Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls

Yuzhuo Wang; Olga Y. Gorlova; Ivan P. Gorlov; Meng Zhu; Juncheng Dai; Demetrius Albanes; Stephen Lam; Adonina Tardon; Chu Chen; Gary E. Goodman; Stig E. Bojesen; Maria Teresa Landi; Mattias Johansson; Angela Risch; Heunz Erich Wichmann; Heike Bickeboller; David C. Christiani; Gad Rennert; Susanne M. Arnold; Paul Brennan; John K. Field; Sanjay Shete; Loc Le Marchand; Olle Melander; Hans Brunnstrom; Geoffrey Liu; Rayjean J. Hung; Angeline S. Andrew; Lambertus A. Kiemeney; Shanbeh Zienolddiny; Kjell Grankvist; Mikael Johansson; Neil E. Caporaso; Penella J. Woll; Philip Lazarus; Matthew B. Schabath; Melinda C. Aldrich; Victoria L. Stevens; Hongxia Ma; Guangfu Jin; Zhibin Hu; Christopher I. Amos; Hongbing Shen

doi:10.1158/1055-9965.EPI-19-1085

Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls

Yuzhuo Wang, Olga Y. Gorlova, Ivan P. Gorlov, Meng Zhu, Juncheng Dai, Demetrius Albanes, Stephen Lam, Adonina Tardon, Chu Chen, Gary E. Goodman, Stig E. Bojesen, Maria Teresa Landi, Mattias Johansson, Angela Risch, Heunz Erich Wichmann, Heike Bickeboller, David C. Christiani, Gad Rennert, Susanne M. Arnold, Paul BrennanJohn K. Field, Sanjay Shete, Loc Le Marchand, Olle Melander, Hans Brunnstrom, Geoffrey Liu, Rayjean J. Hung, Angeline S. Andrew, Lambertus A. Kiemeney, Shanbeh Zienolddiny, Kjell Grankvist, Mikael Johansson, Neil E. Caporaso, Penella J. Woll, Philip Lazarus, Matthew B. Schabath, Melinda C. Aldrich, Victoria L. Stevens, Hongxia Ma, Guangfu Jin, Zhibin Hu, Christopher I. Amos, Hongbing Shen

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

3 Scopus citations

Abstract

Background: A substantial proportion of cancer driver genes (CDG) are also cancer predisposition genes. However, the associations between genetic variants in lung CDGs and the susceptibility to lung cancer have rarely been investigated. Methods: We selected expression-related single-nucleotide polymorphisms (eSNP) and nonsynonymous variants of lung CDGs, and tested their associations with lung cancer risk in two large-scale genome-wide association studies (20,871 cases and 15,971 controls of European descent). Conditional and joint association analysis was performed to identify independent risk variants. The associations of independent risk variants with somatic alterations in lung CDGs or recurrently altered pathways were investigated using data from The Cancer Genome Atlas (TCGA) project. Results: We identified seven independent SNPs in five lung CDGs that were consistently associated with lung cancer risk in discovery (P < 0.001) and validation (P < 0.05) stages. Among these loci, rs78062588 in TPM3 (1q21.3) was a new lung cancer susceptibility locus (OR ¼ 0.86, P ¼ 1.65 10⁶). Subgroup analysis by histologic types further identified nine lung CDGs. Analysis of somatic alterations found that in lung adenocarcinomas, rs78062588[C] allele (TPM3 in 1q21.3) was associated with elevated somatic copy number of TPM3 (OR ¼ 1.16, P ¼ 0.02). In lung adenocarcinomas, rs1611182 (HLA-A in 6p22.1) was associated with truncation mutations of the transcriptional misregulation in cancer pathway (OR ¼ 0.66, P ¼ 1.76 10³). Conclusions: Genetic variants can regulate functions of lung CDGs and influence lung cancer susceptibility. Impact: Our findings might help unravel biological mechanisms underlying lung cancer susceptibility.

Original language	English (US)
Pages (from-to)	1423-1429
Number of pages	7
Journal	Cancer Epidemiology Biomarkers and Prevention
Volume	29
Issue number	7
DOIs	https://doi.org/10.1158/1055-9965.EPI-19-1085
State	Published - Jul 2020

ASJC Scopus subject areas

Epidemiology
Oncology

MD Anderson CCSG core facilities

Biostatistics Resource Group

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10.1158/1055-9965.EPI-19-1085

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Wang, Y., Gorlova, O. Y., Gorlov, I. P., Zhu, M., Dai, J., Albanes, D., Lam, S., Tardon, A., Chen, C., Goodman, G. E., Bojesen, S. E., Landi, M. T., Johansson, M., Risch, A., Wichmann, H. E., Bickeboller, H., Christiani, D. C., Rennert, G., Arnold, S. M., ... Shen, H. (2020). Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls. Cancer Epidemiology Biomarkers and Prevention, 29(7), 1423-1429. https://doi.org/10.1158/1055-9965.EPI-19-1085

Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls. / Wang, Yuzhuo; Gorlova, Olga Y.; Gorlov, Ivan P. et al.
In: Cancer Epidemiology Biomarkers and Prevention, Vol. 29, No. 7, 07.2020, p. 1423-1429.

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

Wang, Y, Gorlova, OY, Gorlov, IP, Zhu, M, Dai, J, Albanes, D, Lam, S, Tardon, A, Chen, C, Goodman, GE, Bojesen, SE, Landi, MT, Johansson, M, Risch, A, Wichmann, HE, Bickeboller, H, Christiani, DC, Rennert, G, Arnold, SM, Brennan, P, Field, JK, Shete, S, Le Marchand, L, Melander, O, Brunnstrom, H, Liu, G, Hung, RJ, Andrew, AS, Kiemeney, LA, Zienolddiny, S, Grankvist, K, Johansson, M, Caporaso, NE, Woll, PJ, Lazarus, P, Schabath, MB, Aldrich, MC, Stevens, VL, Ma, H, Jin, G, Hu, Z, Amos, CI & Shen, H 2020, 'Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls', Cancer Epidemiology Biomarkers and Prevention, vol. 29, no. 7, pp. 1423-1429. https://doi.org/10.1158/1055-9965.EPI-19-1085

@article{54c6234cfde241d0a709e1124e4f3cf9,

title = "Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls",

abstract = "Background: A substantial proportion of cancer driver genes (CDG) are also cancer predisposition genes. However, the associations between genetic variants in lung CDGs and the susceptibility to lung cancer have rarely been investigated. Methods: We selected expression-related single-nucleotide polymorphisms (eSNP) and nonsynonymous variants of lung CDGs, and tested their associations with lung cancer risk in two large-scale genome-wide association studies (20,871 cases and 15,971 controls of European descent). Conditional and joint association analysis was performed to identify independent risk variants. The associations of independent risk variants with somatic alterations in lung CDGs or recurrently altered pathways were investigated using data from The Cancer Genome Atlas (TCGA) project. Results: We identified seven independent SNPs in five lung CDGs that were consistently associated with lung cancer risk in discovery (P < 0.001) and validation (P < 0.05) stages. Among these loci, rs78062588 in TPM3 (1q21.3) was a new lung cancer susceptibility locus (OR ¼ 0.86, P ¼ 1.65 106). Subgroup analysis by histologic types further identified nine lung CDGs. Analysis of somatic alterations found that in lung adenocarcinomas, rs78062588[C] allele (TPM3 in 1q21.3) was associated with elevated somatic copy number of TPM3 (OR ¼ 1.16, P ¼ 0.02). In lung adenocarcinomas, rs1611182 (HLA-A in 6p22.1) was associated with truncation mutations of the transcriptional misregulation in cancer pathway (OR ¼ 0.66, P ¼ 1.76 103). Conclusions: Genetic variants can regulate functions of lung CDGs and influence lung cancer susceptibility. Impact: Our findings might help unravel biological mechanisms underlying lung cancer susceptibility.",

author = "Yuzhuo Wang and Gorlova, {Olga Y.} and Gorlov, {Ivan P.} and Meng Zhu and Juncheng Dai and Demetrius Albanes and Stephen Lam and Adonina Tardon and Chu Chen and Goodman, {Gary E.} and Bojesen, {Stig E.} and Landi, {Maria Teresa} and Mattias Johansson and Angela Risch and Wichmann, {Heunz Erich} and Heike Bickeboller and Christiani, {David C.} and Gad Rennert and Arnold, {Susanne M.} and Paul Brennan and Field, {John K.} and Sanjay Shete and {Le Marchand}, Loc and Olle Melander and Hans Brunnstrom and Geoffrey Liu and Hung, {Rayjean J.} and Andrew, {Angeline S.} and Kiemeney, {Lambertus A.} and Shanbeh Zienolddiny and Kjell Grankvist and Mikael Johansson and Caporaso, {Neil E.} and Woll, {Penella J.} and Philip Lazarus and Schabath, {Matthew B.} and Aldrich, {Melinda C.} and Stevens, {Victoria L.} and Hongxia Ma and Guangfu Jin and Zhibin Hu and Amos, {Christopher I.} and Hongbing Shen",

note = "Publisher Copyright: {\textcopyright} 2020 American Association for Cancer Research.",

year = "2020",

month = jul,

doi = "10.1158/1055-9965.EPI-19-1085",

language = "English (US)",

volume = "29",

pages = "1423--1429",

journal = "Cancer Epidemiology Biomarkers and Prevention",

issn = "1055-9965",

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

number = "7",

}

TY - JOUR

T1 - Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls

AU - Wang, Yuzhuo

AU - Gorlova, Olga Y.

AU - Gorlov, Ivan P.

AU - Zhu, Meng

AU - Dai, Juncheng

AU - Albanes, Demetrius

AU - Lam, Stephen

AU - Tardon, Adonina

AU - Chen, Chu

AU - Goodman, Gary E.

AU - Bojesen, Stig E.

AU - Landi, Maria Teresa

AU - Johansson, Mattias

AU - Risch, Angela

AU - Wichmann, Heunz Erich

AU - Bickeboller, Heike

AU - Christiani, David C.

AU - Rennert, Gad

AU - Arnold, Susanne M.

AU - Brennan, Paul

AU - Field, John K.

AU - Shete, Sanjay

AU - Le Marchand, Loc

AU - Melander, Olle

AU - Brunnstrom, Hans

AU - Liu, Geoffrey

AU - Hung, Rayjean J.

AU - Andrew, Angeline S.

AU - Kiemeney, Lambertus A.

AU - Zienolddiny, Shanbeh

AU - Grankvist, Kjell

AU - Johansson, Mikael

AU - Caporaso, Neil E.

AU - Woll, Penella J.

AU - Lazarus, Philip

AU - Schabath, Matthew B.

AU - Aldrich, Melinda C.

AU - Stevens, Victoria L.

AU - Ma, Hongxia

AU - Jin, Guangfu

AU - Hu, Zhibin

AU - Amos, Christopher I.

AU - Shen, Hongbing

PY - 2020/7

Y1 - 2020/7

N2 - Background: A substantial proportion of cancer driver genes (CDG) are also cancer predisposition genes. However, the associations between genetic variants in lung CDGs and the susceptibility to lung cancer have rarely been investigated. Methods: We selected expression-related single-nucleotide polymorphisms (eSNP) and nonsynonymous variants of lung CDGs, and tested their associations with lung cancer risk in two large-scale genome-wide association studies (20,871 cases and 15,971 controls of European descent). Conditional and joint association analysis was performed to identify independent risk variants. The associations of independent risk variants with somatic alterations in lung CDGs or recurrently altered pathways were investigated using data from The Cancer Genome Atlas (TCGA) project. Results: We identified seven independent SNPs in five lung CDGs that were consistently associated with lung cancer risk in discovery (P < 0.001) and validation (P < 0.05) stages. Among these loci, rs78062588 in TPM3 (1q21.3) was a new lung cancer susceptibility locus (OR ¼ 0.86, P ¼ 1.65 106). Subgroup analysis by histologic types further identified nine lung CDGs. Analysis of somatic alterations found that in lung adenocarcinomas, rs78062588[C] allele (TPM3 in 1q21.3) was associated with elevated somatic copy number of TPM3 (OR ¼ 1.16, P ¼ 0.02). In lung adenocarcinomas, rs1611182 (HLA-A in 6p22.1) was associated with truncation mutations of the transcriptional misregulation in cancer pathway (OR ¼ 0.66, P ¼ 1.76 103). Conclusions: Genetic variants can regulate functions of lung CDGs and influence lung cancer susceptibility. Impact: Our findings might help unravel biological mechanisms underlying lung cancer susceptibility.

AB - Background: A substantial proportion of cancer driver genes (CDG) are also cancer predisposition genes. However, the associations between genetic variants in lung CDGs and the susceptibility to lung cancer have rarely been investigated. Methods: We selected expression-related single-nucleotide polymorphisms (eSNP) and nonsynonymous variants of lung CDGs, and tested their associations with lung cancer risk in two large-scale genome-wide association studies (20,871 cases and 15,971 controls of European descent). Conditional and joint association analysis was performed to identify independent risk variants. The associations of independent risk variants with somatic alterations in lung CDGs or recurrently altered pathways were investigated using data from The Cancer Genome Atlas (TCGA) project. Results: We identified seven independent SNPs in five lung CDGs that were consistently associated with lung cancer risk in discovery (P < 0.001) and validation (P < 0.05) stages. Among these loci, rs78062588 in TPM3 (1q21.3) was a new lung cancer susceptibility locus (OR ¼ 0.86, P ¼ 1.65 106). Subgroup analysis by histologic types further identified nine lung CDGs. Analysis of somatic alterations found that in lung adenocarcinomas, rs78062588[C] allele (TPM3 in 1q21.3) was associated with elevated somatic copy number of TPM3 (OR ¼ 1.16, P ¼ 0.02). In lung adenocarcinomas, rs1611182 (HLA-A in 6p22.1) was associated with truncation mutations of the transcriptional misregulation in cancer pathway (OR ¼ 0.66, P ¼ 1.76 103). Conclusions: Genetic variants can regulate functions of lung CDGs and influence lung cancer susceptibility. Impact: Our findings might help unravel biological mechanisms underlying lung cancer susceptibility.

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UR - http://www.scopus.com/inward/citedby.url?scp=85087469658&partnerID=8YFLogxK

U2 - 10.1158/1055-9965.EPI-19-1085

DO - 10.1158/1055-9965.EPI-19-1085

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AN - SCOPUS:85087469658

SN - 1055-9965

VL - 29

SP - 1423

EP - 1429

JO - Cancer Epidemiology Biomarkers and Prevention

JF - Cancer Epidemiology Biomarkers and Prevention

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ER -

Association analysis of driver gene⇓related genetic variants identified novel lung cancer susceptibility loci with 20,871 lung cancer cases and 15,971 controls

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MD Anderson CCSG core facilities

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