Dickkopf-3, a tissue-derived modulator of local T cell responses

Dickkopf-3, a tissue-derived modulator of local T cell responses

The adaptive immune system protects organisms from harmful environmental insults. In parallel, regulatory mechanisms control immune responses in order to assure preservation of organ integrity. Yet, molecules involved in the control of T cell responses in peripheral tissues are poorly characterized....

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Main Authors: Michael eMeister, Maria ePapatriantafyllou, Viola eNordström, Varun eKumar, Julia eLudwig, Kathy O. Lui, Ashleigh S. Boyd, Zoran V. Popovic, Thomas Henry Fleming, Gerhard eMoldenhauer, Peter P. Nawroth, Hermann-Josef eGröne, Herman eWaldmann, Thilo eOelert, Bernd eArnold
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-02-01
Series:Frontiers in Immunology
Subjects:
Autoimmunity
Transplantation Immunology
T cells
Immune Privilege
Dickkopf-3
Online Access:http://journal.frontiersin.org/Journal/10.3389/fimmu.2015.00078/full
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spelling doaj-04c831ae91304c998ef9370bbcead5cc2020-11-24T21:11:08ZengFrontiers Media S.A.Frontiers in Immunology1664-32242015-02-01610.3389/fimmu.2015.00078128915Dickkopf-3, a tissue-derived modulator of local T cell responsesMichael eMeister0Maria ePapatriantafyllou1Viola eNordström2Varun eKumar3Julia eLudwig4Kathy O. Lui5Ashleigh S. Boyd6Zoran V. Popovic7Zoran V. Popovic8Thomas Henry Fleming9Gerhard eMoldenhauer10Peter P. Nawroth11Hermann-Josef eGröne12Herman eWaldmann13Thilo eOelert14Bernd eArnold15German Cancer Research CenterGerman Cancer Research CenterGerman Cancer Research CenterUniversity of HeidelbergGerman Cancer Research CenterUniversity of OxfordUniversity of OxfordGerman Cancer Research CenterMedical Center Mannheim, University of HeidelbergUniversity of HeidelbergGerman Cancer Research CenterUniversity of HeidelbergGerman Cancer Research CenterUniversity of OxfordGerman Cancer Research CenterGerman Cancer Research CenterThe adaptive immune system protects organisms from harmful environmental insults. In parallel, regulatory mechanisms control immune responses in order to assure preservation of organ integrity. Yet, molecules involved in the control of T cell responses in peripheral tissues are poorly characterized. Here, we investigated the function of Dickkopf-3 in the modulation of local T cell reactivity. Dkk3 is a secreted, mainly tissue derived protein with highest expression in organs considered as immune privileged such as the eye, embryo, placenta and brain. While T cell development and activation status in naïve Dkk3 deficient mice was comparable to littermate controls, we found that Dkk3 contributes to the immunosuppressive microenvironment that protects transplanted, class-I mismatched embryoid bodies from T cell mediated rejection. Moreover, genetic deletion or antibody mediated neutralization of Dkk3 led to an exacerbated experimental autoimmune encephalomyelitis (EAE). This phenotype was accompanied by a change of T cell polarization displayed by an increase of IFNγ producing T cells within in the CNS. In the wild type situation, Dkk3 expression in the brain was up-regulated during the course of EAE in an IFNγ dependent manner. In turn, Dkk3 decreased IFNγ activity and served as part of a negative feedback mechanism. Thus, our findings suggest that Dkk3 functions as a tissue-derived modulator of local CD4+ and CD8+ T cell responses.http://journal.frontiersin.org/Journal/10.3389/fimmu.2015.00078/fullAutoimmunityTransplantation ImmunologyT cellsImmune PrivilegeDickkopf-3
collection DOAJ
language English
format Article
sources DOAJ
author Michael eMeister
Maria ePapatriantafyllou
Viola eNordström
Varun eKumar
Julia eLudwig
Kathy O. Lui
Ashleigh S. Boyd
Zoran V. Popovic
Zoran V. Popovic
Thomas Henry Fleming
Gerhard eMoldenhauer
Peter P. Nawroth
Hermann-Josef eGröne
Herman eWaldmann
Thilo eOelert
Bernd eArnold
spellingShingle Michael eMeister
Maria ePapatriantafyllou
Viola eNordström
Varun eKumar
Julia eLudwig
Kathy O. Lui
Ashleigh S. Boyd
Zoran V. Popovic
Zoran V. Popovic
Thomas Henry Fleming
Gerhard eMoldenhauer
Peter P. Nawroth
Hermann-Josef eGröne
Herman eWaldmann
Thilo eOelert
Bernd eArnold
Dickkopf-3, a tissue-derived modulator of local T cell responses
Frontiers in Immunology
Autoimmunity
Transplantation Immunology
T cells
Immune Privilege
Dickkopf-3
author_facet Michael eMeister
Maria ePapatriantafyllou
Viola eNordström
Varun eKumar
Julia eLudwig
Kathy O. Lui
Ashleigh S. Boyd
Zoran V. Popovic
Zoran V. Popovic
Thomas Henry Fleming
Gerhard eMoldenhauer
Peter P. Nawroth
Hermann-Josef eGröne
Herman eWaldmann
Thilo eOelert
Bernd eArnold
author_sort Michael eMeister
title Dickkopf-3, a tissue-derived modulator of local T cell responses
title_short Dickkopf-3, a tissue-derived modulator of local T cell responses
title_full Dickkopf-3, a tissue-derived modulator of local T cell responses
title_fullStr Dickkopf-3, a tissue-derived modulator of local T cell responses
title_full_unstemmed Dickkopf-3, a tissue-derived modulator of local T cell responses
title_sort dickkopf-3, a tissue-derived modulator of local t cell responses
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2015-02-01
description The adaptive immune system protects organisms from harmful environmental insults. In parallel, regulatory mechanisms control immune responses in order to assure preservation of organ integrity. Yet, molecules involved in the control of T cell responses in peripheral tissues are poorly characterized. Here, we investigated the function of Dickkopf-3 in the modulation of local T cell reactivity. Dkk3 is a secreted, mainly tissue derived protein with highest expression in organs considered as immune privileged such as the eye, embryo, placenta and brain. While T cell development and activation status in naïve Dkk3 deficient mice was comparable to littermate controls, we found that Dkk3 contributes to the immunosuppressive microenvironment that protects transplanted, class-I mismatched embryoid bodies from T cell mediated rejection. Moreover, genetic deletion or antibody mediated neutralization of Dkk3 led to an exacerbated experimental autoimmune encephalomyelitis (EAE). This phenotype was accompanied by a change of T cell polarization displayed by an increase of IFNγ producing T cells within in the CNS. In the wild type situation, Dkk3 expression in the brain was up-regulated during the course of EAE in an IFNγ dependent manner. In turn, Dkk3 decreased IFNγ activity and served as part of a negative feedback mechanism. Thus, our findings suggest that Dkk3 functions as a tissue-derived modulator of local CD4+ and CD8+ T cell responses.
topic Autoimmunity
Transplantation Immunology
T cells
Immune Privilege
Dickkopf-3
url http://journal.frontiersin.org/Journal/10.3389/fimmu.2015.00078/full
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