Ectopic expression of neural autoantigen in mouse liver suppresses experimental autoimmune neuroinflammation by inducing antigen-specific Tregs
Stefan Lüth, … , Johannes Herkel, Ansgar W. Lohse
Stefan Lüth, … , Johannes Herkel, Ansgar W. Lohse
Published September 18, 2008
Citation Information: J Clin Invest. 2008;118(10):3403-3410. https://doi.org/10.1172/JCI32132.
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Research Article

Ectopic expression of neural autoantigen in mouse liver suppresses experimental autoimmune neuroinflammation by inducing antigen-specific Tregs

Abstract

Tregs are important mediators of immune tolerance to self antigens, and it has been suggested that Treg inactivation may cause autoimmune disease. Therefore, immunotherapy approaches that aim to restore or expand autoantigen-specific Treg activity might be beneficial for the treatment of autoimmune disease. Here we report that Treg-mediated suppression of autoimmune disease can be achieved in vivo by taking advantage of the ability of the liver to promote immune tolerance. Expression of the neural autoantigen myelin basic protein (MBP) in the liver was accomplished stably in liver-specific MBP transgenic mice and transiently using gene transfer to liver cells in vivo. Such ectopic MBP expression induced protection from autoimmune neuroinflammation in a mouse model of multiple sclerosis. Protection from autoimmunity was mediated by MBP-specific CD4+CD25+Foxp3+ Tregs, as demonstrated by the ability of these cells to prevent disease when adoptively transferred into nontransgenic mice and to suppress conventional CD4+CD25– T cell proliferation after antigen-specific stimulation with MBP in vitro. The generation of MBP-specific CD4+CD25+Foxp3+ Tregs in vivo depended on expression of MBP in the liver, but not in skin, and occurred by TGF-β–dependent peripheral conversion from conventional non-Tregs. Our findings indicate that autoantigen expression in the liver may generate autoantigen-specific Tregs. Thus, targeting of autoantigens to hepatocytes may be a novel approach to prevention or treatment of autoimmune diseases.

Authors

Stefan Lüth, Samuel Huber, Christoph Schramm, Thorsten Buch, Stefan Zander, Christine Stadelmann, Wolfgang Brück, David C. Wraith, Johannes Herkel, Ansgar W. Lohse

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Figure 4

Protective Tregs are generated by TGF-β–dependent peripheral conversion from naive CD4+CD25 T cells.

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Liver-induced protection from EAE is mediated by peripheral Tregs. (A) S...
(A) Experimental procedure for assessing in vivo conversion of naive MBP-specific T cells to Tregs. Naive splenic T cells from Tg4 mice were labeled with CFSE and transferred to nontransgenic or CRP-MBP mice; after 7 days, they were recovered again for transfer to nontransgenic mice, in which EAE was induced. (B) Analysis of transferred CFSE+ and residual CFSE cells retrieved from CRP-MBP or nontransgenic mice. The CD4+CFSE+ cells in the respective upper right gates were selected for transfer into wild-type mice. (C) CD4+CFSE+ cells retrieved from nontransgenic (n = 10) or CRP-MBP (n = 11) mice were transferred to nontransgenic recipient mice (2 × 104 cells per mouse), in which EAE was induced. Mice without cell transfer (n = 8) served as a control. Data are mean ± SEM. (DF) Analysis of CFSE-labeled T cells (D and F) and CFSE-labeled TGF-β–insensitive T cells (E). Cells were retrieved from spleen and liver 7 days after transfer to CRP-MBP (D and E), K5-MBP (F), or nontransgenic mice. Percent Foxp3+CFSE+ T cells is indicated.