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Superior antitumor immunotherapy efficacy of kynureninase modified CAR-T cells through targeting kynurenine metabolism

Quanjun Yang, Juan Hao, Mengyi Chi, Yaxian Wang, Bo Xin, Jinglu Huang, Jin Lu, Jie Li, Xipeng Sun, Chunyan Li, Yan Huo, Jianping Zhang, Yonglong Han, Cheng Guo

2022OncoImmunology36 citationsDOIOpen Access PDF

Abstract

Accumulated oncometabolites in the tumor microenvironment (TME) suppresses the metabolism, expansion, and function of T cells. Immunosuppressive TME also impeded Chimeric Antigen Receptor (CAR)-T cells mediated cytotoxicity since CAR-T cells had to adapt the in vivo metabolic characteristics with high levels of oncometabolites. We screened oncometabolites for the inhibition of glucose uptake in CD8 + T cells and found Kynurenine (Kyn) showed the strongest inhibiting effect on glucose uptake. In vitro experiments showed that 120 μM Kyn treatment in CD8 + T cells resulted in inhibiting the expansion of CD8 + T cells, decreasing the production of granzyme B and interferon-γ. CAR-T cells mediated cytotoxicity was also impaired by the high Kyn treatment from killing assay. We then explored the anti-tumor effect of Kynureninase (KYNU) modified CAR-T cells through catabolism o oncometabolites Kyn. KYNU over-expression (OE) CAR-T cells showed a superior killing effect against cancer cells even in the immunosuppressive TME with high Kyn levels. In vivo experiments confirmed KYNU-OE CAR-T cells showed an excellent anti-tumor effect in a TME with high Kyn levels since it improved the survival of mice bearing NALM6 cancer cells and NALM6-IDO1 cancer cells. The KYNU-modified CAR-T cells displayed distinct phenotypes related to the expansion, function, and memory differentiation status of CAR-T cells. This study explores an immunotherapy strategy for patients with alterations in Kyn metabolism. KYNU-OE CAR-T cells take advantage of Kyn catabolism to improve anti-tumor activity in the metabolic immunosuppressive TME with high Kyn.

Topics & Concepts

Cancer researchImmunotherapyCancer immunotherapyCytotoxic T cellTumor microenvironmentCD8CytotoxicityCancer cellIn vivoKynurenineChemistryBiologyGranzyme BPharmacologyT cellIn vitroImmune systemImmunologyCell therapyIL-2 receptorCancerAntigenCatabolismIndoleamine 2,3-dioxygenaseGranzymeInterleukin 21Chimeric antigen receptorCAR-T cell therapy researchTryptophan and brain disordersImmunotherapy and Immune Responses
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