Tregs epigenetically reprogrammed from autoreactive effector T cells mitigate established autoimmunity
Tyler R. Colson, James J. Cameron, Hayley I. Muendlein, Mei-An Nolan, Jamie L. Leiriao, James H. Kim, Alexander N. Poltorak, Xudong Li
Tyler R. Colson, James J. Cameron, Hayley I. Muendlein, Mei-An Nolan, Jamie L. Leiriao, James H. Kim, Alexander N. Poltorak, Xudong Li
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Research Article Immunology Inflammation

Tregs epigenetically reprogrammed from autoreactive effector T cells mitigate established autoimmunity

Abstract

Reprogramming autoreactive CD4+ effector T (Teff) cells into immunosuppressive Tregs represents a promising strategy for treating established autoimmune diseases. However, the stability and function of such reprogrammed Tregs under inflammatory conditions remain unclear. Here, we show that demethylation of core Treg identity genes in Teff cells yields lineage-stable effector T cell reprogrammed Tregs (ER-Tregs). A single adoptive transfer of ER-Tregs not only prevents autoimmune neuroinflammation in mice when given before disease onset but also arrests its progression when administered after onset. Compared with Foxp3-overexpressing Teff cells, induced Tregs from naive precursors, and endogenous Tregs, ER-Tregs provide superior protection against autoimmune neuroinflammation. This enhanced efficacy stems from their inherited autoantigen specificity and selectively preserved effector cell transcriptional programs, which together bolster their fitness in inflammatory environments and enhance their suppressive capacity. Our results establish epigenetic reprogramming of autoreactive Teff cells as an effective approach to generate potent, stable Tregs for the treatment of refractory autoimmune conditions.

Authors

Tyler R. Colson, James J. Cameron, Hayley I. Muendlein, Mei-An Nolan, Jamie L. Leiriao, James H. Kim, Alexander N. Poltorak, Xudong Li

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Figure 2

Adoptive transfer of ER-Tregs prevents EAE development and ameliorates established EAE.

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Adoptive transfer of ER-Tregs prevents EAE development and ameliorates e...
(AC) EAE was induced via MOG/CFA immunization in CD45.2+ mice with or without adoptive transfer of ER-Tregs reprogrammed from MOG/CFA-primed CD45.1+Foxp3Thy1.1 CD4+ Teff cells, administered 1 day prior to immunization. Flow cytometry analyses were conducted at 21 days postimmunization (dpi). n = 6 per group. Data are representative of 2 independent experiments. (A) EAE disease curve. (B) Flow cytometry analysis of the frequencies of spinal cord CD4+ T cells. (C) Flow cytometry of Foxp3 expression in host CD4+ T cells and transferred ER-Tregs within the draining lymph nodes (LNs) of mice that received ER-Tregs. (D and E) EAE was induced via MOG/CFA immunization in CD45.2+ mice with or without adoptive transfer of ER-Tregs reprogrammed from MOG/CFA-primed CD45.1+Foxp3Thy1.1 Teff cells, administered at 11 dpi. Flow cytometry analyses were conducted at 29 dpi. n = 6 per group. Data are representative of 2 independent experiments. (D) EAE disease curve. (E) Flow cytometry of IFN-γ and GM-CSF expression in CD4+ T cells in spinal cord. Data are shown as mean ± SEM. *P < 0.05, ***P < 0.001, unpaired 2-tailed t test of AUC in (A and D) and unpaired 2-tailed t test in (B and E).