MODL-13. Patient-derived organoids for modeling pediatric brain tumors

Abstract

Abstract Central nervous system (CNS) tumors are the most common solid tumors in the pediatric population and the main cause of death among childhood cancers. They present common features related to the development and produce symptoms based on the age of the child, their location and rate of tumor growth. Tumors of embryonal origin, such as medulloblastoma or primitive neuroectodermal tumor, have a higher incidence in younger patients, whereas older ones tend to present tumors of glial origin. Most of CNS-embryonal tumors are highly malignant and consequently leading to poor prognoses. Despite the understanding of the underlying molecular landscape of these tumors that has helped in clinical advances to improve life expectancies of the patients, there is still an emerging need to minimize morbidity and manage the long-term therapy effects. Developing new models to better understand the heterogeneity of these tumors and to test personalized treatment strategies remains a clinical challenge. We are willing to answer to this medical need with Patient-Derived Organoids (PDOs) established through the direct in vitro culture of primary tumors and patient derived xenograft (PDX)-derived tumors. We developed a method for generating PDOs from a variety of pediatric brain cancers that recapitulates the cellular heterogeneity, histological features and mutational profiles of the corresponding parental tumors, also confirmed by the DNA methylation profile analysis, nowadays used for an accurate routine CNS tumors diagnosis. Through this new model, we confirmed the action of some clinically used drugs, obtaining a proof of concept of their possible application as a reliable tool for drug screening. Further applications derive from the enrichment of PDOs culture media for possible tumor-specific antigens that could be useful to define tumor markers identifiable with diagnostic tests or as candidates for new therapies.