IL-7–mediated expansion of autologous lymphocytes increases CD8+ VLA-4 expression and accumulation in glioblastoma models
Kirit Singh, … , Mustafa Khasraw, Peter E. Fecci
Kirit Singh, … , Mustafa Khasraw, Peter E. Fecci
Published April 17, 2025
Citation Information: J Clin Invest. 2025;135(12):e181471. https://doi.org/10.1172/JCI181471.
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Research Article Neuroscience Oncology

IL-7–mediated expansion of autologous lymphocytes increases CD8+ VLA-4 expression and accumulation in glioblastoma models

Abstract

The efficacy of T cell–activating therapies against glioma is limited by an immunosuppressive tumor microenvironment and tumor-induced T cell sequestration. We investigated whether peripherally infused nonantigen specific autologous lymphocytes could accumulate in intracranial tumors. We observed that nonspecific autologous CD8+ ALT cells can indeed accumulate in this context, despite endogenous T cell sequestration in bone marrow. Rates of intratumoral accumulation were markedly increased when expanding lymphocytes with IL-7 compared with IL-2. Pretreatment with IL-7 ALT also enhanced the efficacy of multiple tumor-specific and nontumor-specific T cell–dependent immunotherapies against orthotopic murine and human xenograft gliomas. Mechanistically, we detected increased VLA-4 on mouse and human CD8+ T cells following IL-7 expansion, with increased transcription of genes associated with migratory integrin expression (CD9). We also observed that IL-7 increases S1PR1 transcription in human CD8+ T cells, which we have shown to be protective against tumor-induced T cell sequestration. These observations demonstrate that expansion with IL-7 enhances the capacity of ALT to accumulate within intracranial tumors and that pretreatment with IL-7 ALT can boost the efficacy of subsequent T cell–activating therapies against glioma. Our findings will inform the development of future clinical trials where ALT pretreatment can be combined with T cell–activating therapies.

Authors

Kirit Singh, Kelly M. Hotchkiss, Sarah L. Cook, Pamy Noldner, Ying Zhou, Eliese M. Moelker, Chelsea O. Railton, Emily E. Blandford, Bhairavy J. Puviindran, Shannon E. Wallace, Pamela K. Norberg, Gary E. Archer, Beth H. Shaz, Katayoun Ayasoufi, John H. Sampson, Mustafa Khasraw, Peter E. Fecci

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Figure 2

IL-7 ALT synergizes with specific and nonspecific T cell–activating/checkpoint blockade therapies in orthotopic glioma models.

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IL-7 ALT synergizes with specific and nonspecific T cell–activating/chec...
(A) Evaluation of IL-7 and IL-2 ALT combined with hCD3:EGFRvIII BRiTE in NSG mice. Mice (n = 5–6 /group) were implanted with U87vIII and treated with 5 × 106 IV hPBMCs on day 5, with serial IV BRiTE (50 μg) on days 5–9. (B) Cytotoxicity assay using BRiTE cocultured with tumor cells (U87vIII) and hPBMCs expanded with IL-2 or IL-7. Nonlinear fitted dose-response curves shown with SEM (n = 10–12/group, Pearson Correlation Coefficient r = 0.98, ****P < 0.0001). (C and D) Study overview and findings of a screening approach to identify the best combinatorial mAb approach with ALT (n = 5–7/group). (E) Survival of combination α4-1BB & IL-7 ALT therapy compared to monotherapy controls treated using same regimen in (C) (n = 5/group). (F) C57BL/6J mice implanted with 6 × 104 GL261 and treated using same regimen in (C) with αPD-1 (n = 6–12/group, pooled data across 2 experiments). (G) Monitoring of bodyweight throughout the treatment period and for two weeks after for survival experiment in F (n = 6–7/group). Comparison via multiple unpaired t tests and data presented as mean ± SEM. Survival comparisons performed via a log-rank (Mantel-Cox) χ2 test. Experimental outlines generated using BioRender.com. *P < 0.05, **P ≤ 0.01, ***P < 0.001, ****P < 0.0001.