Enhancing CAR-T cell metabolism to overcome hypoxic conditions in the brain tumor microenvironment
Ryusuke Hatae, Keith Kyewalabye, Akane Yamamichi, Tiffany Chen, Su Phyu, Pavlina Chuntova, Takahide Nejo, Lauren S. Levine, Matthew H. Spitzer, Hideho Okada
Ryusuke Hatae, Keith Kyewalabye, Akane Yamamichi, Tiffany Chen, Su Phyu, Pavlina Chuntova, Takahide Nejo, Lauren S. Levine, Matthew H. Spitzer, Hideho Okada
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Research Article Immunology Oncology

Enhancing CAR-T cell metabolism to overcome hypoxic conditions in the brain tumor microenvironment

Abstract

The efficacy of chimeric antigen receptor T cell (CAR-T) therapy has been limited against brain tumors to date. CAR-T cells infiltrating syngeneic intracerebral SB28 EGFRvIII gliomas revealed impaired mitochondrial ATP production and a markedly hypoxic status compared with ones migrating to subcutaneous tumors. Drug screenings to improve metabolic states of T cells under hypoxic conditions led us to evaluate the combination of the AMPK activator metformin and the mTOR inhibitor rapamycin (Met+Rap). Met+Rap–pretreated mouse CAR-T cells showed activated PPAR-γ coactivator 1α (PGC-1α) through mTOR inhibition and AMPK activation, and a higher level of mitochondrial spare respiratory capacity than those pretreated with individual drugs or without pretreatment. Moreover, Met+Rap–pretreated CAR-T cells demonstrated persistent and effective antiglioma cytotoxic activities in the hypoxic condition. Furthermore, a single intravenous infusion of Met+Rap–pretreated CAR-T cells significantly extended the survival of mice bearing intracerebral SB28 EGFRvIII gliomas. Mass cytometric analyses highlighted increased glioma-infiltrating CAR-T cells in the Met+Rap group, with fewer Ly6c+CD11b+ monocytic myeloid-derived suppressor cells in the tumors. Finally, human CAR-T cells pretreated with Met+Rap recapitulated the observations with murine CAR-T cells, demonstrating improved functions under in vitro hypoxic conditions. These findings advocate for translational and clinical exploration of Met+Rap–pretreated CAR-T cells in human trials.

Authors

Ryusuke Hatae, Keith Kyewalabye, Akane Yamamichi, Tiffany Chen, Su Phyu, Pavlina Chuntova, Takahide Nejo, Lauren S. Levine, Matthew H. Spitzer, Hideho Okada

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Figure 4

Pretreatment of CAR-T cells with Met+Rap extended the survival of glioma-bearing mice and enhanced their glioma infiltration.

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Pretreatment of CAR-T cells with Met+Rap extended the survival of glioma...
(A) Schematic of the treatment protocol for the survival study with the SB28 mEGFRvIII (murine EGFRvIII) glioma. IV, intravenous. (B) Kaplan-Meier curves: lymphodepletion (LD) group (median survival [MS] = 35 days, n = 10), CAR-T cells without pretreatment (MS = 37 days, n = 10), with Met-pretreated CAR-T (MS = 40 days, n = 10), with Rap-pretreated CAR-T (MS = not reached, n = 10), and with Met+Rap-pretreated CAR-T (MS = not reached, n = 10). (C) Tumor size was measured by luciferase bioluminescence imaging over time as the number of photons per second per square centimeter per steradian (p/s/cm2/sr). Data presented as mean ± SEM. (D) The design of the mass cytometric analysis. (E) Uniform manifold approximation and projection (UMAP) plot of BILs. The UMAP in the left penal shows all samples combined, while the panels on the right side show each treatment group separately. (F) Heatmap visualizing the relative expression (z score) of immune cell markers and metabolic markers in each subpopulation. Each cluster was annotated based on the expression status of the markers as indicated in the left panel. Clusters with similar marker expression levels are indicated with labels 1 and 2. (G) Frequencies of SB28 mEGFRvIII–infiltrating CAR-T cells (left panel) and Ly6c+ CD11b+ monocytic myeloid-derived suppressor cells (MDSCs; right panel) among the pretreatment types. Data are presented as mean ± SD. *P < 0.05; **P < 0.01 by 1-way ANOVA followed by Tukey’s multiple-comparison test.