Abstract
In recent years, chimeric antigen receptor-modified T cell (CAR T cell) therapy has proven to be a promising approach against cancer. Nonetheless, this approach still faces multiple challenges in eliminating solid tumors, one of which being the immunosuppressive tumor microenvironment (TME). Here, we demonstrated that knocking out the endogenous TGF-β receptor II (TGFBR2) in CAR T cells with CRISPR/Cas9 technology could reduce the induced Treg conversion and prevent the exhaustion of CAR T ce lls. Meanwhile, TGFBR2-edited CAR T cells had better in vivo tumor elimination efficacy, both in cell line-derived xenograft and patient-derived xenograft solid tumor models, whether administered locally or systemically. In addition, the TGFBR2-edited CAR T cells could eliminate contralaterally reinoculated xenografts in mice effectively, with an increased proportion of memory subsets within circulating CAR T cells of central memory and effector memory subsets. In conclusion, we greatly improved the in vitro and in vivo function of CAR T cells in TGF-β-rich tumor environments by knocking out endogenous TGFBR2 and propose a potentially new method to improve the efficacy of CAR T cell therapy for treating solid tumors.
Highlights
In recent years, chimeric antigen receptor–modified T cells (CAR T cells) have emerged as a promising class of cancer therapeutics [1,2,3]
Considering that the number of T cells was much lower than that of the tumor cells upon infiltration into the solid tumor tumor microenvironment (TME), we evaluated the effect of TGF-β1 at a lower E/T ratio
We explored the mechanisms of TGF-β effects on CAR T cells and found that TGF-β1 induced FOXP3-dependent induced Treg (iTreg)-like cell conversion and PD1-dependent CAR T cell exhaustion in vitro
Summary
Chimeric antigen receptor–modified T cells (CAR T cells) have emerged as a promising class of cancer therapeutics [1,2,3]. Despite many attempts, CAR T cells targeting various tumor-associated antigens still fail to yield favorable clinical response in patients with solid tumors in a reproducible manner [2, 6,7,8]. The solid tumor TME contains numerous cell types in addition to cancer cells as well as extracellular matrix components and inflammatory mediators. In this complex microenvironment, T cells encounter many inhibitory cells and molecules that can impair their survival, activation, proliferation, and effector functions [9, 10]
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