Jianrong Wu scite author profile

Osteosarcoma is a neoplasm of mesenchymal origin with features of osteogenic differentiation. Patients with recurrent or metastatic disease have a very poor prognosis. To define the landscape of somatic mutations in pediatric osteosarcoma, we performed whole-genome sequencing of DNA from 20 osteosarcoma tumor samples and matched normal tissue (obtained from 19 patients) in the discovery cohort as well as 14 samples from 13 patients in the validation cohort. Our results demonstrate that pediatric osteosarcoma is characterized by multiple somatic chromosomal lesions, including structural variations (SVs) and copy number alterations (CNAs). Moreover, single nucleotide variations (SNVs) exhibit a pattern of localized hypermutation called “kataegis” in 50% of the tumors. Despite these regions of kataegis across the osteosarcoma genomes, we detected relatively few recurrent SNVs, and only when SVs were included did we identify the major pathways that are mutated in osteosarcoma. We identified p53 pathway lesions in all 19 patient’s tumors in the discovery cohort, 9 of which were translocations in the first intron of the TP53 gene, leading to gene inactivation. This mechanism of p53 gene inactivation is unique to osteosarcoma among pediatric cancers. In an additional cohort of 32 patients, TP53 gene alterations were identified in 29 of those tumors. Beyond TP53, the RB1, ATRX and DLG2 genes showed recurrent somatic alterations (SNVs and/or SVs) in 29–53% of the tumors. These data highlight the power of whole-genome sequencing in identifying recurrent somatic alterations in cancer genomes that may be missed using other methods.

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The pediatric preclinical testing program: Description of models and early testing results

Houghton

Morton

Tucker

et al. 2006

Pediatric Blood & Cancer

439

550

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Association of Age at Diagnosis and Genetic Mutations in Patients With Neuroblastoma

Cheung

Zhang²,

Lu³

et al. 2012

JAMA

389

435

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Orthotopic patient-derived xenografts of paediatric solid tumours

Stewart

Federico

Chen

et al. 2017

Nature

248

282

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Pediatric solid tumors arise from endodermal, ectodermal, or mesodermal lineages1. Although the overall survival of children with solid tumors is 75%, that of children with recurrent disease is below 30%2. To capture the complexity and diversity of pediatric solid tumors and establish new models of recurrent disease, we developed a protocol to produce orthotopic patient-derived xenografts (O-PDXs) at diagnosis, recurrence, and autopsy. Tumor specimens were received from 168 patients, and 67 O-PDXs were established for 12 types of cancer. The origins of the O-PDX tumors were reflected in their gene-expression profiles and epigenomes. Genomic profiling of the tumors, including detailed clonal analysis, was performed to determine whether the clonal population in the xenograft recapitulated the patient’s tumor. We identified several drug vulnerabilities and showed that the combination of a WEE1 inhibitor (AZD1775), irinotecan, and vincristine can lead to complete response in multiple rhabdomyosarcoma O-PDX tumors in vivo.

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Initial testing of the aurora kinase a inhibitor MLN8237 by the Pediatric Preclinical Testing Program (PPTP)

Maris

Morton

Görlick

et al. 2010

Pediatric Blood & Cancer

205

172

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Jianrong Wu

Recurrent Somatic Structural Variations Contribute to Tumorigenesis in Pediatric Osteosarcoma

The pediatric preclinical testing program: Description of models and early testing results

Association of Age at Diagnosis and Genetic Mutations in Patients With Neuroblastoma

Orthotopic patient-derived xenografts of paediatric solid tumours

Initial testing of the aurora kinase a inhibitor MLN8237 by the Pediatric Preclinical Testing Program (PPTP)

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