oxidative Stress in Cancer Disease: New Therapeutic Strategies.

Authors:  Anna Maria Mileo; Stefania Miccadei
Journal:  Oxid Med Cell Longev       Date:  2015-11-16       Impact factor: 6.543
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