Javier Marco-Sanz scite author profile

Javier Marco-Sanz

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Clinica Universidad de Navarra

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IMMU-18. Targeting Antigen Presenting Cells to improve virotherapy efficacy in Diffuse Midline Gliomas

Labiano

Marco-Sanz

Laspidea

et al. 2022

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With a 2-year survival less than 20%, Diffuse Intrinsic Pontine Glioma (DIPG) is the principal cause of pediatric death. Despite recent advances in the current treatments, the outcome for children with DIPGs remains dismal. Since the approval of T-VEC for melanoma by the FDA, oncolytic adenoviruses have emerged as a promising therapeutic strategy for brain tumors. Thus, our group launched the first world clinical trial phase I with the oncolytic adenovirus Delta-24-RGD (DNX-2401 in the clinic) for newly diagnosed DIPG (NCT03178032), which has shown safety and feasibility. Despite DNX-2401 increases the recruitment of T cells into the tumor, they usually become inactive due to the non-responsive tumor microenvironment evidencing the urgent need to improve this strategy focusing on the generation of effective long-term immune responses. Therefore, we decided to combine the Delta-24-RGD with the targeting of the costimulatory molecule CD40 in immunocompetent mice bearing orthotopic DIPG. The activation of the CD40 receptor, which is expressed by antigen presenting cells (APC) such as microglia, macrophages, and dendritic cells, is known to increase antigen presentation and enable T-cell priming and activation. Here, we observed that in addition to Delta-24-RGD anti-tumor effects, the stimulation of CD40 (using an agonistic antibody) on the tumor APCs results in a remodeling of the tumor immune compartment towards a proinflammatory scenario and a more efficient T-cell infiltration. Of importance, the combination therapy extends survival of treated mice as compared to single treatments or non-treated mice. In addition, we observe a complete regression of tumors in more than 40% of treated mice and the development of long-term anti-tumor immunity. We believe that these results provide a translational breakthrough in the treatment of these lethal tumors and open the door for a future innovative clinical trial.

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Exth-58. Unraveling the Mechanisms Underlying the Therapeutic Efficacy of Tim-3 Blockade in Dipgs

Ausejo-Mauleon

Labiano

Laspidea

et al. 2022

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Diffuse intrinsic pontine glioma (DIPG) is an aggressive brain tumor and the leading cause of pediatric death caused by cancer. Despite great strides in the understanding of this disease, the survival is still dismal. One of the objectives of our lab is to modulate the tumor microenvironment (TME) towards a proinflammatory phenotype to render these tumors amenable to immunotherapy. TIM-3 is a member of the TIM-family of immunoregulatory proteins expressed on multiple immune cell types, including T-cells, NK, myeloid populations, and microglia, regulating adaptive and innate immunity. In silico assessment of TIM-3 expression in DIPG mRNA and single-cell datasets showed a robust expression of this gene in tumor cells and microglia uncovering this molecule as a potential target in DIPGs. In vivo studies showed that TIM-3 blockade with an antibody significantly increased the overall survival of two DIPG immunocompetent orthotopic models, led to long-term survivors (50%), and showed immune resident memory. TIM-3 inhibition resulted in a significant increase in the number and proliferative state of microglia, NK, and CD8+ cells and higher levels of IFNγ, GrzB and TNFα corresponding to NK and T-cell activate phenotypes. Interestingly, there was a decrease in the Treg population, which causes an increase in the pro-inflammatory CD8/Treg ratio. Chemokine studies demonstrated an augmentation of CCL5, CCL2 chemotactic cytokines, and CXCL10/IL-1β/IFN-γ pro-inflammatory axis in the tumor microenvironment of treated-mice. Additionally, DCs, CD4+, and CD8+ cells were increased in treated draining lymph nodes and of functional significance, expressed higher amounts of pro-inflammatory cytokines than in control mice. Interestingly, the depletion of the different immune populations did not completely abrogate the treatment efficacy indicating a residual although significant TIM-3 effect in the tumor. In conclusion, these data uncover TIM-3 as a potential target for the treatment of DIPG and its potential as an immune regulator of DIPG TME.

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