Osteosarcoma is the most common primary bone tumor, yet there have been no substantial advances in treatment or survival in three decades. We examined 59 tumor/normal pairs by whole-exome, whole-genome, and RNA-sequencing. Only the TP53 gene was mutated at significant frequency across all samples. The mean nonsilent somatic mutation rate was 1.2 mutations per megabase, and there was a median of 230 somatic rearrangements per tumor. Complex chains of rearrangements and localized hypermutation were detected in almost all cases. Given the intertumor heterogeneity, the extent of genomic instability, and the difficulty in acquiring a large sample size in a rare tumor, we used several methods to identify genomic events contributing to osteosarcoma survival. Pathway analysis, a heuristic analytic algorithm, a comparative oncology approach, and an shRNA screen converged on the phosphatidylinositol 3-kinase/mammalian target of rapamycin (PI3K/mTOR) pathway as a central vulnerability for therapeutic exploitation in osteosarcoma. Osteosarcoma cell lines are responsive to pharmacologic and genetic inhibition of the PI3K/mTOR pathway both in vitro and in vivo., the most common primary bone tumor, is an aggressive cancer that affects children, adolescents, and young adults. In contrast to the improvements in 5-year overall survival for childhood cancers from 58% to 82% in the past three decades, the overall survival for pediatric OS has remained static over that same time period at 60% (1, 2).Predisposition to OS is associated with germline syndromes, including hereditary retinoblastoma and Li-Fraumeni syndrome (3, 4). OS is also seen in syndromes with mutations in RECQ helicases and SQSTM1 (5, 6). However, most cases of OS develop sporadically and are characterized by complex genomics. The first genome-wide association study conducted in OS only identified two susceptibility loci implicating one gene, GRM4, a glutamate receptor (7).Linkage with hereditary retinoblastoma and Li Fraumeni led to the recognition of recurrent somatic alterations in TP53, RB1, and genes interacting with TP53 and RB1 in OS (8, 9). Candidate-gene approaches demonstrated recurrent somatic mutations, deletions, and rearrangement affecting TP53 (9). Additional mechanisms of p53 inactivation described in OS are MDM2 and COPS3 amplification (8, 9). RB1 mutations are present in 6% and deletions or structural alterations are seen in 40% of cases (10,11). CDKN2A is deleted in 10-20% of OS (9, 12). Multiple other cancer-associated genes have been reported to be altered in OS [reviewed in Kansara and Thomas (5)]. Many of these studies
SignificanceWe present, to our knowledge, the first comprehensive nextgeneration sequencing of osteosarcoma in combination with a functional genomic screen in a genetically defined mouse model of osteosarcoma. Our data provide a strong rationale for targeting the phosphatidylinositol 3-kinase/mammalian target of rapamycin pathway in osteosarcoma and a foundation for rational clinical trial design. These findings present an immed...
