Tregs integrate native and CAR-mediated costimulatory signals for control of allograft rejection
Isaac Rosado-Sánchez, … , Giorgio Raimondi, Megan K. Levings
Isaac Rosado-Sánchez, … , Giorgio Raimondi, Megan K. Levings
Published September 5, 2023
Citation Information: JCI Insight. 2023;8(19):e167215. https://doi.org/10.1172/jci.insight.167215.
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Research Article Immunology Transplantation

Tregs integrate native and CAR-mediated costimulatory signals for control of allograft rejection

Abstract

Tregs expressing chimeric antigen receptors (CAR-Tregs) are a promising tool to promote transplant tolerance. The relationship between CAR structure and Treg function was studied in xenogeneic, immunodeficient mice, revealing advantages of CD28-encoding CARs. However, these models could underrepresent interactions between CAR-Tregs, antigen-presenting cells (APCs), and donor-specific Abs. We generated Tregs expressing HLA-A2–specific CARs with different costimulatory domains and compared their function in vitro and in vivo using an immunocompetent model of transplantation. In vitro, the CD28-encoding CAR had superior antigen-specific suppression, proliferation, and cytokine production. In contrast, in vivo, Tregs expressing CARs encoding CD28, ICOS, programmed cell death 1, and GITR, but not 4-1BB or OX40, all extended skin allograft survival. To reconcile in vitro and in vivo data, we analyzed effects of a CAR encoding CD3ζ but no costimulatory domain. These data revealed that exogenous costimulation from APCs can compensate for the lack of a CAR-encoded CD28 domain. Thus, Tregs expressing a CAR with or without CD28 are functionally equivalent in vivo, mediating similar extension of skin allograft survival and controlling the generation of anti–HLA-A2 alloantibodies. This study reveals a dimension of CAR-Treg biology and has important implications for the design of CARs for clinical use in Tregs.

Authors

Isaac Rosado-Sánchez, Manjurul Haque, Kevin Salim, Madeleine Speck, Vivian C.W. Fung, Dominic A. Boardman, Majid Mojibian, Giorgio Raimondi, Megan K. Levings

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Figure 2

Costimulatory CAR variants differ in their ability to stimulate Tregs.

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Costimulatory CAR variants differ in their ability to stimulate Tregs. (...
(AC) Tregs expressing the indicated CAR were stained with CPDe450 and cocultured with HLA-A2+ or HLA-A2 K562 cells, polyclonal stimulated with anti-CD3/28, or left unstimulated for 3 days. (A) Representative histograms of at least 5 independent experiments comparing A2.28ζ CAR-Treg proliferation of gated CAR+ (c-Myc+mKO2+) or CAR (c-MycmKO2) cells. (B) Frequencies of CAR-Tregs that divided after 3 days of coculture with HLA-A2+ K562s, determined by CPDeF450 dilution, gated on c-Myc+mKO2+Foxp3gfp+CD4+ cells; n = 11–20 replicates from at least 5 independent experiments. (C) Cytokine secretion after 3 days of coculture with HLA-A2+ K562s; n = 3–12 replicates from at least 3 independent experiments. (D and E) CAR-Tregs were cocultured with OTII CD4+ T cells at varying ratios in the presence of irradiated HLA-A2+ splenocytes and OVA peptide. (D) Schematic diagram of the linked suppression assay. (E) CAR-Treg–mediated suppression of the OTII CD4+ T cell proliferation, as determined by Ki67 expression; n = 3–6 replicates from at least 2 independent experiments. Tresponder, responder T cell; UT, untransduced. Data are reported as mean ± SEM. Statistical significance was determined using 1-way (B and C) or 2-way (E) ANOVA with a Holm-Šidak posttest comparing to CD28-based CAR-Tregs. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.