GENE-09. PRECISION MEDICINE ANALYSIS OF 203 PEDIATRIC BRAIN TUMORS REVEALS CLINICALLY RELEVANT GENOMIC ALTERATIONS

INTRODUCTION: Clinical genomics platforms identify targetable alterations for precision medicine in pediatric neuro-oncology, allowing both the genomic profiling of tumors to inform clinical care and facilitating the potential discovery of novel driver alterations. METHODS: We applied two clinical genomic platforms (OncoPanel and OncoCopy) to profile pediatric brain tumors in a clinical setting. OncoPanel, a multiplexed targeted exome-sequencing platform that includes 300 cancer causing genes, was used to assess single nucleotide variants and rearrangements/indels. OncoCopy, a high-resolution genome-wide array comparative genomic hybridization (aCGH) assay, was used to evaluate copy number alterations and refine rearrangement breakpoints. RESULTS: Cancer genomes of 203 pediatric brain tumors were profiled across histological subtypes including 117 analyzed by OncoPanel, 146 by OncoCopy, and 60 evaluated using both methodologies. OncoPanel revealed clinically relevant alterations in 56% of patients (44 cancer mutations and 20 rearrangements), including BRAF alterations that directed the use of targeted inhibitors. EWSRa rearrangements were observed unexpectedly in two patients; one with a Atypical Teratoid Rhabdoid Tumor with loss of INI-1 (SMARCB1), and the second in an ependymoma. Whole Genome Sequencing of the rhabdoid tumor confirmed a rearrangement involving EWSR1 and PLAGL1.CONCLUSIONS: The combined deployment of OncoPanel and OncoCopy multiplex genomic assays can identify clinically relevant genomic alterations in pediatric brain tumors and facilitate the discovery of novel driver alterations. *equal contribution