Abstract
Diffuse intrinsic pontine glioma (DIPG) is a rare brainstem tumor which carries a dismal prognosis. To date. there are no effective treatments for DIPG. Transcriptomic studies have shown that DIPGs have a distinct profile compared to hemispheric high-grade pediatric gliomas. These specific genomic features coupled with the younger median age group suggest that DIPG is of developmental origin. There is a major unmet need for novel effective therapeutic approaches for DIPG. Clinical and preclinical studies have expanded our understanding of the molecular pathways in this deadly disease. We have developed a genetically engineered brainstem glioma model harboring the recurrent DIPG mutation, activin A receptor type I (ACVR1)-G328V (mACVR1) using the sleeping beauty transposon system. DIPG neurospheres isolated from the genetically engineered mouse model were implanted into the pons of immune-competent mice to assess the therapeutic efficacy and toxicity of immunostimulatory gene therapy using adenoviruses expressing thymidine kinase (TK) and fms-like tyrosine kinase 3 ligand (Flt3L). Immunostimulatory adenoviral-mediated delivery of TK/Flt3L in mice bearing brainstem gliomas resulted in antitumor immunity, recruitment of antitumor-specific T cells, and improved median survival by stimulating the host antitumor immune response. Therapeutic efficacy of the immunostimulatory gene therapy strategy will be tested in the clinical arena in a Phase I clinical trial. We also discuss immunotherapeutic interventions currently being implemented in DIPG patients and discuss the profound therapeutic implications of immunotherapy for this patient populations.
Highlights
The World Health Organization (WHO) classification of CNS tumors has started to integrate molecular testing as part of its diagnostic criteria [1]
We developed a Diffuse Intrinsic Pontine Glioma (DIPG) model bearing mutated ACVR1G328V or H3.1K27M, using the Sleeping Beauty transposon system to target neural stem cells in either the lateral ventricle or the fourth ventricle zone [27, 28]
We hypothesize that a combinatorial approach aiming to activate anti-DIPG immune response used together with immune checkpoint blockade would provide an effective therapeutic strategy against this devastating brainstem high grade glioma
Summary
The World Health Organization (WHO) classification of CNS tumors has started to integrate molecular testing as part of its diagnostic criteria [1]. Amongst midline high grade gliomas, Diffuse Intrinsic Pontine Glioma (DIPG) is a highly aggressive and malignant pediatric brain tumor that develops in the brainstem. Mouse models reflecting the genetic lesions and biology of DIPG are crucial for the development of targeted therapies to improve the prognosis of this devastating brainstem cancer.
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