John Lattin scite author profile

CAR T cells mediate antitumor effects in a small subset of cancer patients 1-3 , but dysfunction due to T cell exhaustion is an important barrier to progress 4-6. To investigate the biology of exhaustion in human T cells expressing CAR receptors, we used a model system employing a tonically signaling CAR, which induces hallmark features of exhaustion 6. Exhaustion was associated with a profound defect in IL-2 production alongside increased chromatin accessibility of AP-1 Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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Transient rest restores functionality in exhausted CAR-T cells through epigenetic remodeling

Weber

Parker

Sotillo

et al. 2021

Science

408

269

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T cell exhaustion limits immune responses against cancer and is a major cause of resistance to chimeric antigen receptor (CAR)–T cell therapeutics. Using murine xenograft models and an in vitro model wherein tonic CAR signaling induces hallmark features of exhaustion, we tested the effect of transient cessation of receptor signaling, or rest, on the development and maintenance of exhaustion. Induction of rest through enforced down-regulation of the CAR protein using a drug-regulatable system or treatment with the multikinase inhibitor dasatinib resulted in the acquisition of a memory-like phenotype, global transcriptional and epigenetic reprogramming, and restored antitumor functionality in exhausted CAR-T cells. This work demonstrates that rest can enhance CAR-T cell efficacy by preventing or reversing exhaustion, and it challenges the notion that exhaustion is an epigenetically fixed state.

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Pharmacologic control of CAR-T cell function using dasatinib

et al. 2019

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Anti-GD2 synergizes with CD47 blockade to mediate tumor eradication

Theruvath

Ménard

Smith

et al. 2022

Nat Med

153

101

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Costimulatory domains direct distinct fates of CAR-driven T cell dysfunction

Selli

Landmann

Terekhova

et al. 2023

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T cells engineered to express chimeric antigen receptors (CARs) targeting CD19 have demonstrated impressive activity against relapsed or refractory B cell cancers yet fail to induce durable remissions for nearly half of patients treated. Enhancing the efficacy of this therapy requires detailed understanding of the molecular circuitry that restrains CAR-driven anti-tumor T cell function. We developed and validated an in vitro model that drives T cell dysfunction through chronic CAR activation and interrogated how CAR costimulatory domains, central components of CAR structure and function, contribute to T cell failure. We found that chronic activation of CD28-based CARs results in activation of classical T cell exhaustion programs and development of dysfunctional cells that bear the hallmarks of exhaustion. In contrast, 41BB-based CARs activate a divergent molecular program and direct differentiation of T cells into a novel cell state. Interrogation of CAR T cells from a patient with progressive lymphoma confirmed activation of this novel program in a failing clinical product. Further, we demonstrate that 41BB-dependent activation of the transcription factor FOXO3 is directly responsible for impairing CAR T cell function. These findings identify that costimulatory domains are critical regulators of CAR-driven T cell failure and that targeted interventions are required to overcome costimulation-dependent dysfunctional programs.

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John Lattin

c-Jun overexpression in CAR T cells induces exhaustion resistance

Transient rest restores functionality in exhausted CAR-T cells through epigenetic remodeling

Pharmacologic control of CAR-T cell function using dasatinib

Anti-GD2 synergizes with CD47 blockade to mediate tumor eradication

Costimulatory domains direct distinct fates of CAR-driven T cell dysfunction

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