Jana Gillies scite author profile

Adoptive immunotherapy with regulatory T cells (Tregs) is a promising treatment for allograft rejection and graft-versus-host disease (GVHD). Emerging data indicate that, compared with polyclonal Tregs, disease-relevant antigen-specific Tregs may have numerous advantages, such as a need for fewer cells and reduced risk of nonspecific immune suppression. Current methods to generate alloantigen-specific Tregs rely on expansion with allogeneic antigen-presenting cells, which requires access to donor and recipient cells and multiple MHC mismatches. The successful use of chimeric antigen receptors (CARs) for the generation of antigen-specific effector T cells suggests that a similar approach could be used to generate alloantigen-specific Tregs. Here, we have described the creation of an HLA-A2-specific CAR (A2-CAR) and its application in the generation of alloantigen-specific human Tregs. In vitro, A2-CAR-expressing Tregs maintained their expected phenotype and suppressive function before, during, and after A2-CAR-mediated stimulation. In mouse models, human A2-CAR-expressing Tregs were superior to Tregs expressing an irrelevant CAR at preventing xenogeneic GVHD caused by HLA-A2+ T cells. Together, our results demonstrate that use of CAR technology to generate potent, functional, and stable alloantigen-specific human Tregs markedly enhances their therapeutic potential in transplantation and sets the stage for using this approach for making antigen-specific Tregs for therapy of multiple diseases.

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Regulation of p27^Kip1by miRNA 221/222 in Glioblastoma

Gillies

Lorimer²

2007

Cell Cycle

240

164

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Functional effects of chimeric antigen receptor co-receptor signaling domains in human regulatory T cells

et al. 2020

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Antigen-specific regulatory T cells (Tregs) engineered with chimeric antigen receptors (CARs) are a potent immunosuppressive cellular therapy in multiple disease models and could overcome shortcomings of polyclonal Treg therapy. CAR therapy was initially developed with conventional T cells, which have different signaling requirements than do Tregs. To date, most of the CAR Treg studies used second-generation CARs, encoding a CD28 or 4-1BB co-receptor signaling domain and CD3ζ, but it was not known if this CAR design was optimal for Tregs. Using a human leukocyte antigen–A2–specific CAR platform and human Tregs, we compared 10 CARs with different co-receptor signaling domains and systematically tested their function and CAR-stimulated gene expression profile. Tregs expressing a CAR encoding CD28wt were markedly superior to all other CARs tested in an in vivo model of graft-versus-host disease. In vitro assays revealed stable expression of Helios and an ability to suppress CD80 expression on dendritic cells as key in vitro predictors of in vivo function. This comprehensive study of CAR signaling domain variants in Tregs can be leveraged to optimize CAR design for use in antigen-specific Treg therapy.

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Systematic testing and specificity mapping of alloantigen-specific chimeric antigen receptors in T regulatory cells

Dawson¹,

Lamarche

Hoeppli

et al. 2019

101

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Jana Gillies

Alloantigen-specific regulatory T cells generated with a chimeric antigen receptor

Regulation of p27^Kip1by miRNA 221/222 in Glioblastoma

Functional effects of chimeric antigen receptor co-receptor signaling domains in human regulatory T cells

Systematic testing and specificity mapping of alloantigen-specific chimeric antigen receptors in T regulatory cells

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About

Jana Gillies

Alloantigen-specific regulatory T cells generated with a chimeric antigen receptor

Regulation of p27Kip1by miRNA 221/222 in Glioblastoma

Functional effects of chimeric antigen receptor co-receptor signaling domains in human regulatory T cells

Systematic testing and specificity mapping of alloantigen-specific chimeric antigen receptors in T regulatory cells

Contact Info

Product

Resources

About

Regulation of p27^Kip1by miRNA 221/222 in Glioblastoma