Murine CAR19 Tregs suppress acute graft-versus-host disease and maintain graft-versus-tumor responses
Sara Bolivar-Wagers, Michael L. Loschi, Sujeong Jin, Govindarajan Thangavelu, Jemma H. Larson, Cameron S. McDonald-Hyman, Ethan G. Aguilar, Asim Saha, Brent H. Koehn, Mehrdad Hefazi, Mark J. Osborn, Michael C. Jensen, John E. Wagner, Christopher A. Pennell, Bruce R. Blazar
Sara Bolivar-Wagers, Michael L. Loschi, Sujeong Jin, Govindarajan Thangavelu, Jemma H. Larson, Cameron S. McDonald-Hyman, Ethan G. Aguilar, Asim Saha, Brent H. Koehn, Mehrdad Hefazi, Mark J. Osborn, Michael C. Jensen, John E. Wagner, Christopher A. Pennell, Bruce R. Blazar
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Research Article Immunology Transplantation

Murine CAR19 Tregs suppress acute graft-versus-host disease and maintain graft-versus-tumor responses

Abstract

Allogeneic hematopoietic stem cell transplantation (allo-HSCT) efficacy is complicated by graft-versus-host disease (GVHD), a leading cause of morbidity and mortality. Regulatory T cells (Tregs) have shown efficacy in preventing GVHD. However, high Treg doses are often required, necessitating substantial ex vivo or in vivo expansion that may diminish suppressor function. To enhance in vivo suppressor function, murine Tregs were transduced to express an anti–human CD19 chimeric antigen receptor (hCAR19) and infused into lethally irradiated, hCD19-transgenic recipients for allo-HSCT. Compared with recipients receiving control transduced Tregs, those receiving hCAR19 Tregs had a marked decrease in acute GVHD lethality. Recipient hCD19 B cells and murine hCD19 TBL12-luciferase (TBL12luc) lymphoma cells were both cleared by allogeneic hCAR19 Tregs, which was indicative of graft-versus-tumor (GVT) maintenance and potentiation. Mechanistically, hCAR19 Tregs killed syngeneic hCD19+ but not hCD19– murine TBL12luc cells in vitro in a perforin-dependent, granzyme B–independent manner. Importantly, cyclophosphamide-treated, hCD19-transgenic mice given hCAR19 cytotoxic T lymphocytes without allo-HSCT experienced rapid lethality due to systemic toxicity that has been associated with proinflammatory cytokine release; in contrast, hCAR19 Treg suppressor function enabled avoidance of this severe complication. In conclusion, hCAR19 Tregs are a potentially novel and effective strategy to suppress GVHD without loss of GVT responses.

Authors

Sara Bolivar-Wagers, Michael L. Loschi, Sujeong Jin, Govindarajan Thangavelu, Jemma H. Larson, Cameron S. McDonald-Hyman, Ethan G. Aguilar, Asim Saha, Brent H. Koehn, Mehrdad Hefazi, Mark J. Osborn, Michael C. Jensen, John E. Wagner, Christopher A. Pennell, Bruce R. Blazar

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Figure 1

Generation of hCAR19 Tregs.

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Generation of hCAR19 Tregs. (A) Schema of hCAR19 and tEGFR Treg generati...
(A) Schema of hCAR19 and tEGFR Treg generation. (B) Schematic representation of hCAR19 construct in a pMP71 vector backbone. scFv, single chain variable fragment; VL, variable light chain; VH, variable heavy chain; TM, transmembrane domain; GMCSFRss, GM-CSF receptor α chain signal sequences. (C) Representative histogram plots of truncated human epidermal growth factor receptor (tEGFR) expression in hCAR19 and tEGFR control transduced Tregs prior to experimental use. FMO, fluorescence minus one; pre-E, before tEGFR-positive enrichment; post-E, following tEGFR-positive enrichment. (D) Percentage of tEGFR expression in nontransduced (NT) Tregs, before and after tEGFR enrichment of hCAR19 and tEGFR transduced Tregs. (E) Histogram plots of CD25 and Foxp3 expression in NT, tEGFR, and hCAR19 Tregs. (F) Representative FACS plot of CD25+Foxp3+ transduced hCAR19 Tregs prior to experimental use.