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Impact of CD4 T cells on intratumoral CD8 T-cell exhaustion and responsiveness to PD-1 blockade therapy in mouse brain tumors

Saad M. Khan, Rupen Desai, Andrew T. Coxon, Alexandra J. Livingstone, Gavin P. Dunn, Allegra A. Petti, Tanner M. Johanns

2022Journal for ImmunoTherapy of Cancer59 citationsDOIOpen Access PDF

Abstract

Background Glioblastoma is a fatal disease despite aggressive multimodal therapy. PD-1 blockade, a therapy that reinvigorates hypofunctional exhausted CD8 T cells (T ex ) in many malignancies, has not shown efficacy in glioblastoma. Loss of CD4 T cells can lead to an exhausted CD8 T-cell phenotype, and terminally exhausted CD8 T cells (T ex term ) do not respond to PD-1 blockade. GL261 and CT2A are complementary orthotopic models of glioblastoma. GL261 has a functional CD4 T-cell compartment and is responsive to PD-1 blockade; notably, CD4 depletion abrogates this survival benefit. CT2A is composed of dysfunctional CD4 T cells and is PD-1 blockade unresponsive. We leverage these models to understand the impact of CD4 T cells on CD8 T-cell exhaustion and PD-1 blockade sensitivity in glioblastoma. Methods Single-cell RNA sequencing was performed on flow sorted tumor-infiltrating lymphocytes from female C57/BL6 mice implanted with each model, with and without PD-1 blockade therapy. CD8 + and CD4 + T cells were identified and separately analyzed. Survival analyses were performed comparing PD-1 blockade therapy, CD40 agonist or combinatorial therapy. Results The CD8 T-cell compartment of the models is composed of heterogenous CD8 T ex subsets, including progenitor exhausted CD8 T cells (T ex prog ), intermediate T ex , proliferating T ex , and T ex term . GL261 is enriched with the PD-1 responsive T ex prog subset relative to the CT2A and CD4-depleted GL261 models, which are composed predominantly of the PD-1 blockade refractory T ex term subset. Analysis of the CD4 T-cell compartments revealed that the CT2A microenvironment is enriched with a suppressive T reg subset and an effector CD4 T-cell subset that expresses an inhibitory interferon-stimulated ( Isc ) signature. Finally, we demonstrate that addition of CD40 agonist to PD-1 blockade therapy improves survival in CT2A tumor-bearing mice. Conclusions Here, we describe that dysfunctional CD4 T cells are associated with terminal CD8 T-cell exhaustion, suggesting CD4 T cells impact PD-1 blockade efficacy by controlling the severity of exhaustion. Given that CD4 lymphopenia is frequently observed in patients with glioblastoma, this may represent a basis for resistance to PD-1 blockade. We demonstrate that CD40 agonism may circumvent a dysfunctional CD4 compartment to improve PD-1 blockade responsiveness, supporting a novel synergistic immunotherapeutic approach.

Topics & Concepts

BlockadeCD8Cytotoxic T cellT cellEx vivoMedicineCancer researchImmunologyImmune systemBiologyInternal medicineReceptorIn vitroBiochemistryCancer Immunotherapy and BiomarkersGlioma Diagnosis and TreatmentCAR-T cell therapy research
Impact of CD4 T cells on intratumoral CD8 T-cell exhaustion and responsiveness to PD-1 blockade therapy in mouse brain tumors | Litcius