Abstract BACKGROUND Gain of chromosome 1q (1q+), gives a grave prognosis in pediatric posterior fossa group A ependymoma (PFA). The prevalence of 1q+ in newly diagnosed PFA stands at 25%, escalating to 50% upon recurrence. Conventional therapeutic modalities, such as complete resection and radiation, exhibit minimal efficacy in cases of 1q+ PFA, and the incorporation of additional chemotherapy in clinical trials has failed to yield substantial improvements. In this investigation, we delineate the trisomy-induced overexpression of the MDM4 gene on chromosome 1q as a driver of malignant progression in 1q+ PFA and a viable therapeutic target via idasanutlin, an MDM4 pathway inhibitor. METHODS We are using genetic and pharmaceutical inhibition of the MDM4/MDM2 pathway high-risk PFA 1q+ in vitro and in vivo models to test the efficacy of idasanutlin in a preclinical setting. Treatment effects are measured utilizing growth assays as well as genomic and transcriptomic analysis. RESULTS Our investigation reveals that two 1q+ in vitro models demonstrate a dose dependent sensitivity to idasanutlin compared to normal brain tissue. Upon exposure to idasnutlin, they also have an increase in p21 expression, a critical marker demonstrating reactivation of the p53 pathway, evidenced at both the gene expression and protein levels. Moreover, we found radiation synergistically enhances the efficacy of idasanutlin. Currently, we are evaluating our in vitro results with combination radiation and idasanutlin treatment in our 1q+ PFA preclinical in vivo models. CONCLUSIONS In summary, our study advocates for the exploration of small molecule inhibitors, with a primary focus on the promising idasanutlin compound, as a therapeutic avenue for addressing the challenge posed by ultra-high-risk 1q+ PFA. The compelling preclinical evidence presented herein lays the groundwork for advancing our understanding of the molecular intricacies underlying this malignancy, paving the way for novel and targeted treatment strategies.