Tregs with an MHC class II peptide–specific chimeric antigen receptor prevent autoimmune diabetes in mice
Justin A. Spanier, … , Brian T. Fife, Megan K. Levings
Justin A. Spanier, … , Brian T. Fife, Megan K. Levings
Published August 10, 2023
Citation Information: J Clin Invest. 2023;133(18):e168601. https://doi.org/10.1172/JCI168601.
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Research Article Autoimmunity Immunology

Tregs with an MHC class II peptide–specific chimeric antigen receptor prevent autoimmune diabetes in mice

Abstract

Adoptive immunotherapy with Tregs is a promising approach for preventing or treating type 1 diabetes. Islet antigen–specific Tregs have more potent therapeutic effects than polyclonal cells, but their low frequency is a barrier for clinical application. To generate Tregs that recognize islet antigens, we engineered a chimeric antigen receptor (CAR) derived from a monoclonal antibody with specificity for the insulin B chain 10–23 peptide presented in the context of the IAg7 MHC class II allele present in NOD mice. Peptide specificity of the resulting InsB-g7 CAR was confirmed by tetramer staining and T cell proliferation in response to recombinant or islet-derived peptide. The InsB-g7 CAR redirected NOD Treg specificity such that insulin B 10–23–peptide stimulation enhanced suppressive function, measured via reduction of proliferation and IL-2 production by BDC2.5 T cells and CD80 and CD86 expression on dendritic cells. Cotransfer of InsB-g7 CAR Tregs prevented adoptive transfer diabetes by BDC2.5 T cells in immunodeficient NOD mice. In WT NOD mice, InsB-g7 CAR Tregs prevented spontaneous diabetes. These results show that engineering Treg specificity for islet antigens using a T cell receptor–like CAR is a promising therapeutic approach for the prevention of autoimmune diabetes.

Authors

Justin A. Spanier, Vivian Fung, Christine M. Wardell, Mohannad H. Alkhatib, Yixin Chen, Linnea A. Swanson, Alexander J. Dwyer, Matthew E. Weno, Nubia Silva, Jason S. Mitchell, Paul C. Orban, Majid Mojibian, C. Bruce Verchere, Brian T. Fife, Megan K. Levings

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Figure 3

InsB-g7 CAR T cells are activated by synthetic and naturally presented insulin peptides.

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InsB-g7 CAR T cells are activated by synthetic and naturally presented i...
(A) Representative flow cytometry histograms showing in vitro proliferation of InsB-g7 CAR Tconvs following 3-day coculture with anti-CD3/CD28 antibody-coated Dynabeads for splenocytes pulsed with no peptide, InsBP8E, or HEL11–25. (B) Quantification of cumulative division index (CDI) of data shown in A. Data are from 6 independent experiments. n = 6/group. One-way ANOVA with multiple comparisons. ***P < 0.001. (C) Representative flow cytometry plots showing in vitro proliferation of InsB-g7 CAR Tregs following 3-day coculture with splenocytes pulsed with no peptide, InsBP8E, HEL11–25–, or CD3/CD28-coated Dynabeads. (D) Quantification of C. Data are from 7 independent experiments. n = 7/group. One-way ANOVA with multiple comparisons. ***P < 0.001. (E) Representative flow cytometry histograms showing untransduced control Tconv and InsB-g7 CAR Tconv proliferation after 3-day coculture with APCs alone or together with NOD islets. (F) Quantification of E. Data are pooled from 3 experiments. Two-way ANOVA with multiple comparisons. *P < 0.05. (G) Representative flow cytometry plots showing PD-1 expression on CD4+CD45.2+ untransduced control Tconvs and InsB-g7 CAR Tconvs isolated from the spleen 7 days after transfer into 8-week-old female NOD mice. One of the treatment groups received InsBP8E peptide with LPS intravenously on day 0. (H) Quantification of PD-1gMFI of cells depicted in G. Data are representative of 2 independent experiments. n = 3 per group. One-way ANOVA with multiple comparisons. **P < 0.01.