Mechanisms of an autoimmunity syndrome in mice caused by a dominant mutation in Aire
Maureen A. Su, … , B. Matija Peterlin, Mark S. Anderson
Maureen A. Su, … , B. Matija Peterlin, Mark S. Anderson
Published April 15, 2008
Citation Information: J Clin Invest. 2008;118(5):1712-1726. https://doi.org/10.1172/JCI34523.
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Research Article Autoimmunity

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

Abstract

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.

Authors

Maureen A. Su, Karen Giang, Kristina Žumer, Huimin Jiang, Irena Oven, John L. Rinn, Jason J. DeVoss, Kellsey P.A. Johannes, Wen Lu, James Gardner, Angela Chang, Paula Bubulya, Howard Y. Chang, B. Matija Peterlin, Mark S. Anderson

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Figure 4

AireGW/+ mice have a defect in negative selection in the OTII/RIP-mOVA system.

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AireGW/+ mice have a defect in negative selection in the OTII/RIP-mOVA ...
(A) Representative flow cytometric plots of thymocytes. CD4 versus CD8 plots (top row) and Vα2 versus Vβ5 plots (bottom row) are shown. Numbers indicate percentage of lymphocytes in each gate. DP, double positive. Plots of OTII single-Tg mice are shown in the left column. Plots of OTII × Rip-mOVA double-Tg mice are shown in the second column. Plots of OTII × RIP-mOVA double-Tg mice in the Aireo/o setting are shown in the third column. Plots of OTII × RIP-mOVA double-Tg mice in the G228W heterozygous (AireGW/+) setting are shown in the right column. (B) Average ± SD thymocyte numbers of CD4+CD8+ clonotype-positive for each genotype. n = 7 for OTII alone; n = 9 for Aire+/+ OTII × RIP-mOVA; Aire+/o OTII × RIP-mOVA; n = 6 for Aireo/o OTII × RIP-mOVA; n = 9 for AireGW/+ OTII × RIP-mOVA. (C) Relative expression of thymic mOVA as determined by real-time RT-PCR on whole thymic stromal preparations of WT (Aire+/+) and AireGW/+ mice carrying the RIP-mOVA transgene. Data shown are representative of 2 experiments.