Clinical genomic sequencing of pediatric and adult osteosarcoma reveals distinct molecular subsets with potentially targetable alterations

Purpose: While multimodal chemotherapy has improved outcomes for patients with osteosarcoma (OS), the prognosis for patients who present with metastatic and/or recurrent disease remains poor. In this study, we sought to define how often clinical genomic sequencing of OS samples could identify potentially actionable alterations. Experimental Design: We analyzed genomic data from 71 OS samples from 66 pediatric and adult patients sequenced using MSK-IMPACT, a hybridization capture-based large panel NGS assay. Potentially actionable genetic events were categorized according to the OncoKB precision oncology knowledge base, of which Levels 1-3 were considered clinically actionable. Results: We found at least one potentially actionable alteration in 14/66 patients (21%), including amplification of CDK4 (n=9, 14%: Level 2B) and/or MDM2 (n=9, 14%: Level 3B), and somatic truncating mutations/deletions in BRCA2 (n=3, 5%: Level 2B) and PTCH1 (n=1, Level 3B). Additionally, we observed mutually exclusive patterns of alterations suggesting distinct biological subsets defined by gains at 4q12 and 6p12-21. Specifically, potentially targetable gene amplifications at 4q12 involving KIT, KDR and PDGFRA were identified in 13 of 66 patients (20%), which showed strong PDGFRA expression by immunohistochemistry. In another largely non-overlapping subset of 14 patients (24%) with gains at 6p12-21, VEGFA amplification was identified. Conclusions: We found potentially clinically actionable alterations in approximately 21% of OS patients. Additionally, at least 40% of patients have tumors harboring PDGFRA or VEGFA amplification, representing candidate subsets for clinical evaluation of additional therapeutic options. We propose a new genomically-based algorithm for directing OS patients to clinical trial options.