Kellsey Johannes scite author profile

The prevention of autoimmunity requires elimination of self-reactive T cells during their development and maturation. Expression of diverse self-antigens by stromal cells in the thymus is essential to this process, and depends, in part, on the activity of the Autoimmune Regulator (Aire) gene. Here we report the identification of extrathymic Aire-expressing cells (eTACs) resident within the secondary lymphoid organs. These stromally-derived eTACs express a diverse array of unique self-antigens and are capable of interacting with and deleting naïve autoreactive T cells. Using twophoton microscopy we observe stable, antigen-specific interactions between eTACs and autoreactive T cells. We propose that such a secondary network of self-antigen-expressing stromal cells may help reinforce immune tolerance by preventing the maturation of autoreactive T cells that escape thymic negative selection.

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Spontaneous autoimmunity prevented by thymic expression of a single self-antigen

DeVoss¹,

Hou

Johannes³

et al. 2006

249

246

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The expression of self-antigen in the thymus is believed to be responsible for the deletion of autoreactive T lymphocytes, a critical process in the maintenance of unresponsiveness to self. The Autoimmune regulator (Aire) gene, which is defective in the disorder autoimmune polyglandular syndrome type 1, has been shown to promote the thymic expression of self-antigens. A clear link, however, between specific thymic self-antigens and a single autoimmune phenotype in this model has been lacking. We show that autoimmune eye disease in aire-deficient mice develops as a result of loss of thymic expression of a single eye antigen, interphotoreceptor retinoid-binding protein (IRBP). In addition, lack of IRBP expression solely in the thymus, even in the presence of aire expression, is sufficient to trigger spontaneous eye-specific autoimmunity. These results suggest that failure of thymic expression of selective single self-antigens can be sufficient to cause organ-specific autoimmune disease, even in otherwise self-tolerant individuals.

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Mechanisms of an autoimmunity syndrome in mice caused by a dominant mutation in Aire

et al. 2008

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Homozygous loss-of-function mutations in AIRE cause autoimmune polyglandular syndrome type 1 (APS 1), which manifests in a classic triad of hypoparathyroidism, adrenal insufficiency, and candidiasis. Interestingly, a kindred with a specific G228W AIRE variant presented with an autosomal dominant autoimmune phenotype distinct from APS 1. We utilized a novel G228W-knockin mouse model to show that this variant acted in a dominant-negative manner to cause a unique autoimmunity syndrome. In addition, the expression of a large number of Aire-regulated thymic antigens was partially inhibited in these animals, demonstrating the importance of quantitative changes in thymic antigen expression in determining organ-specific autoimmunity. Furthermore, the dominant-negative effect of the G228W variant was exerted through recruitment of WT Aire away from active sites of transcription in the nucleus of medullary thymic epithelial cells in vivo. Together, these results may demonstrate a mechanism by which autoimmune predisposition to phenotypes distinct from APS 1 can be mediated in a dominant-negative fashion by Aire.

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Extrathymic Aire-Expressing Cells Are a Distinct Bone Marrow-Derived Population that Induce Functional Inactivation of CD4+ T Cells

et al. 2013

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Summary The autoimmune regulator (AIRE) is essential for prevention of autoimmunity; its role is best understood in the thymus where it promotes self-tolerance through tissue-specific antigen (TSA) expression. Recently, extrathymic Aire-expressing cells (eTACs) have been described in murine secondary lymphoid organs, but the identity of such cells and their role in immune tolerance remains unclear. Here we have shown that eTACs are a discrete major histocompatibility complex class II (MHC II)hi, CD80lo, CD86lo, epithelial cell adhesion molecule (EpCAM)hi, CD45lo bone marrow-derived peripheral antigen presenting cell (APC) population. We also have demonstrated that eTACs can functionally inactivate CD4+ T cells through a mechanism that does not require regulatory T cells (Treg), and is resistant to innate inflammatory stimuli. Together these findings further define eTACs as a distinct tolerogenic cell population in secondary lymphoid organs.

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