Lisa Mirabello1, Bin Zhu2, Roelof Koster1, Eric Karlins2, Michael Dean1,2, Meredith Yeager2, Matthew Gianferante1, Logan G Spector3, Lindsay M Morton1, Danielle Karyadi1, Leslie L Robison4, Gregory T Armstrong4, Smita Bhatia5, Lei Song1, Nathan Pankratz3, Maisa Pinheiro1, Julie M Gastier-Foster6, Richard Gorlick7, Silvia Regina Caminada de Toledo8, Antonio S Petrilli8, Ana Patino-Garcia9,10, Fernando Lecanda9,10, Miriam Gutierrez-Jimeno9, Massimo Serra11, Claudia Hattinger11, Piero Picci11, Katia Scotlandi11, Adrienne M Flanagan12,13, Roberto Tirabosco13, Maria Fernanda Amary13, Nilgün Kurucu14, Inci Ergurhan Ilhan14, Mandy L Ballinger15,16, David M Thomas15,16, Donald A Barkauskas17, Gerardo Mejia-Baltodano18, Patricia Valverde19, Belynda D Hicks2, Bin Zhu2, Mingyi Wang2, Amy A Hutchinson2, Margaret Tucker1, Joshua Sampson1, Maria T Landi1, Neal D Freedman1, Susan Gapstur20, Brian Carter20, Robert N Hoover1, Stephen J Chanock1, Sharon A Savage1. 1. Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institutes of Health, Bethesda, Maryland. 2. Cancer Genomics Research Laboratory, Frederick National Laboratory for Cancer Research, Frederick, Maryland. 3. Department of Pediatrics, University of Minnesota, Minneapolis. 4. Department of Epidemiology and Cancer Control, St Jude Children's Research Hospital, Memphis, Tennessee. 5. Institute for Cancer Outcomes and Survivorship, University of Alabama at Birmingham, Birmingham. 6. Department of Pathology and Pediatrics, Nationwide Children's Hospital, The Ohio State University, Columbus. 7. Department of Pediatrics, University of Texas MD Anderson Cancer Center, Houston. 8. Laboratorio de Genetica, Instituto de Oncologia Pediatrica, Grupo de Apoio ao Adolescente e a Crianca com Cancer/Universidade Federal de Sao Paulo, Sao Paulo, Brazil. 9. Solid Tumor Division, Department of Pediatrics, University Clinic of Navarra and Center for Applied Medical Research, Navarra Institute for Health Research, Pamplona, Spain. 10. Center for Applied Medical Research, University of Navarra, Instituto de Investigacion Sanitaria de Navarra, and Centro de Investigacion Biomedica en Red Cancer, Pamplona, Spain. 11. Laboratory of Experimental Oncology, Istituto di Ricovero e Cura a Carattere Scientifico, Istituto Ortopedico Rizzoli, Bologna, Italy. 12. Research Department of Pathology, UCL Cancer Institute, London, United Kingdom. 13. Royal National Orthopaedic Hospital NHS Trust, Stanmore, Middlesex, United Kingdom. 14. Department of Pediatric Oncology, A.Y. Ankara Oncology Training and Research Hospital, Yenimahalle, Ankara, Turkey. 15. Garvan Institute of Medical Research, Darlinghurst, New South Wales, Australia. 16. St. Vincent's Clinical School, University of New South Wales, Sydney, New South Wales, Australia. 17. Department of Preventive Medicine, Keck School of Medicine, University of Southern California, Los Angeles, Los Angeles. 18. Hospital Infantil Manuel De Jesus Rivera, Managua, Nicaragua. 19. Unidad Nacional de Oncología Pediatrica, Guatemala City, Guatemala. 20. Epidemiology Research Program, American Cancer Society, Atlanta, Georgia.
Abstract
Importance: Osteosarcoma, the most common malignant bone tumor in children and adolescents, occurs in a high number of cancer predisposition syndromes that are defined by highly penetrant germline mutations. The germline genetic susceptibility to osteosarcoma outside of familial cancer syndromes remains unclear. Objective: To investigate the germline genetic architecture of 1244 patients with osteosarcoma. Design, Setting, and Participants: Whole-exome sequencing (n = 1104) or targeted sequencing (n = 140) of the DNA of 1244 patients with osteosarcoma from 10 participating international centers or studies was conducted from April 21, 2014, to September 1, 2017. The results were compared with the DNA of 1062 individuals without cancer assembled internally from 4 participating studies who underwent comparable whole-exome sequencing and 27 173 individuals of non-Finnish European ancestry who were identified through the Exome Aggregation Consortium (ExAC) database. In the analysis, 238 high-interest cancer-susceptibility genes were assessed followed by testing of the mutational burden across 736 additional candidate genes. Principal component analyses were used to identify 732 European patients with osteosarcoma and 994 European individuals without cancer, with outliers removed for patient-control group comparisons. Patients were subsequently compared with individuals in the ExAC group. All data were analyzed from June 1, 2017, to July 1, 2019. Main Outcomes and Measures: The frequency of rare pathogenic or likely pathogenic genetic variants. Results: Among 1244 patients with osteosarcoma (mean [SD] age at diagnosis, 16 [8.9] years [range, 2-80 years]; 684 patients [55.0%] were male), an analysis restricted to individuals with European ancestry indicated a significantly higher pathogenic or likely pathogenic variant burden in 238 high-interest cancer-susceptibility genes among patients with osteosarcoma compared with the control group (732 vs 994, respectively; P = 1.3 × 10-18). A pathogenic or likely pathogenic cancer-susceptibility gene variant was identified in 281 of 1004 patients with osteosarcoma (28.0%), of which nearly three-quarters had a variant that mapped to an autosomal-dominant gene or a known osteosarcoma-associated cancer predisposition syndrome gene. The frequency of a pathogenic or likely pathogenic cancer-susceptibility gene variant was 128 of 1062 individuals (12.1%) in the control group and 2527 of 27 173 individuals (9.3%) in the ExAC group. A higher than expected frequency of pathogenic or likely pathogenic variants was observed in genes not previously linked to osteosarcoma (eg, CDKN2A, MEN1, VHL, POT1, APC, MSH2, and ATRX) and in the Li-Fraumeni syndrome-associated gene, TP53. Conclusions and Relevance: In this study, approximately one-fourth of patients with osteosarcoma unselected for family history had a highly penetrant germline mutation requiring additional follow-up analysis and possible genetic counseling with cascade testing.
Importance: Osteosarcoma, the most common malignant bone tumor in children and adolescents, occurs in a high number of cancer predisposition syndromes that are defined by highly penetrant germline mutations. The germline genetic susceptibility to osteosarcoma outside of familial cancer syndromes remains unclear. Objective: To investigate the germline genetic architecture of 1244 patients with osteosarcoma. Design, Setting, and Participants: Whole-exome sequencing (n = 1104) or targeted sequencing (n = 140) of the DNA of 1244 patients with osteosarcoma from 10 participating international centers or studies was conducted from April 21, 2014, to September 1, 2017. The results were compared with the DNA of 1062 individuals without cancer assembled internally from 4 participating studies who underwent comparable whole-exome sequencing and 27 173 individuals of non-Finnish European ancestry who were identified through the Exome Aggregation Consortium (ExAC) database. In the analysis, 238 high-interest cancer-susceptibility genes were assessed followed by testing of the mutational burden across 736 additional candidate genes. Principal component analyses were used to identify 732 European patients with osteosarcoma and 994 European individuals without cancer, with outliers removed for patient-control group comparisons. Patients were subsequently compared with individuals in the ExAC group. All data were analyzed from June 1, 2017, to July 1, 2019. Main Outcomes and Measures: The frequency of rare pathogenic or likely pathogenic genetic variants. Results: Among 1244 patients with osteosarcoma (mean [SD] age at diagnosis, 16 [8.9] years [range, 2-80 years]; 684 patients [55.0%] were male), an analysis restricted to individuals with European ancestry indicated a significantly higher pathogenic or likely pathogenic variant burden in 238 high-interest cancer-susceptibility genes among patients with osteosarcoma compared with the control group (732 vs 994, respectively; P = 1.3 × 10-18). A pathogenic or likely pathogenic cancer-susceptibility gene variant was identified in 281 of 1004 patients with osteosarcoma (28.0%), of which nearly three-quarters had a variant that mapped to an autosomal-dominant gene or a known osteosarcoma-associated cancer predisposition syndrome gene. The frequency of a pathogenic or likely pathogenic cancer-susceptibility gene variant was 128 of 1062 individuals (12.1%) in the control group and 2527 of 27 173 individuals (9.3%) in the ExAC group. A higher than expected frequency of pathogenic or likely pathogenic variants was observed in genes not previously linked to osteosarcoma (eg, CDKN2A, MEN1, VHL, POT1, APC, MSH2, and ATRX) and in the Li-Fraumeni syndrome-associated gene, TP53. Conclusions and Relevance: In this study, approximately one-fourth of patients with osteosarcoma unselected for family history had a highly penetrant germline mutation requiring additional follow-up analysis and possible genetic counseling with cascade testing.
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