4-1BB stimulation with concomitant inactivation of adenosine A2B receptors enhances CD8+ T cell antitumor response
Jihae Ahn, … , Yi Zhang, Bin Zhang
Jihae Ahn, … , Yi Zhang, Bin Zhang
Published April 3, 2025
Citation Information: J Clin Invest. 2025;135(11):e190841. https://doi.org/10.1172/JCI190841.
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Research Article Immunology Oncology

4-1BB stimulation with concomitant inactivation of adenosine A2B receptors enhances CD8+ T cell antitumor response

Abstract

Activating the immune costimulatory receptor 4-1BB (CD137) with agonist antibody binding and crosslinking-inducing agents that elicit 4-1BB intracellular signaling potentiates the antitumor responses of CD8+ T cells. However, the underlying in-depth mechanisms remain to be defined. Here, we show that agonistic 4-1BB treatment of activated CD8+ T cells under continuous antigenic stimulation makes them more metabolically vulnerable to redox perturbation by ablation of intracellular glutathione (GSH) and glutathione peroxidase 4 (GPX4) inhibition. Further, genetic deletion of adenosine A2B receptor (A2BR) induces superior survival and expansion advantage of competent CD8+ T cells with agonistic 4-1BB costimulation, leading to more effective antitumor efficacy of adoptive cell therapy (ACT). Mechanistically, A2BR deletion helps sustain the increased energy and biosynthetic requirements through the GSH/GPX4 axis upon 4-1BB costimulation. A2BR deletion in combination with agonistic 4-1BB costimulation displays a greater ability to promote antitumor CD8+ effector T cell survival and expansion while mitigating T cell exhaustion. Thus, the A2BR pathway plays an important role in metabolic reprogramming with potentiation of the GSH/GPX4 cascade upon agonistic 4-1BB costimulation that allows the fine-tuning of the antitumor responses of CD8+ T cells.

Authors

Jihae Ahn, Ping Xie, Siqi Chen, Guilan Shi, Jie Fan, Minghui Zhang, Hui Tang, Amanda R. Zuckerman, Deyu Fang, Yong Wan, Timothy M. Kuzel, Yi Zhang, Bin Zhang

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Figure 3

GPX4 is essential for α4-1BB–mediated enhancement in CD8+ T cell function.

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GPX4 is essential for α4-1BB–mediated enhancement in CD8+ T cell functio...
Ki-67 expression (A), Ki-67+ cells (B), IFN-γ+ cells (C) the ratio of MTR/MTG (D), expression levels of BODIPY-PE (E), BODIPY-FITC (F), BODIPY-PEhimBBrhi cells (G), and viable cell counts (H) were determined in treated CD8+ T cells by flow cytometry. Frequency of viable cells (annexin V/7-AAD) (I), Ki-67+ cells (J), and IFN-γ+ cells (K) were determined in treated CD8+ T cells in the absence or presence of the GPX4 inhibitor RSL3. Following conditioning with a sublethal irradiation dose (600 cGy), MC38 tumor–bearing CD90.1+ mice (n = 4–5) received polyclonal tumor-reactive CD90.2+ WT or GPX4–/– CD8+ T cells and were treated further with or without α4-1BB (100 μg/mouse) by i.p. daily once for 2 days. Seven days after T cell transfer, viable cell counts (L), IFN-γ+ cell counts (M) in peripheral blood by flow cytometry, tumor weight (N), transferred CD8+ T cell counts (O), frequency of IFN-γ+ cells (P) and Ki67+ cells (Q) among transferred CD8+ T cells were determined. For the T cell adoptive transfer in a LLC1-Ova tumor model (R), seven days after OT-I T cell transfer, relative counts of total transferred CD8+ T cells (S) and frequency of Ki-67+CD8+ cells (T), and IFN-γ+CD8+ cells (U) among transferred tumor-infiltrating T cells were determined by flow cytometry. Data (means ± SEM) are representative of 2–3 (AH) or 2 (IK and RU) independent experiments. (IK) Unpaired Student’s t test. (AH and LU) Two-way ANOVA with Bonferroni’s post test correction was used. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.