Integrating transcription factor occupancy with transcriptome-wide association analysis identifies susceptibility genes in human cancers

被引:19
作者
He, Jingni [1 ,2 ]
Wen, Wanqing [3 ]
Beeghly, Alicia [3 ]
Chen, Zhishan [3 ]
Cao, Chen [1 ]
Shu, Xiao-Ou [3 ]
Zheng, Wei [3 ]
Long, Quan [1 ,4 ,5 ,6 ,7 ]
Guo, Xingyi [3 ,8 ]
机构
[1] Univ Calgary, Dept Biochem & Mol Biol, Calgary, AB, Canada
[2] Cent South Univ, Xiangya Hosp, Dept Oncol, Changsha, Hunan, Peoples R China
[3] Vanderbilt Univ, Sch Med, Vanderbilt Ingram Canc Ctr, Div Epidemiol,Dept Med,Vanderbilt Epidemiol Ctr, Nashville, TN 37212 USA
[4] Univ Calgary, Dept Med Genet, Calgary, AB, Canada
[5] Univ Calgary, Dept Math & Stat, Calgary, AB, Canada
[6] Univ Calgary, Alberta Childrens Hosp, Res Inst, Calgary, AB, Canada
[7] Univ Calgary, Hotchkiss Brain Inst, Calgary, AB, Canada
[8] Vanderbilt Univ, Sch Med, Dept Biomed Informat, Nashville, TN 37212 USA
来源
NATURE COMMUNICATIONS | 2022年 / 13卷 / 01期
基金
美国国家卫生研究院; 加拿大创新基金会;
关键词
BREAST-CANCER; FACTOR-BINDING; RISK VARIANTS; LOCUS; EQTL; EXPRESSION; CHROMATIN; NETWORK;
D O I
10.1038/s41467-022-34888-0
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Transcriptome-wide association studies (TWAS) have successfully discovered many putative disease susceptibility genes. However, TWAS may suffer from inaccuracy of gene expression predictions due to inclusion of non-regulatory variants. By integrating prior knowledge of susceptible transcription factor occupied elements, we develop sTF-TWAS and demonstrate that it outperforms existing TWAS approaches in both simulation and real data analyses. Under the sTF-TWAS framework, we build genetic models to predict alternative splicing and gene expression in normal breast, prostate and lung tissues from the Genotype-Tissue Expression project and apply these models to data from large genome-wide association studies (GWAS) conducted among European-ancestry populations. At Bonferroni-corrected P < 0.05, we identify 354 putative susceptibility genes for these cancers, including 189 previously unreported in GWAS loci and 45 in loci unreported by GWAS. These findings provide additional insight into the genetic susceptibility of human cancers. Additionally, we show the generalizability of the sTF-TWAS on non-cancer diseases. Transcriptome-wide association studies can uncover genes involved in disease. Here, the authors extend the framework with a transcriptome-wide association study approach which incorporates transcription factor occupancy, adding tissue-specific mechanistic support to associations.
引用
收藏
页数:15
相关论文
共 62 条
[41]   Association analyses of more than 140,000 men identify 63 new prostate cancer susceptibility loci [J].
Schumacher, Fredrick R. ;
Al Olama, Ali Amin ;
Berndt, Sonja I. ;
Benlloch, Sara ;
Ahmed, Mahbubl ;
Saunders, Edward J. ;
Dadaev, Tokhir ;
Leongamornlert, Daniel ;
Anokian, Ezequiel ;
Cieza-Borrella, Clara ;
Goh, Chee ;
Brook, Mark N. ;
Sheng, Xin ;
Fachal, Laura ;
Dennis, Joe ;
Tyrer, Jonathan ;
Muir, Kenneth ;
Lophatananon, Artitaya ;
Stevens, Victoria L. ;
Gapstur, Susan M. ;
Carter, Brian D. ;
Tangen, Catherine M. ;
Goodman, Phyllis J. ;
Thompson, Ian M., Jr. ;
Batra, Jyotsna ;
Chambers, Suzanne ;
Moya, Leire ;
Clements, Judith ;
Horvath, Lisa ;
Tilley, Wayne ;
Risbridger, Gail P. ;
Gronberg, Henrik ;
Aly, Markus ;
Nordstrom, Tobias ;
Pharoah, Paul ;
Pashayan, Nora ;
Schleutker, Johanna ;
Tammela, Teuvo L. J. ;
Sipeky, Csilla ;
Auvinen, Anssi ;
Albanes, Demetrius ;
Weinstein, Stephanie ;
Wolk, Alicja ;
Hakansson, Niclas ;
West, Catharine M. L. ;
Dunning, Alison M. ;
Burnet, Neil ;
Mucci, Lorelei A. ;
Giovannucci, Edward ;
Andriole, Gerald L. .
NATURE GENETICS, 2018, 50 (07) :928-+
[42]   Association between GWAS-identified lung adenocarcinoma susceptibility loci and EGFR mutations in never-smoking Asian women, and comparison with findings from Western populations [J].
Seow, Wei Jie ;
Matsuo, Keitaro ;
Hsiung, Chao Agnes ;
Shiraishi, Kouya ;
Song, Minsun ;
Kim, Hee Nam ;
Wong, Maria Pik ;
Hong, Yun-Chul ;
Hosgood, H. Dean, III ;
Wang, Zhaoming ;
Chang, I-Shou ;
Wang, Jiu-Cun ;
Chatterjee, Nilanjan ;
Tucker, Margaret ;
Wei, Hu ;
Mitsudomi, Tetsuya ;
Zheng, Wei ;
Kim, Jin Hee ;
Zhou, Baosen ;
Caporaso, Neil E. ;
Albanes, Demetrius ;
Shin, Min-Ho ;
Chung, Lap Ping ;
An, She-Juan ;
Wang, Ping ;
Zheng, Hong ;
Yatabe, Yasushi ;
Zhang, Xu-Chao ;
Kim, Young Tae ;
Shu, Xiao-Ou ;
Kim, Young-Chul ;
Bassig, Bryan A. ;
Chang, Jiang ;
Ho, James Chung Man ;
Ji, Bu-Tian ;
Kubo, Michiaki ;
Daigo, Yataro ;
Ito, Hidemi ;
Momozawa, Yukihide ;
Ashikawa, Kyota ;
Kamatani, Yoichiro ;
Honda, Takayuki ;
Sakamoto, Hiromi ;
Kunitoh, Hideo ;
Tsuta, Koji ;
Watanabe, Shun-Ichi ;
Nokihara, Hiroshi ;
Miyagi, Yohei ;
Nakayama, Haruhiko ;
Matsumoto, Shingo .
HUMAN MOLECULAR GENETICS, 2017, 26 (02) :454-465
[43]   Fine-scale mapping of 8q24 locus identifies multiple independent risk variants for breast cancer [J].
Shi, Jiajun ;
Zhang, Yanfeng ;
Zheng, Wei ;
Michailidou, Kyriaki ;
Ghoussaini, Maya ;
Bolla, Manjeet K. ;
Wang, Qin ;
Dennis, Joe ;
Lush, Michael ;
Milne, Roger L. ;
Shu, Xiao-Ou ;
Beesley, Jonathan ;
Kar, Siddhartha ;
Andrulis, Irene L. ;
Anton-Culver, Hoda ;
Arndt, Volker ;
Beckmann, Matthias W. ;
Zhao, Zhiguo ;
Guo, Xingyi ;
Benitez, Javier ;
Beeghly-Fadiel, Alicia ;
Blot, William ;
Bogdanova, Natalia V. ;
Bojesen, Stig E. ;
Brauch, Hiltrud ;
Brenner, Hermann ;
Brinton, Louise ;
Broeks, Annegien ;
Bruening, Thomas ;
Burwinkel, Barbara ;
Cai, Hui ;
Canisius, Sander ;
Chang-Claude, Jenny ;
Choi, Ji-Yeob ;
Couch, Fergus J. ;
Cox, Angela ;
Cross, Simon S. ;
Czene, Kamila ;
Darabi, Hatef ;
Devilee, Peter ;
Droit, Arnaud ;
Dork, Thilo ;
Fasching, Peter A. ;
Fletcher, Olivia ;
Flyger, Henrik ;
Fostira, Florentia ;
Gaborieau, Valerie ;
Garcia-Closas, Montserrat ;
Giles, Graham G. ;
Grip, Mervi .
INTERNATIONAL JOURNAL OF CANCER, 2016, 139 (06) :1303-1317
[44]   The COSMIC Cancer Gene Census: describing genetic dysfunction across all human cancers [J].
Sondka, Zbyslaw ;
Bamford, Sally ;
Cole, Charlotte G. ;
Ward, Sari A. ;
Dunham, Ian ;
Forbes, Simon A. .
NATURE REVIEWS CANCER, 2018, 18 (11) :696-705
[45]   Using probabilistic estimation of expression residuals (PEER) to obtain increased power and interpretability of gene expression analyses [J].
Stegle, Oliver ;
Parts, Leopold ;
Piipari, Matias ;
Winn, John ;
Durbin, Richard .
NATURE PROTOCOLS, 2012, 7 (03) :500-507
[46]   Evaluation of potential regulatory function of breast cancer risk locus at 6q25.1 [J].
Sun, Yaqiong ;
Ye, Chuanzhong ;
Guo, Xingyi ;
Wen, Wanqing ;
Long, Jirong ;
Gao, Yu-Tang ;
Shu, Xiao Ou ;
Zheng, Wei ;
Cai, Qiuyin .
CARCINOGENESIS, 2016, 37 (02) :163-168
[47]   Novel Variance-Component TWAS method for studying complex human diseases with applications to Alzheimer's dementia [J].
Tang, Shizhen ;
Buchman, Aron S. ;
De Jager, Philip L. ;
Bennett, David A. ;
Epstein, Michael P. ;
Yang, Jingjing .
PLOS GENETICS, 2021, 17 (04)
[48]   Pooled ChIP-Seq Links Variation in Transcription Factor Binding to Complex Disease Risk [J].
Tehranchi, Ashley K. ;
Myrthil, Marsha ;
Martin, Trevor ;
Hie, Brian L. ;
Golan, David ;
Fraser, Hunter B. .
CELL, 2016, 165 (03) :730-741
[49]   A census of human transcription factors: function, expression and evolution [J].
Vaquerizas, Juan M. ;
Kummerfeld, Sarah K. ;
Teichmann, Sarah A. ;
Luscombe, Nicholas M. .
NATURE REVIEWS GENETICS, 2009, 10 (04) :252-263
[50]   Opportunities and challenges for transcriptome-wide association studies [J].
Wainberg, Michael ;
Sinnott-Armstrong, Nasa ;
Mancuso, Nicholas ;
Barbeira, Alvaro N. ;
Knowles, David A. ;
Golan, David ;
Ermel, Raili ;
Ruusalepp, Arno ;
Quertermous, Thomas ;
Hao, Ke ;
Bjorkegren, Johan L. M. ;
Im, Hae Kyung ;
Pasaniuc, Bogdan ;
Rivas, Manuel A. ;
Kundaje, Anshul .
NATURE GENETICS, 2019, 51 (04) :592-599
1234567