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Glut3 overexpression improves environmental glucose uptake and antitumor efficacy of CAR-T cells in solid tumors

Wenhao Hu, Li Feng, Yue Liang, Shasha Liu, S. Wang, Chunyi Shen, Yuyu Zhao, Hui Wang, Yi Zhang

2025Journal for ImmunoTherapy of Cancer24 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Glucose deprivation inhibits T-cell metabolism and function. Glucose levels are low in the tumor microenvironment of solid tumors and insufficient glucose uptake limits the antitumor response of T cells. Furthermore, glucose restriction can contribute to the failure of chimeric antigen receptor T (CAR-T) cell therapy for solid tumors. However, the impact of glucose restriction remains unknown in CAR-T cell therapy. METHODS: Glucose transporters were detected and overexpressed in CAR-T cells. The impacts of glucose restriction on CAR-T cells were checked in vitro and in vivo. RESULTS: Glucose restriction significantly decreased CAR-T cell activation, effector function, and expansion. CAR-T cells expressed high levels of the glucose transporter Glut1, which has a low affinity for glucose. Overexpression of Glut1 failed to improve CAR-T cell function under glucose-restricted conditions. In contrast, the function and antitumor potential of CAR-T cells was enhanced by the overexpression of Glut3, which has the highest affinity for glucose among the Glut transporter family and is expressed in minor parts of CAR-T cells. Glut3-overexpressing CAR-T cells demonstrated increased tumoricidal efficacy in multiple xenografts and syngenetic mouse models. Furthermore, Glut3 overexpression activated the PI3K/Akt pathway and increased OXPHOS and mitochondrial fitness. CONCLUSIONS: We provide a direct and effective approach to enhance low glucose uptake levels by CAR-T cells and improve their antitumor efficacy against solid tumors.

Topics & Concepts

GLUT3Glucose transporterCancer researchGlucose uptakeMedicinePharmacologyOncologyInternal medicineGLUT1InsulinCAR-T cell therapy researchCancer Immunotherapy and BiomarkersImmune Cell Function and Interaction