Thymic Epithelium Determines a Spontaneous Chronic Neuritis in Icam1tm1JcgrNOD Mice

The NOD mouse strain spontaneously develops autoimmune diabetes. A deficiency in costimulatory molecules, such as B7-2, on the NOD genetic background prevents diabetes but instead triggers an inflammatory peripheral neuropathy. This constitutes a shift in the target of autoimmunity, but the underlyi...

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Published in:The Journal of immunology (1950) 2014-09, Vol.193 (6), p.2678-2690
Main Authors: Meyer zu Horste, Gerd, Mausberg, Anne K, Cordes, Steffen, El-Haddad, Houda, Partke, Hans-Joachim, Leussink, Verena I, Roden, Michael, Martin, Stephan, Steinman, Lawrence, Hartung, Hans-Peter, Kieseier, Bernd C
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container_title The Journal of immunology (1950)
container_volume 193
creator Meyer zu Horste, Gerd
Mausberg, Anne K
Cordes, Steffen
El-Haddad, Houda
Partke, Hans-Joachim
Leussink, Verena I
Roden, Michael
Martin, Stephan
Steinman, Lawrence
Hartung, Hans-Peter
Kieseier, Bernd C
description The NOD mouse strain spontaneously develops autoimmune diabetes. A deficiency in costimulatory molecules, such as B7-2, on the NOD genetic background prevents diabetes but instead triggers an inflammatory peripheral neuropathy. This constitutes a shift in the target of autoimmunity, but the underlying mechanism remains unknown. In this study, we demonstrate that NOD mice deficient for isoforms of ICAM-1, which comediate costimulatory functions, spontaneously develop a chronic autoimmune peripheral neuritis instead of diabetes. The disease is transferred by CD4+ T cells, which infiltrate peripheral nerves together with macrophages and B cells and are autoreactive against peripheral myelin protein zero. These Icam1tm1JcgrNOD mice exhibit unaltered numbers of regulatory T cells, but increased IL-17-producing T cells, which determine the severity, but not the target specificity, of autoimmunity. Ab-mediated ICAM-1 blockade triggers neuritis only in young NOD mice. Thymic epithelium from Icam1tm1JcgrNOD mice features an altered expression of costimulatory molecules and induces neuritis and myelin autoreactivity after transplantation into nude mice in vivo. Icam1tm1JcgrNOD mice exhibit a specifically altered TCR repertoire. Our findings introduce a novel animal model of chronic inflammatory neuropathies and indicate that altered expression of ICAM-1 on thymic epithelium shifts autoimmunity specifically toward peripheral nerves. This improves our understanding of autoimmunity in the peripheral nervous system with potential relevance for human diseases.
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title Thymic Epithelium Determines a Spontaneous Chronic Neuritis in Icam1tm1JcgrNOD Mice
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