CAR Treg synergy with anti-CD154 promotes infectious tolerance and dictates allogeneic heart transplant acceptance
Samarth S. Durgam, Isaac Rosado-Sánchez, Dengping Yin, Madeleine Speck, Majid Mojibian, Ismail Sayin, Grace E. Hynes, Maria-Luisa Alegre, Megan K. Levings, Anita S. Chong
Samarth S. Durgam, Isaac Rosado-Sánchez, Dengping Yin, Madeleine Speck, Majid Mojibian, Ismail Sayin, Grace E. Hynes, Maria-Luisa Alegre, Megan K. Levings, Anita S. Chong
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Research Article Immunology Therapeutics Transplantation

CAR Treg synergy with anti-CD154 promotes infectious tolerance and dictates allogeneic heart transplant acceptance

Abstract

Successful allograft-specific tolerance induction would eliminate the need for daily immunosuppression and improve posttransplant quality of life. Adoptive cell therapy with regulatory T cells expressing donor-specific chimeric antigen receptors (CAR Tregs) is a promising strategy but, as monotherapy, cannot prolong survival with allografts with multiple MHC mismatches. Using an HLA-A2–transgenic haplo-mismatched heart transplantation model in immunocompetent C57BL/6 recipients, we showed that HLA-A2–specific CAR (A2.CAR) Tregs were able to synergize with a low dose of anti-CD154 to enhance graft survival. Using haplo-mismatched grafts expressing the 2W-OVA transgene and tetramer-based tracking of 2W- and OVA-specific T cells, we showed that in mice with accepted grafts, A2.CAR Tregs inhibited donor-specific T cell, B cell, and antibody responses and promoted a substantial increase in endogenous FOXP3+ Tregs with indirect donor specificity. By contrast, in mice where A2.CAR Tregs failed to prolong graft survival, FOXP3– A2.CAR T cells preferentially accumulated in rejecting allografts, and endogenous donor-specific responses were not controlled. This study therefore provides evidence for synergy between A2.CAR Tregs and CD154 blockade to promote infectious tolerance in immunocompetent recipients of haplo-mismatched heart grafts and defines features of A2.CAR Tregs when they fail to reshape host immunity toward allograft tolerance.

Authors

Samarth S. Durgam, Isaac Rosado-Sánchez, Dengping Yin, Madeleine Speck, Majid Mojibian, Ismail Sayin, Grace E. Hynes, Maria-Luisa Alegre, Megan K. Levings, Anita S. Chong

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Figure 2

Recipients of A2.CAR Tregs and low-dose anti-CD154 with Acpt allografts have low accumulation of CD4+Thy1.1+ cells and high ratios of FOXP3pos/FOXP3neg A2.CAR T cells.

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Recipients of A2.CAR Tregs and low-dose anti-CD154 with Acpt allografts ...
(AD) The absolute numbers and proportions of circulating Thy1.1+ A2.CAR Tregs in A2.CAR Treg recipients with Rej (filled triangles) or Acpt (unfilled triangles) grafts was quantified at the indicated weeks (AD) or at the experimental endpoint of postoperative day (POD) 45–63 (EL). (A) Number of CD4+Thy1.1+ cells per 100 μL blood. (B) Percentage FOXP3pos of Thy1.1+ cells. (C and D) Number of FOXP3pos or FOXP3neg A2.CAR T cells per 100 μL blood. (EL) At the experimental endpoint (POD 45–63), SLOs and allografts were harvested, and Thy1.1+ A2.CAR Tregs were quantified. (E and I) Total number of CD4+Thy1.1+ T cells from SLOs and allografts from Rej (n = 6) or Acpt (n = 7) recipients. (F and J) Percentage FOXP3pos of Thy1.1+ cells. Number of FOXP3pos (G and K) or FOXP3neg (H and L) A2.CAR T cells recovered from SLOs and allografts. Each symbol represents 1 mouse. Data are presented as mean ± SEM, and statistical significance was assessed by Mann-Whitney test. *P < 0.05; **P < 0.01. Total number of CD4+Thy1.1+ cells from SLOs normalized to 3 × 106 events. Total number of CD4+Thy1.1+ cells from allografts normalized to 1 × 106 events.