Combination of locoregional radiotherapy with a TIM-3 aptamer improves survival in diffuse midline glioma models
Iker Ausejo-Mauleon, Naiara Martinez-Velez, Andrea Lacalle, Daniel de la Nava, Javier Cebollero, Helena Villanueva, Noelia Casares, Javier Marco-Sanz, Virginia Laspidea, Oren Becher, Ana Patiño-García, Sara Labiano, Fernando Pastor, Marta M. Alonso
Iker Ausejo-Mauleon, Naiara Martinez-Velez, Andrea Lacalle, Daniel de la Nava, Javier Cebollero, Helena Villanueva, Noelia Casares, Javier Marco-Sanz, Virginia Laspidea, Oren Becher, Ana Patiño-García, Sara Labiano, Fernando Pastor, Marta M. Alonso
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Research Article Oncology Therapeutics

Combination of locoregional radiotherapy with a TIM-3 aptamer improves survival in diffuse midline glioma models

Abstract

Pediatric diffuse midline gliomas (DMG) with altered H3-K27M are aggressive brain tumors that arise during childhood. Despite advances in genomic knowledge and the significant number of clinical trials testing new targeted therapies, patient outcomes are still poor. Immune checkpoint blockades with small molecules, such as aptamers, are opening new therapeutic options that represent hope for this orphan disease. Here, we demonstrated that a TIM-3 aptamer (TIM-3 Apt) as monotherapy increased the immune infiltration and elicited a strong specific immune response with a tendency to improve the overall survival of treated DMG-bearing mice. Importantly, combining TIM-3 Apt with radiotherapy increased the overall median survival and led to long-term survivor mice in 2 pediatric DMG orthotopic murine models. Interestingly, TIM-3 Apt administration increased the number of myeloid populations and the proinflammatory CD8-to-Tregs ratios in the tumor microenvironment as compared with nontreated groups after radiotherapy. Importantly, the depletion of T cells led to a major loss of the therapeutic effect achieved by the combination. This work uncovers TIM-3 targeting as an immunotherapy approach to improve the radiotherapy outcome in DMGs and offers a strong foundation for propelling a phase I clinical trial using radiotherapy and TIM-3 blockade combination as a treatment for these tumors.

Authors

Iker Ausejo-Mauleon, Naiara Martinez-Velez, Andrea Lacalle, Daniel de la Nava, Javier Cebollero, Helena Villanueva, Noelia Casares, Javier Marco-Sanz, Virginia Laspidea, Oren Becher, Ana Patiño-García, Sara Labiano, Fernando Pastor, Marta M. Alonso

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Figure 1

Evaluation of the antitumor effect of anti-TIM-3 oligomeric aptamer blockade.

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Evaluation of the antitumor effect of anti-TIM-3 oligomeric aptamer bloc...
(A) 2-dimensional predicted structure of the Apt1 aptamer antagonist of TIM-3. (B) Schedule of survival experiments performed with murine NP53 DMG cells. Cells were implanted on day 0. On Day 5, 380 pmol/mouse of Apt1 or Control Apt was administered intratumorally (i.t.), and on days 8, 11, and 14, each of the aptamers (32 0pmol/mouse) was administered intravenous (i.v.). (C) Kaplan–Meier survival curves of mice bearing NP53 (n = 12 per group) DMG cells treated with TIM-3 Apt or control Apt. (D) CD3, CD4, and CD8 immune-staining representative images after the indicated treatments. Scale bars: 100μm. (EG) CD3+ (E), CD8+ (F), CD4+, and FOXP3+ Tregs (G) cell infiltration per mm2 of NP53 tumors. Graph showing the quantification of positive cells infiltrating the brain at sacrificed day after the indicated treatments per mm2 (Saline, control Apt, and TIM-3 Apt; n = 3–5). (H) Analyses of the CD8+ cell/Treg proinflammatory ratio in the tumor microenvironment (n = 3–5). Data were analyzed with 1-way ANOVA. Bar graphs indicate the mean ± SEM (*P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001).