Identification of a novel TP53 cancer susceptibility mutation through whole-genome sequencing of a patient with therapy-related AML

Daniel C. Link; Laura G. Schuettpelz; Dong Shen; Jinling Wang; Matthew J. Walter; Shashikant Kulkarni; Jacqueline E. Payton; Jennifer Ivanovich; Paul J. Goodfellow; Michelle Le Beau; Daniel C. Koboldt; David J. Dooling; Robert S. Fulton; R. Hugh F. Bender; Lucinda L. Fulton; Kimberly D. Delehaunty; Catrina C. Fronick; Elizabeth L. Appelbaum; Heather Schmidt; Rachel Abbott; Michelle O'Laughlin; Ken Chen; Michael D. McLellan; Nobish Varghese; Rakesh Nagarajan; Sharon Heath; Timothy A. Graubert; Li Ding; Timothy J. Ley; Gerard P. Zambetti; Richard K. Wilson; Elaine R. Mardis

doi:10.1001/jama.2011.473

Identification of a novel TP53 cancer susceptibility mutation through whole-genome sequencing of a patient with therapy-related AML

Daniel C. Link, Laura G. Schuettpelz, Dong Shen, Jinling Wang, Matthew J. Walter, Shashikant Kulkarni, Jacqueline E. Payton, Jennifer Ivanovich, Paul J. Goodfellow, Michelle Le Beau, Daniel C. Koboldt, David J. Dooling, Robert S. Fulton, R. Hugh F. Bender, Lucinda L. Fulton, Kimberly D. Delehaunty, Catrina C. Fronick, Elizabeth L. Appelbaum, Heather Schmidt, Rachel AbbottMichelle O'Laughlin, Ken Chen, Michael D. McLellan, Nobish Varghese, Rakesh Nagarajan, Sharon Heath, Timothy A. Graubert, Li Ding, Timothy J. Ley, Gerard P. Zambetti, Richard K. Wilson, Elaine R. Mardis

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

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Abstract

Context The identification of patients with inherited cancer susceptibility syndromes facilitates early diagnosis, prevention, and treatment. However, in many cases of suspected cancer susceptibility, the family history is unclear and genetic testing of common cancer susceptibility genes is unrevealing. Objective Toapply whole-genome sequencing toa patient without any significant family history of cancer but with suspected increased cancer susceptibility because of multiple primary tumors to identify rare or novel germline variants in cancer susceptibility genes. Design, Setting, and Participant Skin (normal) and bone marrow (leukemia) DNA wereobtainedfromapatientwithearly-onset breastandovarian cancer (negative forBRCA1 andBRCA2mutations) and therapy-related acute myeloid leukemia (t-AML) and analyzed with the following: whole-genome sequencing using paired-end reads, single-nucleotide polymorphism (SNP) genotyping, RNA expression profiling, and spectral karyotyping. Main Outcome Measures Structural variants, copy number alterations, singlenucleotide variants, and small insertions and deletions (indels) were detected and validated using the described platforms. Results Whole-genome sequencing revealed a novel, heterozygous 3-kilobase deletion removing exons 7-9 of TP53 in the patient's normal skin DNA, which was homozygous in the leukemiaDNAas a result of uniparental disomy. In addition, a total of 28 validated somatic single-nucleotide variations or indels in coding genes, 8 somatic structural variants, and 12 somatic copy number alterations were detected in the patient's leukemia genome. Conclusion Whole-genome sequencing can identify novel, cryptic variants in cancer susceptibility genes in addition to providing unbiased information on the spectrum of mutations in a cancer genome.

Original language	English (US)
Pages (from-to)	1568-1576
Number of pages	9
Journal	JAMA
Volume	305
Issue number	15
DOIs	https://doi.org/10.1001/jama.2011.473
State	Published - Apr 20 2011
Externally published	Yes

ASJC Scopus subject areas

General Medicine

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10.1001/jama.2011.473

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Link, D. C., Schuettpelz, L. G., Shen, D., Wang, J., Walter, M. J., Kulkarni, S., Payton, J. E., Ivanovich, J., Goodfellow, P. J., Le Beau, M., Koboldt, D. C., Dooling, D. J., Fulton, R. S., Bender, R. H. F., Fulton, L. L., Delehaunty, K. D., Fronick, C. C., Appelbaum, E. L., Schmidt, H., ... Mardis, E. R. (2011). Identification of a novel TP53 cancer susceptibility mutation through whole-genome sequencing of a patient with therapy-related AML. JAMA, 305(15), 1568-1576. https://doi.org/10.1001/jama.2011.473

Link, DC, Schuettpelz, LG, Shen, D, Wang, J, Walter, MJ, Kulkarni, S, Payton, JE, Ivanovich, J, Goodfellow, PJ, Le Beau, M, Koboldt, DC, Dooling, DJ, Fulton, RS, Bender, RHF, Fulton, LL, Delehaunty, KD, Fronick, CC, Appelbaum, EL, Schmidt, H, Abbott, R, O'Laughlin, M, Chen, K, McLellan, MD, Varghese, N, Nagarajan, R, Heath, S, Graubert, TA, Ding, L, Ley, TJ, Zambetti, GP, Wilson, RK & Mardis, ER 2011, 'Identification of a novel TP53 cancer susceptibility mutation through whole-genome sequencing of a patient with therapy-related AML', JAMA, vol. 305, no. 15, pp. 1568-1576. https://doi.org/10.1001/jama.2011.473

@article{6f9719767a0941d8965d24f7afe3fabf,

title = "Identification of a novel TP53 cancer susceptibility mutation through whole-genome sequencing of a patient with therapy-related AML",

abstract = "Context The identification of patients with inherited cancer susceptibility syndromes facilitates early diagnosis, prevention, and treatment. However, in many cases of suspected cancer susceptibility, the family history is unclear and genetic testing of common cancer susceptibility genes is unrevealing. Objective Toapply whole-genome sequencing toa patient without any significant family history of cancer but with suspected increased cancer susceptibility because of multiple primary tumors to identify rare or novel germline variants in cancer susceptibility genes. Design, Setting, and Participant Skin (normal) and bone marrow (leukemia) DNA wereobtainedfromapatientwithearly-onset breastandovarian cancer (negative forBRCA1 andBRCA2mutations) and therapy-related acute myeloid leukemia (t-AML) and analyzed with the following: whole-genome sequencing using paired-end reads, single-nucleotide polymorphism (SNP) genotyping, RNA expression profiling, and spectral karyotyping. Main Outcome Measures Structural variants, copy number alterations, singlenucleotide variants, and small insertions and deletions (indels) were detected and validated using the described platforms. Results Whole-genome sequencing revealed a novel, heterozygous 3-kilobase deletion removing exons 7-9 of TP53 in the patient's normal skin DNA, which was homozygous in the leukemiaDNAas a result of uniparental disomy. In addition, a total of 28 validated somatic single-nucleotide variations or indels in coding genes, 8 somatic structural variants, and 12 somatic copy number alterations were detected in the patient's leukemia genome. Conclusion Whole-genome sequencing can identify novel, cryptic variants in cancer susceptibility genes in addition to providing unbiased information on the spectrum of mutations in a cancer genome.",

author = "Link, {Daniel C.} and Schuettpelz, {Laura G.} and Dong Shen and Jinling Wang and Walter, {Matthew J.} and Shashikant Kulkarni and Payton, {Jacqueline E.} and Jennifer Ivanovich and Goodfellow, {Paul J.} and {Le Beau}, Michelle and Koboldt, {Daniel C.} and Dooling, {David J.} and Fulton, {Robert S.} and Bender, {R. Hugh F.} and Fulton, {Lucinda L.} and Delehaunty, {Kimberly D.} and Fronick, {Catrina C.} and Appelbaum, {Elizabeth L.} and Heather Schmidt and Rachel Abbott and Michelle O'Laughlin and Ken Chen and McLellan, {Michael D.} and Nobish Varghese and Rakesh Nagarajan and Sharon Heath and Graubert, {Timothy A.} and Li Ding and Ley, {Timothy J.} and Zambetti, {Gerard P.} and Wilson, {Richard K.} and Mardis, {Elaine R.}",

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month = apr,

day = "20",

doi = "10.1001/jama.2011.473",

language = "English (US)",

volume = "305",

pages = "1568--1576",

journal = "JAMA",

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TY - JOUR

T1 - Identification of a novel TP53 cancer susceptibility mutation through whole-genome sequencing of a patient with therapy-related AML

AU - Link, Daniel C.

AU - Schuettpelz, Laura G.

AU - Shen, Dong

AU - Wang, Jinling

AU - Walter, Matthew J.

AU - Kulkarni, Shashikant

AU - Payton, Jacqueline E.

AU - Ivanovich, Jennifer

AU - Goodfellow, Paul J.

AU - Le Beau, Michelle

AU - Koboldt, Daniel C.

AU - Dooling, David J.

AU - Fulton, Robert S.

AU - Bender, R. Hugh F.

AU - Fulton, Lucinda L.

AU - Delehaunty, Kimberly D.

AU - Fronick, Catrina C.

AU - Appelbaum, Elizabeth L.

AU - Schmidt, Heather

AU - Abbott, Rachel

AU - O'Laughlin, Michelle

AU - Chen, Ken

AU - McLellan, Michael D.

AU - Varghese, Nobish

AU - Nagarajan, Rakesh

AU - Heath, Sharon

AU - Graubert, Timothy A.

AU - Ding, Li

AU - Ley, Timothy J.

AU - Zambetti, Gerard P.

AU - Wilson, Richard K.

AU - Mardis, Elaine R.

PY - 2011/4/20

Y1 - 2011/4/20

N2 - Context The identification of patients with inherited cancer susceptibility syndromes facilitates early diagnosis, prevention, and treatment. However, in many cases of suspected cancer susceptibility, the family history is unclear and genetic testing of common cancer susceptibility genes is unrevealing. Objective Toapply whole-genome sequencing toa patient without any significant family history of cancer but with suspected increased cancer susceptibility because of multiple primary tumors to identify rare or novel germline variants in cancer susceptibility genes. Design, Setting, and Participant Skin (normal) and bone marrow (leukemia) DNA wereobtainedfromapatientwithearly-onset breastandovarian cancer (negative forBRCA1 andBRCA2mutations) and therapy-related acute myeloid leukemia (t-AML) and analyzed with the following: whole-genome sequencing using paired-end reads, single-nucleotide polymorphism (SNP) genotyping, RNA expression profiling, and spectral karyotyping. Main Outcome Measures Structural variants, copy number alterations, singlenucleotide variants, and small insertions and deletions (indels) were detected and validated using the described platforms. Results Whole-genome sequencing revealed a novel, heterozygous 3-kilobase deletion removing exons 7-9 of TP53 in the patient's normal skin DNA, which was homozygous in the leukemiaDNAas a result of uniparental disomy. In addition, a total of 28 validated somatic single-nucleotide variations or indels in coding genes, 8 somatic structural variants, and 12 somatic copy number alterations were detected in the patient's leukemia genome. Conclusion Whole-genome sequencing can identify novel, cryptic variants in cancer susceptibility genes in addition to providing unbiased information on the spectrum of mutations in a cancer genome.

AB - Context The identification of patients with inherited cancer susceptibility syndromes facilitates early diagnosis, prevention, and treatment. However, in many cases of suspected cancer susceptibility, the family history is unclear and genetic testing of common cancer susceptibility genes is unrevealing. Objective Toapply whole-genome sequencing toa patient without any significant family history of cancer but with suspected increased cancer susceptibility because of multiple primary tumors to identify rare or novel germline variants in cancer susceptibility genes. Design, Setting, and Participant Skin (normal) and bone marrow (leukemia) DNA wereobtainedfromapatientwithearly-onset breastandovarian cancer (negative forBRCA1 andBRCA2mutations) and therapy-related acute myeloid leukemia (t-AML) and analyzed with the following: whole-genome sequencing using paired-end reads, single-nucleotide polymorphism (SNP) genotyping, RNA expression profiling, and spectral karyotyping. Main Outcome Measures Structural variants, copy number alterations, singlenucleotide variants, and small insertions and deletions (indels) were detected and validated using the described platforms. Results Whole-genome sequencing revealed a novel, heterozygous 3-kilobase deletion removing exons 7-9 of TP53 in the patient's normal skin DNA, which was homozygous in the leukemiaDNAas a result of uniparental disomy. In addition, a total of 28 validated somatic single-nucleotide variations or indels in coding genes, 8 somatic structural variants, and 12 somatic copy number alterations were detected in the patient's leukemia genome. Conclusion Whole-genome sequencing can identify novel, cryptic variants in cancer susceptibility genes in addition to providing unbiased information on the spectrum of mutations in a cancer genome.

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Identification of a novel TP53 cancer susceptibility mutation through whole-genome sequencing of a patient with therapy-related AML

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