Literature DB >> 27888330

Dendritic cells in central nervous system autoimmunity.

Christopher Sie1, Thomas Korn2,3.   

Abstract

Dendritic cells (DCs) operate at the intersection of the innate and adaptive immune systems. DCs can promote or inhibit adaptive immune responses against neuroantigens. While DC intrinsic properties, i.e., their maturation state or the subset they belong to, are important determinants of the outcome of an autoimmune reaction, tissue-specific cues might also be relevant for the function of DCs. Thus, a better understanding of the performance of distinct DC subsets in specific anatomical niches, not only in lymphoid tissue but also in non-lymphoid tissues such as the meninges, the choroid plexus, and the inflamed CNS parenchyma, will be instrumental for the design of immune intervention strategies to chronic inflammatory diseases that do not put at risk basic surveillance functions of the immune system in the CNS. Here, we will review modern concepts of DC biology in steady state and during autoimmune neuroinflammation.

Entities:  

Keywords:  Central nervous system; Dendritic cells; Experimental autoimmune encephalomyelitis; Multiple sclerosis; T helper cells

Mesh:

Substances:

Year:  2016        PMID: 27888330     DOI: 10.1007/s00281-016-0608-7

Source DB:  PubMed          Journal:  Semin Immunopathol        ISSN: 1863-2297            Impact factor:   9.623


  139 in total

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2.  Epitope spreading initiates in the CNS in two mouse models of multiple sclerosis.

Authors:  Eileen J McMahon; Samantha L Bailey; Carol Vanderlugt Castenada; Hanspeter Waldner; Stephen D Miller
Journal:  Nat Med       Date:  2005-02-27       Impact factor: 53.440

3.  Time of appearance of antibodies to brain in the human receiving anti-rabies vaccine.

Authors:  R C KIRK; E E ECKER
Journal:  Proc Soc Exp Biol Med       Date:  1949-04

4.  MANBA, CXCR5, SOX8, RPS6KB1 and ZBTB46 are genetic risk loci for multiple sclerosis.

Authors:  Christina M Lill; Brit-Maren M Schjeide; Christine Graetz; Maria Ban; Antonio Alcina; Miguel A Ortiz; Jennifer Pérez; Vincent Damotte; David Booth; Aitzkoa Lopez de Lapuente; Linda Broer; Marcel Schilling; Denis A Akkad; Orhan Aktas; Iraide Alloza; Alfredo Antigüedad; Rafa Arroyo; Paul Blaschke; Mathias Buttmann; Andrew Chan; Alastair Compston; Isabelle Cournu-Rebeix; Thomas Dörner; Joerg T Epplen; Óscar Fernández; Lisa-Ann Gerdes; Léna Guillot-Noël; Hans-Peter Hartung; Sabine Hoffjan; Guillermo Izquierdo; Anu Kemppinen; Antje Kroner; Christian Kubisch; Tania Kümpfel; Shu-Chen Li; Ulman Lindenberger; Peter Lohse; Catherine Lubetzki; Felix Luessi; Sunny Malhotra; Julia Mescheriakova; Xavier Montalban; Caroline Papeix; Lidia F Paredes; Peter Rieckmann; Elisabeth Steinhagen-Thiessen; Alexander Winkelmann; Uwe K Zettl; Rogier Hintzen; Koen Vandenbroeck; Graeme Stewart; Bertrand Fontaine; Manuel Comabella; Elena Urcelay; Fuencisla Matesanz; Stephen Sawcer; Lars Bertram; Frauke Zipp
Journal:  Brain       Date:  2013-06       Impact factor: 13.501

5.  Glucocorticoid therapy of antigen-induced arthritis depends on the dimerized glucocorticoid receptor in T cells.

Authors:  Ulrike Baschant; Lucien Frappart; Una Rauchhaus; Lisa Bruns; Holger M Reichardt; Thomas Kamradt; Rolf Bräuer; Jan P Tuckermann
Journal:  Proc Natl Acad Sci U S A       Date:  2011-11-14       Impact factor: 11.205

6.  Dendritic cells ameliorate autoimmunity in the CNS by controlling the homeostasis of PD-1 receptor(+) regulatory T cells.

Authors:  Nir Yogev; Friederike Frommer; Dominika Lukas; Kordula Kautz-Neu; Khalad Karram; Daniele Ielo; Esther von Stebut; Hans-Christian Probst; Maries van den Broek; Dieter Riethmacher; Tal Birnberg; Thomas Blank; Boris Reizis; Thomas Korn; Heinz Wiendl; Steffen Jung; Marco Prinz; Florian C Kurschus; Ari Waisman
Journal:  Immunity       Date:  2012-08-16       Impact factor: 31.745

7.  MHC class I-restricted myelin epitopes are cross-presented by Tip-DCs that promote determinant spreading to CD8⁺ T cells.

Authors:  Qingyong Ji; Luca Castelli; Joan M Goverman
Journal:  Nat Immunol       Date:  2013-01-06       Impact factor: 25.606

8.  Notch2-dependent classical dendritic cells orchestrate intestinal immunity to attaching-and-effacing bacterial pathogens.

Authors:  Ansuman T Satpathy; Carlos G Briseño; Jacob S Lee; Dennis Ng; Nicholas A Manieri; Wumesh Kc; Xiaodi Wu; Stephanie R Thomas; Wan-Ling Lee; Mustafa Turkoz; Keely G McDonald; Matthew M Meredith; Christina Song; Cynthia J Guidos; Rodney D Newberry; Wenjun Ouyang; Theresa L Murphy; Thaddeus S Stappenbeck; Jennifer L Gommerman; Michel C Nussenzweig; Marco Colonna; Raphael Kopan; Kenneth M Murphy
Journal:  Nat Immunol       Date:  2013-08-04       Impact factor: 25.606

9.  Zinc finger transcription factor zDC is a negative regulator required to prevent activation of classical dendritic cells in the steady state.

Authors:  Matthew M Meredith; Kang Liu; Alice O Kamphorst; Juliana Idoyaga; Arito Yamane; Pierre Guermonprez; Suzannah Rihn; Kai-Hui Yao; Israel T Silva; Thiago Y Oliveira; Dimitris Skokos; Rafael Casellas; Michel C Nussenzweig
Journal:  J Exp Med       Date:  2012-07-30       Impact factor: 14.307

10.  pDC therapy induces recovery from EAE by recruiting endogenous pDC to sites of CNS inflammation.

Authors:  Fernanda V Duraes; Carla Lippens; Karin Steinbach; Juan Dubrot; Dale Brighouse; Nathalie Bendriss-Vermare; Shohreh Issazadeh-Navikas; Doron Merkler; Stephanie Hugues
Journal:  J Autoimmun       Date:  2015-09-01       Impact factor: 7.094
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  11 in total

Review 1.  Myeloid Cells in the Central Nervous System.

Authors:  Jasmin Herz; Anthony J Filiano; Ashtyn Smith; Nir Yogev; Jonathan Kipnis
Journal:  Immunity       Date:  2017-06-20       Impact factor: 31.745

2.  Dendritic cells in autoimmunity, infections, and cancer.

Authors:  Francisco J Quintana
Journal:  Semin Immunopathol       Date:  2017-01-16       Impact factor: 9.623

3.  Dendritic Cell Accumulation in the Gut and Central Nervous System Is Differentially Dependent on α4 Integrins.

Authors:  Christopher Sie; Laura Garcia Perez; Mario Kreutzfeldt; Maria Potthast; Caspar Ohnmacht; Doron Merkler; Samuel Huber; Anne Krug; Thomas Korn
Journal:  J Immunol       Date:  2019-08-09       Impact factor: 5.422

Review 4.  Dopaminergic Therapeutics in Multiple Sclerosis: Focus on Th17-Cell Functions.

Authors:  Mikhail Melnikov; Vladimir Rogovskii; Alexey Boykо; Mikhail Pashenkov
Journal:  J Neuroimmune Pharmacol       Date:  2019-04-23       Impact factor: 4.147

Review 5.  The immunology of multiple sclerosis.

Authors:  Kathrine E Attfield; Lise Torp Jensen; Max Kaufmann; Manuel A Friese; Lars Fugger
Journal:  Nat Rev Immunol       Date:  2022-05-04       Impact factor: 53.106

6.  Extracellular Vesicles Containing IL-4 Modulate Neuroinflammation in a Mouse Model of Multiple Sclerosis.

Authors:  Giacomo Casella; Federico Colombo; Annamaria Finardi; Hélène Descamps; Gerard Ill-Raga; Antonello Spinelli; Paola Podini; Mattia Bastoni; Gianvito Martino; Luca Muzio; Roberto Furlan
Journal:  Mol Ther       Date:  2018-07-05       Impact factor: 11.454

Review 7.  Eosinophils in Autoimmune Diseases.

Authors:  Nicola L Diny; Noel R Rose; Daniela Čiháková
Journal:  Front Immunol       Date:  2017-04-27       Impact factor: 7.561

8.  Prostaglandin D2 signaling in dendritic cells is critical for the development of EAE.

Authors:  Jian Zheng; Alan Sariol; David Meyerholz; Qinran Zhang; Juan E Abrahante Lloréns; Shuh Narumiya; Stanley Perlman
Journal:  J Autoimmun       Date:  2020-07-02       Impact factor: 7.094

9.  TLR7/8 in the Pathogenesis of Parkinson's Disease.

Authors:  Michela Campolo; Alessia Filippone; Carmelo Biondo; Giuseppe Mancuso; Giovanna Casili; Marika Lanza; Salvatore Cuzzocrea; Emanuela Esposito; Irene Paterniti
Journal:  Int J Mol Sci       Date:  2020-12-09       Impact factor: 5.923

10.  C-Reactive Protein Impairs Dendritic Cell Development, Maturation, and Function: Implications for Peripheral Tolerance.

Authors:  Rachel V Jimenez; Tyler T Wright; Nicholas R Jones; Jianming Wu; Andrew W Gibson; Alexander J Szalai
Journal:  Front Immunol       Date:  2018-03-05       Impact factor: 7.561
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