Whole genome sequencing defines the genetic heterogeneity of familial pancreatic cancer

Nicholas J. Roberts; Alexis L. Norris; Gloria M. Petersen; Melissa L. Bondy; Randall Brand; Steven Gallinger; Robert C. Kurtz; Sara H. Olson; Anil K. Rustgi; Ann G. Schwartz; Elena Stoffel; Sapna Syngal; George Zogopoulos; Syed Z. Ali; Jennifer Axilbund; Kari G. Chaffee; Yun Ching Chen; Michele L. Cote; Erica J. Childs; Christopher Douville; Fernando S. Goes; Joseph M. Herman; Christine Iacobuzio-Donahue; Melissa Kramer; Alvin Makohon-Moore; Richard W. McCombie; K. Wyatt Mcmahon; Noushin Niknafs; Jennifer Parla; Mehdi Pirooznia; James B. Potash; Andrew D. Rhim; Alyssa L. Smith; Yuxuan Wang; Christopher L. Wolfgang; Laura D. Wood; Peter P. Zandi; Michael Goggins; Rachel Karchin; James R. Eshleman; Nickolas Papadopoulos; Kenneth W. Kinzler; Bert Vogelstein; Ralph H. Hruban; Alison P. Klein

doi:10.1158/2159-8290.CD-15-0402

Whole genome sequencing defines the genetic heterogeneity of familial pancreatic cancer

Nicholas J. Roberts, Alexis L. Norris, Gloria M. Petersen, Melissa L. Bondy, Randall Brand, Steven Gallinger, Robert C. Kurtz, Sara H. Olson, Anil K. Rustgi, Ann G. Schwartz, Elena Stoffel, Sapna Syngal, George Zogopoulos, Syed Z. Ali, Jennifer Axilbund, Kari G. Chaffee, Yun Ching Chen, Michele L. Cote, Erica J. Childs, Christopher DouvilleFernando S. Goes, Joseph M. Herman, Christine Iacobuzio-Donahue, Melissa Kramer, Alvin Makohon-Moore, Richard W. McCombie, K. Wyatt Mcmahon, Noushin Niknafs, Jennifer Parla, Mehdi Pirooznia, James B. Potash, Andrew D. Rhim, Alyssa L. Smith, Yuxuan Wang, Christopher L. Wolfgang, Laura D. Wood, Peter P. Zandi, Michael Goggins, Rachel Karchin, James R. Eshleman, Nickolas Papadopoulos, Kenneth W. Kinzler, Bert Vogelstein, Ralph H. Hruban, Alison P. Klein

Quantitative Health Sciences

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163 Scopus citations

Abstract

Pancreatic cancer is projected to become the second leading cause of cancerrelated death in the United States by 2020. A familial aggregation of pancreatic cancer has been established, but the cause of this aggregation in most families is unknown. To determine the genetic basis of susceptibility in these families, we sequenced the germline genomes of 638 patients with familial pancreatic cancer and the tumor exomes of 39 familial pancreatic adenocarcinomas. Our analyses support the role of previously identified familial pancreatic cancer susceptibility genes such as BRCA2, CDKN2A, and ATM, and identify novel candidate genes harboring rare, deleterious germline variants for further characterization. We also show how somatic point mutations that occur during hematopoiesis can affect the interpretation of genome-wide studies of hereditary traits. Our observations have important implications for the etiology of pancreatic cancer and for the identification of susceptibility genes in other common cancer types.SIGNIFICANCE: The genetic basis of disease susceptibility in the majority of patients with familial pancreatic cancer is unknown. We whole genome sequenced 638 patients with familial pancreatic cancer and demonstrate that the genetic underpinning of inherited pancreatic cancer is highly heterogeneous. This has signifi cant implications for the management of patients with familial pancreatic cancer.

Original language	English (US)
Pages (from-to)	166-175
Number of pages	10
Journal	Cancer discovery
Volume	6
Issue number	2
DOIs	https://doi.org/10.1158/2159-8290.CD-15-0402
State	Published - Feb 2016

ASJC Scopus subject areas

Oncology

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Roberts, N. J., Norris, A. L., Petersen, G. M., Bondy, M. L., Brand, R., Gallinger, S., Kurtz, R. C., Olson, S. H., Rustgi, A. K., Schwartz, A. G., Stoffel, E., Syngal, S., Zogopoulos, G., Ali, S. Z., Axilbund, J., Chaffee, K. G., Chen, Y. C., Cote, M. L., Childs, E. J., ... Klein, A. P. (2016). Whole genome sequencing defines the genetic heterogeneity of familial pancreatic cancer. Cancer discovery, 6(2), 166-175. https://doi.org/10.1158/2159-8290.CD-15-0402

Roberts, NJ, Norris, AL, Petersen, GM, Bondy, ML, Brand, R, Gallinger, S, Kurtz, RC, Olson, SH, Rustgi, AK, Schwartz, AG, Stoffel, E, Syngal, S, Zogopoulos, G, Ali, SZ, Axilbund, J, Chaffee, KG, Chen, YC, Cote, ML, Childs, EJ, Douville, C, Goes, FS, Herman, JM, Iacobuzio-Donahue, C, Kramer, M, Makohon-Moore, A, McCombie, RW, Wyatt Mcmahon, K, Niknafs, N, Parla, J, Pirooznia, M, Potash, JB, Rhim, AD, Smith, AL, Wang, Y, Wolfgang, CL, Wood, LD, Zandi, PP, Goggins, M, Karchin, R, Eshleman, JR, Papadopoulos, N, Kinzler, KW, Vogelstein, B, Hruban, RH & Klein, AP 2016, 'Whole genome sequencing defines the genetic heterogeneity of familial pancreatic cancer', Cancer discovery, vol. 6, no. 2, pp. 166-175. https://doi.org/10.1158/2159-8290.CD-15-0402

@article{1de4bd0f9d114b259d2110c11e6e71b1,

title = "Whole genome sequencing defines the genetic heterogeneity of familial pancreatic cancer",

abstract = "Pancreatic cancer is projected to become the second leading cause of cancerrelated death in the United States by 2020. A familial aggregation of pancreatic cancer has been established, but the cause of this aggregation in most families is unknown. To determine the genetic basis of susceptibility in these families, we sequenced the germline genomes of 638 patients with familial pancreatic cancer and the tumor exomes of 39 familial pancreatic adenocarcinomas. Our analyses support the role of previously identified familial pancreatic cancer susceptibility genes such as BRCA2, CDKN2A, and ATM, and identify novel candidate genes harboring rare, deleterious germline variants for further characterization. We also show how somatic point mutations that occur during hematopoiesis can affect the interpretation of genome-wide studies of hereditary traits. Our observations have important implications for the etiology of pancreatic cancer and for the identification of susceptibility genes in other common cancer types.SIGNIFICANCE: The genetic basis of disease susceptibility in the majority of patients with familial pancreatic cancer is unknown. We whole genome sequenced 638 patients with familial pancreatic cancer and demonstrate that the genetic underpinning of inherited pancreatic cancer is highly heterogeneous. This has signifi cant implications for the management of patients with familial pancreatic cancer.",

author = "Roberts, {Nicholas J.} and Norris, {Alexis L.} and Petersen, {Gloria M.} and Bondy, {Melissa L.} and Randall Brand and Steven Gallinger and Kurtz, {Robert C.} and Olson, {Sara H.} and Rustgi, {Anil K.} and Schwartz, {Ann G.} and Elena Stoffel and Sapna Syngal and George Zogopoulos and Ali, {Syed Z.} and Jennifer Axilbund and Chaffee, {Kari G.} and Chen, {Yun Ching} and Cote, {Michele L.} and Childs, {Erica J.} and Christopher Douville and Goes, {Fernando S.} and Herman, {Joseph M.} and Christine Iacobuzio-Donahue and Melissa Kramer and Alvin Makohon-Moore and McCombie, {Richard W.} and {Wyatt Mcmahon}, K. and Noushin Niknafs and Jennifer Parla and Mehdi Pirooznia and Potash, {James B.} and Rhim, {Andrew D.} and Smith, {Alyssa L.} and Yuxuan Wang and Wolfgang, {Christopher L.} and Wood, {Laura D.} and Zandi, {Peter P.} and Michael Goggins and Rachel Karchin and Eshleman, {James R.} and Nickolas Papadopoulos and Kinzler, {Kenneth W.} and Bert Vogelstein and Hruban, {Ralph H.} and Klein, {Alison P.}",

note = "Publisher Copyright: {\textcopyright} 2015 American Association for Cancer Research.",

year = "2016",

month = feb,

doi = "10.1158/2159-8290.CD-15-0402",

language = "English (US)",

volume = "6",

pages = "166--175",

journal = "Cancer discovery",

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publisher = "American Association for Cancer Research Inc.",

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T1 - Whole genome sequencing defines the genetic heterogeneity of familial pancreatic cancer

AU - Roberts, Nicholas J.

AU - Norris, Alexis L.

AU - Petersen, Gloria M.

AU - Bondy, Melissa L.

AU - Brand, Randall

AU - Gallinger, Steven

AU - Kurtz, Robert C.

AU - Olson, Sara H.

AU - Rustgi, Anil K.

AU - Schwartz, Ann G.

AU - Stoffel, Elena

AU - Syngal, Sapna

AU - Zogopoulos, George

AU - Ali, Syed Z.

AU - Axilbund, Jennifer

AU - Chaffee, Kari G.

AU - Chen, Yun Ching

AU - Cote, Michele L.

AU - Childs, Erica J.

AU - Douville, Christopher

AU - Goes, Fernando S.

AU - Herman, Joseph M.

AU - Iacobuzio-Donahue, Christine

AU - Kramer, Melissa

AU - Makohon-Moore, Alvin

AU - McCombie, Richard W.

AU - Wyatt Mcmahon, K.

AU - Niknafs, Noushin

AU - Parla, Jennifer

AU - Pirooznia, Mehdi

AU - Potash, James B.

AU - Rhim, Andrew D.

AU - Smith, Alyssa L.

AU - Wang, Yuxuan

AU - Wolfgang, Christopher L.

AU - Wood, Laura D.

AU - Zandi, Peter P.

AU - Goggins, Michael

AU - Karchin, Rachel

AU - Eshleman, James R.

AU - Papadopoulos, Nickolas

AU - Kinzler, Kenneth W.

AU - Vogelstein, Bert

AU - Hruban, Ralph H.

AU - Klein, Alison P.

PY - 2016/2

Y1 - 2016/2

N2 - Pancreatic cancer is projected to become the second leading cause of cancerrelated death in the United States by 2020. A familial aggregation of pancreatic cancer has been established, but the cause of this aggregation in most families is unknown. To determine the genetic basis of susceptibility in these families, we sequenced the germline genomes of 638 patients with familial pancreatic cancer and the tumor exomes of 39 familial pancreatic adenocarcinomas. Our analyses support the role of previously identified familial pancreatic cancer susceptibility genes such as BRCA2, CDKN2A, and ATM, and identify novel candidate genes harboring rare, deleterious germline variants for further characterization. We also show how somatic point mutations that occur during hematopoiesis can affect the interpretation of genome-wide studies of hereditary traits. Our observations have important implications for the etiology of pancreatic cancer and for the identification of susceptibility genes in other common cancer types.SIGNIFICANCE: The genetic basis of disease susceptibility in the majority of patients with familial pancreatic cancer is unknown. We whole genome sequenced 638 patients with familial pancreatic cancer and demonstrate that the genetic underpinning of inherited pancreatic cancer is highly heterogeneous. This has signifi cant implications for the management of patients with familial pancreatic cancer.

AB - Pancreatic cancer is projected to become the second leading cause of cancerrelated death in the United States by 2020. A familial aggregation of pancreatic cancer has been established, but the cause of this aggregation in most families is unknown. To determine the genetic basis of susceptibility in these families, we sequenced the germline genomes of 638 patients with familial pancreatic cancer and the tumor exomes of 39 familial pancreatic adenocarcinomas. Our analyses support the role of previously identified familial pancreatic cancer susceptibility genes such as BRCA2, CDKN2A, and ATM, and identify novel candidate genes harboring rare, deleterious germline variants for further characterization. We also show how somatic point mutations that occur during hematopoiesis can affect the interpretation of genome-wide studies of hereditary traits. Our observations have important implications for the etiology of pancreatic cancer and for the identification of susceptibility genes in other common cancer types.SIGNIFICANCE: The genetic basis of disease susceptibility in the majority of patients with familial pancreatic cancer is unknown. We whole genome sequenced 638 patients with familial pancreatic cancer and demonstrate that the genetic underpinning of inherited pancreatic cancer is highly heterogeneous. This has signifi cant implications for the management of patients with familial pancreatic cancer.

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AN - SCOPUS:84957084270

SN - 2159-8274

VL - 6

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JO - Cancer discovery

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ER -

Whole genome sequencing defines the genetic heterogeneity of familial pancreatic cancer

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