Gene regulatory mechanisms underpinning prostate cancer susceptibility

Thomas Whitington; Ping Gao; Wei Song; Helen Ross-Adams; Alastair D. Lamb; Yuehong Yang; Ilaria Svezia; Daniel Klevebring; Ian G. Mills; Robert Karlsson; Silvia Halim; Mark J. Dunning; Lars Egevad; Anne Y. Warren; David E. Neal; Henrik Grönberg; Johan Lindberg; Gong Hong Wei; Fredrik Wiklund

doi:10.1038/ng.3523

Gene regulatory mechanisms underpinning prostate cancer susceptibility

Thomas Whitington, Ping Gao, Wei Song, Helen Ross-Adams, Alastair D. Lamb, Yuehong Yang, Ilaria Svezia, Daniel Klevebring, Ian G. Mills, Robert Karlsson, Silvia Halim, Mark J. Dunning, Lars Egevad, Anne Y. Warren, David E. Neal, Henrik Grönberg, Johan Lindberg, Gong Hong Wei, Fredrik Wiklund

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

95 Scopus citations

Abstract

Molecular characterization of genome-wide association study (GWAS) loci can uncover key genes and biological mechanisms underpinning complex traits and diseases. Here we present deep, high-throughput characterization of gene regulatory mechanisms underlying prostate cancer risk loci. Our methodology integrates data from 295 prostate cancer chromatin immunoprecipitation and sequencing experiments with genotype and gene expression data from 602 prostate tumor samples. The analysis identifies new gene regulatory mechanisms affected by risk locus SNPs, including widespread disruption of ternary androgen receptor (AR)-FOXA1 and AR-HOXB13 complexes and competitive binding mechanisms. We identify 57 expression quantitative trait loci at 35 risk loci, which we validate through analysis of allele-specific expression. We further validate predicted regulatory SNPs and target genes in prostate cancer cell line models. Finally, our integrated analysis can be accessed through an interactive visualization tool. This analysis elucidates how genome sequence variation affects disease predisposition via gene regulatory mechanisms and identifies relevant genes for downstream biomarker and drug development.

Original language	English
Pages (from-to)	387-397
Number of pages	11
Journal	Nature Genetics
Volume	48
Issue number	4
DOIs	https://doi.org/10.1038/ng.3523
State	Published - Mar 29 2016
Externally published	Yes

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Whitington, T., Gao, P., Song, W., Ross-Adams, H., Lamb, A. D., Yang, Y., Svezia, I., Klevebring, D., Mills, I. G., Karlsson, R., Halim, S., Dunning, M. J., Egevad, L., Warren, A. Y., Neal, D. E., Grönberg, H., Lindberg, J., Wei, G. H., & Wiklund, F. (2016). Gene regulatory mechanisms underpinning prostate cancer susceptibility. Nature Genetics, 48(4), 387-397. https://doi.org/10.1038/ng.3523

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title = "Gene regulatory mechanisms underpinning prostate cancer susceptibility",

abstract = "Molecular characterization of genome-wide association study (GWAS) loci can uncover key genes and biological mechanisms underpinning complex traits and diseases. Here we present deep, high-throughput characterization of gene regulatory mechanisms underlying prostate cancer risk loci. Our methodology integrates data from 295 prostate cancer chromatin immunoprecipitation and sequencing experiments with genotype and gene expression data from 602 prostate tumor samples. The analysis identifies new gene regulatory mechanisms affected by risk locus SNPs, including widespread disruption of ternary androgen receptor (AR)-FOXA1 and AR-HOXB13 complexes and competitive binding mechanisms. We identify 57 expression quantitative trait loci at 35 risk loci, which we validate through analysis of allele-specific expression. We further validate predicted regulatory SNPs and target genes in prostate cancer cell line models. Finally, our integrated analysis can be accessed through an interactive visualization tool. This analysis elucidates how genome sequence variation affects disease predisposition via gene regulatory mechanisms and identifies relevant genes for downstream biomarker and drug development.",

author = "Thomas Whitington and Ping Gao and Wei Song and Helen Ross-Adams and Lamb, {Alastair D.} and Yuehong Yang and Ilaria Svezia and Daniel Klevebring and Mills, {Ian G.} and Robert Karlsson and Silvia Halim and Dunning, {Mark J.} and Lars Egevad and Warren, {Anne Y.} and Neal, {David E.} and Henrik Gr{\"o}nberg and Johan Lindberg and Wei, {Gong Hong} and Fredrik Wiklund",

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Whitington, T, Gao, P, Song, W, Ross-Adams, H, Lamb, AD, Yang, Y, Svezia, I, Klevebring, D, Mills, IG, Karlsson, R, Halim, S, Dunning, MJ, Egevad, L, Warren, AY, Neal, DE, Grönberg, H, Lindberg, J, Wei, GH & Wiklund, F 2016, 'Gene regulatory mechanisms underpinning prostate cancer susceptibility', Nature Genetics, vol. 48, no. 4, pp. 387-397. https://doi.org/10.1038/ng.3523

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T1 - Gene regulatory mechanisms underpinning prostate cancer susceptibility

AU - Whitington, Thomas

AU - Gao, Ping

AU - Song, Wei

AU - Ross-Adams, Helen

AU - Lamb, Alastair D.

AU - Yang, Yuehong

AU - Svezia, Ilaria

AU - Klevebring, Daniel

AU - Mills, Ian G.

AU - Karlsson, Robert

AU - Halim, Silvia

AU - Dunning, Mark J.

AU - Egevad, Lars

AU - Warren, Anne Y.

AU - Neal, David E.

AU - Grönberg, Henrik

AU - Lindberg, Johan

AU - Wei, Gong Hong

AU - Wiklund, Fredrik

PY - 2016/3/29

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N2 - Molecular characterization of genome-wide association study (GWAS) loci can uncover key genes and biological mechanisms underpinning complex traits and diseases. Here we present deep, high-throughput characterization of gene regulatory mechanisms underlying prostate cancer risk loci. Our methodology integrates data from 295 prostate cancer chromatin immunoprecipitation and sequencing experiments with genotype and gene expression data from 602 prostate tumor samples. The analysis identifies new gene regulatory mechanisms affected by risk locus SNPs, including widespread disruption of ternary androgen receptor (AR)-FOXA1 and AR-HOXB13 complexes and competitive binding mechanisms. We identify 57 expression quantitative trait loci at 35 risk loci, which we validate through analysis of allele-specific expression. We further validate predicted regulatory SNPs and target genes in prostate cancer cell line models. Finally, our integrated analysis can be accessed through an interactive visualization tool. This analysis elucidates how genome sequence variation affects disease predisposition via gene regulatory mechanisms and identifies relevant genes for downstream biomarker and drug development.

AB - Molecular characterization of genome-wide association study (GWAS) loci can uncover key genes and biological mechanisms underpinning complex traits and diseases. Here we present deep, high-throughput characterization of gene regulatory mechanisms underlying prostate cancer risk loci. Our methodology integrates data from 295 prostate cancer chromatin immunoprecipitation and sequencing experiments with genotype and gene expression data from 602 prostate tumor samples. The analysis identifies new gene regulatory mechanisms affected by risk locus SNPs, including widespread disruption of ternary androgen receptor (AR)-FOXA1 and AR-HOXB13 complexes and competitive binding mechanisms. We identify 57 expression quantitative trait loci at 35 risk loci, which we validate through analysis of allele-specific expression. We further validate predicted regulatory SNPs and target genes in prostate cancer cell line models. Finally, our integrated analysis can be accessed through an interactive visualization tool. This analysis elucidates how genome sequence variation affects disease predisposition via gene regulatory mechanisms and identifies relevant genes for downstream biomarker and drug development.

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Gene regulatory mechanisms underpinning prostate cancer susceptibility

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