Diagnostic yield of clinical tumor and germline whole-exome sequencing for children with solid tumors

D. Williams Parsons; Angshumoy Roy; Yaping Yang; Tao Wang; Sarah Scollon; Katie Bergstrom; Robin A. Kerstein; Stephanie Gutierrez; Andrea K. Petersen; Abhishek Bavle; Frank Y. Lin; Dolores H. López-Terrada; Federico A. Monzon; M. John Hicks; Karen W. Eldin; Norma M. Quintanilla; Adekunle M. Adesina; Carrie A. Mohila; William Whitehead; Andrew Jea; Sanjeev A. Vasudevan; Jed G. Nuchtern; Uma Ramamurthy; Amy L. McGuire; Susan G. Hilsenbeck; Jeffrey G. Reid; Donna M. Muzny; David A. Wheeler; Stacey L. Berg; Murali M. Chintagumpala; Christine M. Eng; Richard A. Gibbs; Sharon E. Plon

doi:10.1001/jamaoncol.2015.5699

Diagnostic yield of clinical tumor and germline whole-exome sequencing for children with solid tumors

D. Williams Parsons, Angshumoy Roy, Yaping Yang, Tao Wang, Sarah Scollon, Katie Bergstrom, Robin A. Kerstein, Stephanie Gutierrez, Andrea K. Petersen, Abhishek Bavle, Frank Y. Lin, Dolores H. López-Terrada, Federico A. Monzon, M. John Hicks, Karen W. Eldin, Norma M. Quintanilla, Adekunle M. Adesina, Carrie A. Mohila, William Whitehead, Andrew JeaSanjeev A. Vasudevan, Jed G. Nuchtern, Uma Ramamurthy, Amy L. McGuire, Susan G. Hilsenbeck, Jeffrey G. Reid, Donna M. Muzny, David A. Wheeler, Stacey L. Berg, Murali M. Chintagumpala, Christine M. Eng, Richard A. Gibbs, Sharon E. Plon

School of Medicine

Research output: Contribution to journal › Article › peer-review

206 Scopus citations

Abstract

IMPORTANCE Whole-exome sequencing (WES) has the potential to reveal tumor and germline mutations of clinical relevance, but the diagnostic yield for pediatric patients with solid tumors is unknown. OBJECTIVE To characterize the diagnostic yield of combined tumor and germline WES for children with solid tumors. DESIGN Unselected children with newly diagnosed and previously untreated central nervous system (CNS) and non-CNS solid tumors were prospectively enrolled in the BASIC3 study at a large academic children's hospital during a 23-month period from August 2012 through June 2014. Blood and tumor samples underwent WES in a certified clinical laboratory with genetic results categorized on the basis of perceived clinical relevance and entered in the electronic health record. MAIN OUTCOMES AND MEASURES Clinical categorization of somatic mutations; frequencies of deleterious germline mutations related to patient phenotype and incidental medically-actionable mutations. RESULTS Of the first 150 participants (80 boys and 70 girls, mean age, 7.4 years), tumor samples adequate for WES were available from 121 patients (81%). Somatic mutations of established clinical utility (category I) were reported in 4 (3%) of 121 patients, with mutations of potential utility (category II) detected in an additional 29 (24%) of 121 patients. CTNNB1 was the gene most frequently mutated, with recurrent mutations in KIT, TSC2, and MAPK pathway genes (BRAF, KRAS, and NRAS) also identified. Mutations in consensus cancer genes (category III) were found in an additional 24 (20%) of 121 tumors. Fewer than half of somatic mutations identified were in genes known to be recurrently mutated in the tumor type tested. Diagnostic germline findings related to patient phenotype were discovered in 15 (10%) of 150 cases: 13 pathogenic or likely pathogenic dominant mutations in adult and pediatric cancer susceptibility genes (including 2 each in TP53, VHL, and BRCA1), 1 recessive liver disorder with hepatocellular carcinoma (TJP2), and 1 renal diagnosis (CLCN5). Incidental findings were reported in 8 (5%) of 150 patients. Most patients harbored germline uncertain variants in cancer genes (98%), pharmacogenetic variants (89%), and recessive carrier mutations (85%). CONCLUSIONS AND RELEVANCE Tumor and germline WES revealed mutations in a broad spectrum of genes previously implicated in both adult and pediatric cancers. Combined reporting of tumor and germline WES identified diagnostic and/or potentially actionable findings in nearly 40% of newly diagnosed pediatric patients with solid tumors.

Original language	English (US)
Pages (from-to)	616-624
Number of pages	9
Journal	JAMA Oncology
Volume	2
Issue number	5
DOIs	https://doi.org/10.1001/jamaoncol.2015.5699
State	Published - May 2016

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1001/jamaoncol.2015.5699

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Parsons, D. W., Roy, A., Yang, Y., Wang, T., Scollon, S., Bergstrom, K., Kerstein, R. A., Gutierrez, S., Petersen, A. K., Bavle, A., Lin, F. Y., López-Terrada, D. H., Monzon, F. A., Hicks, M. J., Eldin, K. W., Quintanilla, N. M., Adesina, A. M., Mohila, C. A., Whitehead, W., ... Plon, S. E. (2016). Diagnostic yield of clinical tumor and germline whole-exome sequencing for children with solid tumors. JAMA Oncology, 2(5), 616-624. https://doi.org/10.1001/jamaoncol.2015.5699

Parsons, DW, Roy, A, Yang, Y, Wang, T, Scollon, S, Bergstrom, K, Kerstein, RA, Gutierrez, S, Petersen, AK, Bavle, A, Lin, FY, López-Terrada, DH, Monzon, FA, Hicks, MJ, Eldin, KW, Quintanilla, NM, Adesina, AM, Mohila, CA, Whitehead, W, Jea, A, Vasudevan, SA, Nuchtern, JG, Ramamurthy, U, McGuire, AL, Hilsenbeck, SG, Reid, JG, Muzny, DM, Wheeler, DA, Berg, SL, Chintagumpala, MM, Eng, CM, Gibbs, RA & Plon, SE 2016, 'Diagnostic yield of clinical tumor and germline whole-exome sequencing for children with solid tumors', JAMA Oncology, vol. 2, no. 5, pp. 616-624. https://doi.org/10.1001/jamaoncol.2015.5699

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title = "Diagnostic yield of clinical tumor and germline whole-exome sequencing for children with solid tumors",

abstract = "IMPORTANCE Whole-exome sequencing (WES) has the potential to reveal tumor and germline mutations of clinical relevance, but the diagnostic yield for pediatric patients with solid tumors is unknown. OBJECTIVE To characterize the diagnostic yield of combined tumor and germline WES for children with solid tumors. DESIGN Unselected children with newly diagnosed and previously untreated central nervous system (CNS) and non-CNS solid tumors were prospectively enrolled in the BASIC3 study at a large academic children's hospital during a 23-month period from August 2012 through June 2014. Blood and tumor samples underwent WES in a certified clinical laboratory with genetic results categorized on the basis of perceived clinical relevance and entered in the electronic health record. MAIN OUTCOMES AND MEASURES Clinical categorization of somatic mutations; frequencies of deleterious germline mutations related to patient phenotype and incidental medically-actionable mutations. RESULTS Of the first 150 participants (80 boys and 70 girls, mean age, 7.4 years), tumor samples adequate for WES were available from 121 patients (81%). Somatic mutations of established clinical utility (category I) were reported in 4 (3%) of 121 patients, with mutations of potential utility (category II) detected in an additional 29 (24%) of 121 patients. CTNNB1 was the gene most frequently mutated, with recurrent mutations in KIT, TSC2, and MAPK pathway genes (BRAF, KRAS, and NRAS) also identified. Mutations in consensus cancer genes (category III) were found in an additional 24 (20%) of 121 tumors. Fewer than half of somatic mutations identified were in genes known to be recurrently mutated in the tumor type tested. Diagnostic germline findings related to patient phenotype were discovered in 15 (10%) of 150 cases: 13 pathogenic or likely pathogenic dominant mutations in adult and pediatric cancer susceptibility genes (including 2 each in TP53, VHL, and BRCA1), 1 recessive liver disorder with hepatocellular carcinoma (TJP2), and 1 renal diagnosis (CLCN5). Incidental findings were reported in 8 (5%) of 150 patients. Most patients harbored germline uncertain variants in cancer genes (98%), pharmacogenetic variants (89%), and recessive carrier mutations (85%). CONCLUSIONS AND RELEVANCE Tumor and germline WES revealed mutations in a broad spectrum of genes previously implicated in both adult and pediatric cancers. Combined reporting of tumor and germline WES identified diagnostic and/or potentially actionable findings in nearly 40% of newly diagnosed pediatric patients with solid tumors.",

author = "Parsons, {D. Williams} and Angshumoy Roy and Yaping Yang and Tao Wang and Sarah Scollon and Katie Bergstrom and Kerstein, {Robin A.} and Stephanie Gutierrez and Petersen, {Andrea K.} and Abhishek Bavle and Lin, {Frank Y.} and L{\'o}pez-Terrada, {Dolores H.} and Monzon, {Federico A.} and Hicks, {M. John} and Eldin, {Karen W.} and Quintanilla, {Norma M.} and Adesina, {Adekunle M.} and Mohila, {Carrie A.} and William Whitehead and Andrew Jea and Vasudevan, {Sanjeev A.} and Nuchtern, {Jed G.} and Uma Ramamurthy and McGuire, {Amy L.} and Hilsenbeck, {Susan G.} and Reid, {Jeffrey G.} and Muzny, {Donna M.} and Wheeler, {David A.} and Berg, {Stacey L.} and Chintagumpala, {Murali M.} and Eng, {Christine M.} and Gibbs, {Richard A.} and Plon, {Sharon E.}",

year = "2016",

month = may,

doi = "10.1001/jamaoncol.2015.5699",

language = "English (US)",

volume = "2",

pages = "616--624",

journal = "JAMA Oncology",

issn = "2374-2437",

publisher = "American Medical Association",

number = "5",

}

TY - JOUR

T1 - Diagnostic yield of clinical tumor and germline whole-exome sequencing for children with solid tumors

AU - Parsons, D. Williams

AU - Roy, Angshumoy

AU - Yang, Yaping

AU - Wang, Tao

AU - Scollon, Sarah

AU - Bergstrom, Katie

AU - Kerstein, Robin A.

AU - Gutierrez, Stephanie

AU - Petersen, Andrea K.

AU - Bavle, Abhishek

AU - Lin, Frank Y.

AU - López-Terrada, Dolores H.

AU - Monzon, Federico A.

AU - Hicks, M. John

AU - Eldin, Karen W.

AU - Quintanilla, Norma M.

AU - Adesina, Adekunle M.

AU - Mohila, Carrie A.

AU - Whitehead, William

AU - Jea, Andrew

AU - Vasudevan, Sanjeev A.

AU - Nuchtern, Jed G.

AU - Ramamurthy, Uma

AU - McGuire, Amy L.

AU - Hilsenbeck, Susan G.

AU - Reid, Jeffrey G.

AU - Muzny, Donna M.

AU - Wheeler, David A.

AU - Berg, Stacey L.

AU - Chintagumpala, Murali M.

AU - Eng, Christine M.

AU - Gibbs, Richard A.

AU - Plon, Sharon E.

PY - 2016/5

Y1 - 2016/5

N2 - IMPORTANCE Whole-exome sequencing (WES) has the potential to reveal tumor and germline mutations of clinical relevance, but the diagnostic yield for pediatric patients with solid tumors is unknown. OBJECTIVE To characterize the diagnostic yield of combined tumor and germline WES for children with solid tumors. DESIGN Unselected children with newly diagnosed and previously untreated central nervous system (CNS) and non-CNS solid tumors were prospectively enrolled in the BASIC3 study at a large academic children's hospital during a 23-month period from August 2012 through June 2014. Blood and tumor samples underwent WES in a certified clinical laboratory with genetic results categorized on the basis of perceived clinical relevance and entered in the electronic health record. MAIN OUTCOMES AND MEASURES Clinical categorization of somatic mutations; frequencies of deleterious germline mutations related to patient phenotype and incidental medically-actionable mutations. RESULTS Of the first 150 participants (80 boys and 70 girls, mean age, 7.4 years), tumor samples adequate for WES were available from 121 patients (81%). Somatic mutations of established clinical utility (category I) were reported in 4 (3%) of 121 patients, with mutations of potential utility (category II) detected in an additional 29 (24%) of 121 patients. CTNNB1 was the gene most frequently mutated, with recurrent mutations in KIT, TSC2, and MAPK pathway genes (BRAF, KRAS, and NRAS) also identified. Mutations in consensus cancer genes (category III) were found in an additional 24 (20%) of 121 tumors. Fewer than half of somatic mutations identified were in genes known to be recurrently mutated in the tumor type tested. Diagnostic germline findings related to patient phenotype were discovered in 15 (10%) of 150 cases: 13 pathogenic or likely pathogenic dominant mutations in adult and pediatric cancer susceptibility genes (including 2 each in TP53, VHL, and BRCA1), 1 recessive liver disorder with hepatocellular carcinoma (TJP2), and 1 renal diagnosis (CLCN5). Incidental findings were reported in 8 (5%) of 150 patients. Most patients harbored germline uncertain variants in cancer genes (98%), pharmacogenetic variants (89%), and recessive carrier mutations (85%). CONCLUSIONS AND RELEVANCE Tumor and germline WES revealed mutations in a broad spectrum of genes previously implicated in both adult and pediatric cancers. Combined reporting of tumor and germline WES identified diagnostic and/or potentially actionable findings in nearly 40% of newly diagnosed pediatric patients with solid tumors.

AB - IMPORTANCE Whole-exome sequencing (WES) has the potential to reveal tumor and germline mutations of clinical relevance, but the diagnostic yield for pediatric patients with solid tumors is unknown. OBJECTIVE To characterize the diagnostic yield of combined tumor and germline WES for children with solid tumors. DESIGN Unselected children with newly diagnosed and previously untreated central nervous system (CNS) and non-CNS solid tumors were prospectively enrolled in the BASIC3 study at a large academic children's hospital during a 23-month period from August 2012 through June 2014. Blood and tumor samples underwent WES in a certified clinical laboratory with genetic results categorized on the basis of perceived clinical relevance and entered in the electronic health record. MAIN OUTCOMES AND MEASURES Clinical categorization of somatic mutations; frequencies of deleterious germline mutations related to patient phenotype and incidental medically-actionable mutations. RESULTS Of the first 150 participants (80 boys and 70 girls, mean age, 7.4 years), tumor samples adequate for WES were available from 121 patients (81%). Somatic mutations of established clinical utility (category I) were reported in 4 (3%) of 121 patients, with mutations of potential utility (category II) detected in an additional 29 (24%) of 121 patients. CTNNB1 was the gene most frequently mutated, with recurrent mutations in KIT, TSC2, and MAPK pathway genes (BRAF, KRAS, and NRAS) also identified. Mutations in consensus cancer genes (category III) were found in an additional 24 (20%) of 121 tumors. Fewer than half of somatic mutations identified were in genes known to be recurrently mutated in the tumor type tested. Diagnostic germline findings related to patient phenotype were discovered in 15 (10%) of 150 cases: 13 pathogenic or likely pathogenic dominant mutations in adult and pediatric cancer susceptibility genes (including 2 each in TP53, VHL, and BRCA1), 1 recessive liver disorder with hepatocellular carcinoma (TJP2), and 1 renal diagnosis (CLCN5). Incidental findings were reported in 8 (5%) of 150 patients. Most patients harbored germline uncertain variants in cancer genes (98%), pharmacogenetic variants (89%), and recessive carrier mutations (85%). CONCLUSIONS AND RELEVANCE Tumor and germline WES revealed mutations in a broad spectrum of genes previously implicated in both adult and pediatric cancers. Combined reporting of tumor and germline WES identified diagnostic and/or potentially actionable findings in nearly 40% of newly diagnosed pediatric patients with solid tumors.

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Diagnostic yield of clinical tumor and germline whole-exome sequencing for children with solid tumors

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