Repression of the genome organizer SATB1 in regulatory T cells is required for suppressive function and inhibition of effector differentiation

Marc Beyer; Yasser Thabet; Roman-Ulrich Mueller; Timothy Sadlon; Sabine Classen; Katharina Lahl; Samik Basu; Xuyu Zhou; Samantha L. Bailey-Bucktrout; Wolfgang Krebs; Eva A. Schoenfeld; Jan Boettcher; Tatiana Golovina; Christian T. Mayer; Andrea Hofmann; Daniel Sommer; Svenja Debey-Pascher; Elmar Endl; Andreas Limmer; Keli L. Hippen; Bruce R. Blazar; Robert Balderas; Thomas Quast; Andreas Waha; Guenter Mayer; Michael Famulok; Percy A. Knolle; Claudia Wickenhauser; Waldemar Kolanus; Bernhard Schermer; Jeffrey A. Bluestone; Simon C. Barry; Tim Sparwasser; James L. Riley; Joachim L. Schultze

doi:10.1038/ni.2084

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Repression of the genome organizer SATB1 in regulatory T cells is required for suppressive function and inhibition of effector differentiation

Journal article

Peer reviewed

Repression of the genome organizer SATB1 in regulatory T cells is required for suppressive function and inhibition of effector differentiation

Marc Beyer, Yasser Thabet, Roman-Ulrich Mueller, Timothy Sadlon, Sabine Classen, Katharina Lahl, Samik Basu, Xuyu Zhou, Samantha L. Bailey-Bucktrout, Wolfgang Krebs, …

Nature immunology, Vol.12(9), pp.898-U125

01/09/2011

DOI: https://doi.org/10.1038/ni.2084

PMID: 21841785

Abstract

Immunology

Life Sciences & Biomedicine

Science & Technology

Regulatory T cells (T-reg cells) are essential for self-tolerance and immune homeostasis. Lack of effector T cell (T-eff cell) function and gain of suppressive activity by T-reg cells are dependent on the transcriptional program induced by Foxp3. Here we report that repression of SATB1, a genome organizer that regulates chromatin structure and gene expression, was crucial for the phenotype and function of T-reg cells. Foxp3, acting as a transcriptional repressor, directly suppressed the SATB1 locus and indirectly suppressed it through the induction of microRNAs that bound the SATB1 39 untranslated region. Release of SATB1 from the control of Foxp3 in T-reg cells caused loss of suppressive function, establishment of transcriptional T-eff cell programs and induction of T-eff cell cytokines. Our data support the proposal that inhibition of SATB1-mediated modulation of global chromatin remodeling is pivotal for maintaining T-reg cell functionality.

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Title: Repression of the genome organizer SATB1 in regulatory T cells is required for suppressive function and inhibition of effector differentiation
Creators - without role: Marc Beyer - University of Bonn
Yasser Thabet - University of Bonn
Roman-Ulrich Mueller - University of Cologne
Timothy Sadlon - Women's & Children's Health Research Institute
Sabine Classen - University of Bonn
Katharina Lahl - Center for Experimental and Clinical Infection Research
Samik Basu - Cancer Research Institute
Xuyu Zhou - University of California, San Francisco
Samantha L. Bailey-Bucktrout - University of California, San Francisco
Wolfgang Krebs - University of Bonn
Eva A. Schoenfeld - University of Bonn
Jan Boettcher - College Station Medical Center
Tatiana Golovina - Cancer Research Institute
Christian T. Mayer - Helmholtz Centre for Infection Research
Andrea Hofmann - University of Bonn
Daniel Sommer - University of Bonn
Svenja Debey-Pascher - University of Bonn
Elmar Endl - University Hospital Bonn
Andreas Limmer - University Hospital Bonn
Keli L. Hippen - University of Minnesota
Bruce R. Blazar - University of Minnesota
Robert Balderas - BD Biosciences
Thomas Quast - University of Bonn
Andreas Waha - University Hospital Bonn
Guenter Mayer - University of Bonn
Michael Famulok - University of Bonn
Percy A. Knolle - University Hospital Bonn
Claudia Wickenhauser - University Hospital Leipzig
Waldemar Kolanus - University of Bonn
Bernhard Schermer - University of Cologne
Jeffrey A. Bluestone - University of California, San Francisco
Simon C. Barry - University of Adelaide
Tim Sparwasser - Center for Experimental and Clinical Infection Research
James L. Riley - Cancer Research Institute
Joachim L. Schultze - University of Bonn
Publication Details: Nature immunology, Vol.12(9), pp.898-U125
Publisher: Springer Nature
Number of pages: 12
Grant note: P01CA065493; P01CA142106 / NATIONAL CANCER INSTITUTE; United States Department of Health & Human Services; National Institutes of Health (NIH) - USA; NIH National Cancer Institute (NCI) R6029-07 / Leukemia and Lymphoma Society of America; Leukemia and Lymphoma Society University of California, San Francisco, Autoimmunity Center of Excellence; University of California System 339123; 565314 / National Health and Medical Research Council; National Health and Medical Research Council (NHMRC) of Australia German Cancer Aid; Deutsche Krebshilfe Juvenile Diabetes Research Foundation Collaborative Centers for Cell Therapy; Juvenile Diabetes Research Foundation Wilhelm-Sander-Foundation R01AI034495; P01AI056299 / NATIONAL INSTITUTE OF ALLERGY AND INFECTIOUS DISEASES; United States Department of Health & Human Services; National Institutes of Health (NIH) - USA; NIH National Institute of Allergy & Infectious Diseases (NIAID) R01HL056067 / NATIONAL HEART, LUNG, AND BLOOD INSTITUTE; United States Department of Health & Human Services; National Institutes of Health (NIH) - USA; NIH National Heart Lung & Blood Institute (NHLBI) German Jose-Carreras-Foundation Sonderforschungsbereich 832; SFB 704; INST 217/576-1; INST 217/577-1; SCHE 1562; SFB832 / German Research Foundation; German Research Foundation (DFG) Federal Ministry of Education and Research; Federal Ministry of Education & Research (BMBF) 16-2008-643 / Juvenile Diabetes Research Foundation Juvenile Diabetes Research Foundation Center on Cord Blood Therapies for Type 1 Diabetes
Identifiers: 9939833308331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Journal article