Inactivation of the autoimmune regulator (Aire) gene causes a rare recessive disorder, autoimmune polyendocrine syndrome 1 (APS1), but it is not known if Aire-dependent tolerance mechanisms are susceptible to the quantitative genetic changes thought to underlie more common autoimmune diseases. In mice with a targeted mutation, complete loss of Aire abolished expression of an insulin promoter transgene in thymic epithelium, but had no effect in pancreatic islets or the testes. Loss of one copy of Aire diminished thymic expression of the endogenous insulin gene and the transgene, resulting in a 300% increase in islet-reactive CD4 T cells escaping thymic deletion in T cell receptor transgenic mice, and dramatically increased progression to diabetes. Thymic deletion induced by antigen under control of the thyroglobulin promoter was abolished in Aire homozygotes and less efficient in heterozygotes, providing an explanation for thyroid autoimmunity in APS1. In contrast, Aire deficiency had no effect on thymic deletion to antigen controlled by a systemic H-2K promoter. The sensitivity of Aire-dependent thymic deletion to small reductions in function makes this pathway a prime candidate for more subtle autoimmune quantitative trait loci, and suggests that methods to increase Aire activity would be a potent strategy to lower the incidence of organ-specific autoimmunity.
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18 October 2004
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October 18 2004
Gene Dosage–limiting Role of Aire in Thymic Expression, Clonal Deletion, and Organ-specific Autoimmunity
Adrian Liston,
Adrian Liston
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
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Daniel H.D. Gray,
Daniel H.D. Gray
2Department of Pathology and Immunology, Monash University, Melbourne 3181, Australia
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Sylvie Lesage,
Sylvie Lesage
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
3CHUM Research Centre, Montreal University, Montreal H2L 4M1, Canada
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Anne L. Fletcher,
Anne L. Fletcher
2Department of Pathology and Immunology, Monash University, Melbourne 3181, Australia
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Judith Wilson,
Judith Wilson
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
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Kylie E. Webster,
Kylie E. Webster
4The Walter and Eliza Hall Institute of Medical Research, 3052 Melbourne, Australia
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Hamish S. Scott,
Hamish S. Scott
4The Walter and Eliza Hall Institute of Medical Research, 3052 Melbourne, Australia
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Richard L. Boyd,
Richard L. Boyd
2Department of Pathology and Immunology, Monash University, Melbourne 3181, Australia
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Leena Peltonen,
Leena Peltonen
5Department of Medical Genetics and Molecular Medicine, University of Helsinki and National Public Health Institute, Biomedicum Helsinki, 00290 Helsinki, Finland
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Christopher C. Goodnow
Christopher C. Goodnow
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
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Adrian Liston
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
Daniel H.D. Gray
2Department of Pathology and Immunology, Monash University, Melbourne 3181, Australia
Sylvie Lesage
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
3CHUM Research Centre, Montreal University, Montreal H2L 4M1, Canada
Anne L. Fletcher
2Department of Pathology and Immunology, Monash University, Melbourne 3181, Australia
Judith Wilson
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
Kylie E. Webster
4The Walter and Eliza Hall Institute of Medical Research, 3052 Melbourne, Australia
Hamish S. Scott
4The Walter and Eliza Hall Institute of Medical Research, 3052 Melbourne, Australia
Richard L. Boyd
2Department of Pathology and Immunology, Monash University, Melbourne 3181, Australia
Leena Peltonen
5Department of Medical Genetics and Molecular Medicine, University of Helsinki and National Public Health Institute, Biomedicum Helsinki, 00290 Helsinki, Finland
Christopher C. Goodnow
1John Curtin School of Medical Research and The Australian Phenomics Facility, The Australian National University, Canberra 2601, Australia
Address correspondence to Christopher C. Goodnow, John Curtin School of Medical Research, Mills Rd., P.O. Box 334, The Australian National University, Canberra 2601, Australia. Phone: 61-2-6125-3621; Fax: 61-2-6125-8512; email: [email protected]
Abbreviations used in this paper: Aire, autoimmune regulator; APS1, autoimmune polyendocrine syndrome 1; DP, double positive; HEL, hen egg lysozyme; SP, single positive.
Received:
March 25 2004
Accepted:
August 24 2004
Online ISSN: 1540-9538
Print ISSN: 0022-1007
The Rockefeller University Press
2004
J Exp Med (2004) 200 (8): 1015–1026.
Article history
Received:
March 25 2004
Accepted:
August 24 2004
Citation
Adrian Liston, Daniel H.D. Gray, Sylvie Lesage, Anne L. Fletcher, Judith Wilson, Kylie E. Webster, Hamish S. Scott, Richard L. Boyd, Leena Peltonen, Christopher C. Goodnow; Gene Dosage–limiting Role of Aire in Thymic Expression, Clonal Deletion, and Organ-specific Autoimmunity . J Exp Med 18 October 2004; 200 (8): 1015–1026. doi: https://doi.org/10.1084/jem.20040581
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