Abstract 4871: Whole-exome sequencing identifies a high frequency of germline deleterious variants in cancer predisposition genes in individuals with osteosarcoma

Abstract

Abstract In children and adolescents, osteosarcoma (OS) is the most common malignant bone tumor. OS occurs in certain cancer predisposition syndromes at a higher than expected frequency. However, outside of these rare syndromes, OS is significantly more common and its genetic etiology remains poorly understood. We conducted an evaluation of rare exonic variants in 545 unselected OS cases compared with 1061 cancer-free controls using whole-exome sequencing of blood or buccal cell DNA to estimate the prevalence and burden of rare deleterious germline variants. We assessed potentially pathogenic rare variants in 126 established cancer predisposing genes (CPG) and known somatically mutated genes. We also surveyed the exome for genes with a higher burden of rare variants in 342 EUR cases with 994 EUR controls sequenced at the same time. Rare genetic variants, defined by a MAF <0.01 in 1000G, ESP or ExAC, that passed quality control filters were classified based on well-annotated databases (IARC-TP53, Telomerase Database, ARUP, BIC, Insight and COSMIC-hotspots), variant databases (e.g. Clinvar, HGMD and LOVD), and in silico predictions (Sift, Polyphen, Mutation assessor, MutationTaster, FATHMM and LTR). Rare variants matching known pathogenic variants, or inexact matches at the same residue, in selected well-annotated databases were labeled as putative pathogenic variants. High impact variants (frameshift, stop gain/loss, or known splice sites) not matching a previously identified pathogenic variant in the selected databases were categorized as probably pathogenic. Predictions based solely on in silico predictions were categorized as possibly pathogenic, uncertain or likely benign. A total of 14.5% of cases had a predicted pathogenic or high impact variant in an autosomal dominant CPG. A significantly higher pathogenic rare variant burden was present in EUR cases compared with EUR controls (Pburden=3.7x10-05). TP53 had the highest prevalence of pathogenic mutations (5% of EUR cases; Pburden=1.05x10-09). CDKN2A, MEN1, MLH1, MUTYH, PALB2 and VHL had a significantly higher rare variant burden in the EUR cases. 7.5% of cases had a predicted pathogenic or probably pathogenic variant in an autosomal recessive CPG (Pburden=5.4x10-03). Additionally, two males had a pathogenic variant in the X-linked genes, DKC1 and GPC3. In total, 21% of cases had a predicted pathogenic or high impact variant in a CPG (Pburden=2.4x10-07). Exome-wide analysis identified two novel genes with significantly higher rare variant burdens in the cases compared to controls. In conclusion, several CPGs and two novel genes, not previously associated with OS, had an enrichment of rare variants in OS and warrant further follow-up. Our results indicate that a clinically significant fraction of OS cases may harbor one or more mutations worthy of consideration for further investigation and genetic counseling. Citation Format: Roelof Koster, Bin Zhu, Meredith Yeager, Michael Dean, Matthew Gianferante, Lei Song, Joshua Sampson, NCI DCEG Cancer Genomics Research Laboratory, Julie Gastier-Foster, Richard Gorlick, Silvia Regina Caminada de Toledo, Antonio Petrilli, Ana Patiño-Garcia, Fernando Lecanda, Massimo Serra, Claudia Hattinger, Piero Picci, Katia Scotlandi, Adrienne Flanagan, Roberto Tirabosco, Maria Amary, Nilgün Kurucu, Inci Ergurhan Ilhan, Neriman Sari, Mandy Ballinger, David Thomas, Donald Barkauskas, Belynda Hicks, Margaret Tucker, Neil Caporaso, Robert Hoover, Stephen Chanock, Sharon Savage, Lisa Mirabello. Whole-exome sequencing identifies a high frequency of germline deleterious variants in cancer predisposition genes in individuals with osteosarcoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 4871. doi:10.1158/1538-7445.AM2017-4871