Quantifying the cumulative effect of low-penetrance genetic variants on breast cancer risk
Quantifying the cumulative effect of low-penetrance genetic variants on breast cancer risk
Many common diseases have a complex genetic basis in which large numbers of genetic variations combine with environmental factors to determine risk. However, quantifying such polygenic effects has been challenging. In order to address these difficulties we developed a global measure of the information content of an individual's genome relative to a reference population, which may be used to assess differences in global genome structure between cases and appropriate controls. Informally this measure, which we call relative genome information (RGI), quantifies the relative “disorder” of an individual's genome. In order to test its ability to predict disease risk we used RGI to compare single-nucleotide polymorphism genotypes from two independent samples of women with early-onset breast cancer with three independent sets of controls. We found that RGI was significantly elevated in both sets of breast cancer cases in comparison with all three sets of controls, with disease risk rising sharply with RGI. Furthermore, these differences are not due to associations with common variants at a small number of disease-associated loci, but rather are due to the combined associations of thousands of markers distributed throughout the genome. Our results indicate that the information content of an individual's genome may be used to measure the risk of a complex disease, and suggest that early-onset breast cancer has a strongly polygenic component
breast cancer, polygenic disorder, information theory
182-188
Smyth, Conor
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Spakulova, Iva
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Cotton-Barratt, Owen
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Rafiq, Sajjad
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Tapper, William
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Upstill-Goddard, Rosanna
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Hopper, John
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Makalic, Enes
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Schmidt, Daniel
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Kapuscinski, Miroslav
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Fliege, Jörg
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Collins, Andrew
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Brodzki, Jacek
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Eccles, Diana
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MacArthur, Ben D.
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14 January 2015
Smyth, Conor
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Spakulova, Iva
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Cotton-Barratt, Owen
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Rafiq, Sajjad
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Tapper, William
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Upstill-Goddard, Rosanna
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Hopper, John
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Makalic, Enes
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Schmidt, Daniel
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Kapuscinski, Miroslav
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Fliege, Jörg
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Collins, Andrew
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Brodzki, Jacek
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Eccles, Diana
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MacArthur, Ben D.
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Smyth, Conor, Spakulova, Iva, Cotton-Barratt, Owen, Rafiq, Sajjad, Tapper, William, Upstill-Goddard, Rosanna, Hopper, John, Makalic, Enes, Schmidt, Daniel, Kapuscinski, Miroslav, Fliege, Jörg, Collins, Andrew, Brodzki, Jacek, Eccles, Diana and MacArthur, Ben D.
(2015)
Quantifying the cumulative effect of low-penetrance genetic variants on breast cancer risk.
Molecular Genetics and Genomic Medicine, 3 (3), .
(doi:10.1002/mgg3.129).
Abstract
Many common diseases have a complex genetic basis in which large numbers of genetic variations combine with environmental factors to determine risk. However, quantifying such polygenic effects has been challenging. In order to address these difficulties we developed a global measure of the information content of an individual's genome relative to a reference population, which may be used to assess differences in global genome structure between cases and appropriate controls. Informally this measure, which we call relative genome information (RGI), quantifies the relative “disorder” of an individual's genome. In order to test its ability to predict disease risk we used RGI to compare single-nucleotide polymorphism genotypes from two independent samples of women with early-onset breast cancer with three independent sets of controls. We found that RGI was significantly elevated in both sets of breast cancer cases in comparison with all three sets of controls, with disease risk rising sharply with RGI. Furthermore, these differences are not due to associations with common variants at a small number of disease-associated loci, but rather are due to the combined associations of thousands of markers distributed throughout the genome. Our results indicate that the information content of an individual's genome may be used to measure the risk of a complex disease, and suggest that early-onset breast cancer has a strongly polygenic component
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Accepted/In Press date: 4 December 2014
Published date: 14 January 2015
Keywords:
breast cancer, polygenic disorder, information theory
Organisations:
Operational Research
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Local EPrints ID: 377586
URI: http://eprints.soton.ac.uk/id/eprint/377586
ISSN: 2324-9269
PURE UUID: 82890ce4-a879-431b-a804-a0c611c599b4
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Date deposited: 12 Jun 2015 10:45
Last modified: 15 Mar 2024 03:30
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Author:
Conor Smyth
Author:
Iva Spakulova
Author:
Owen Cotton-Barratt
Author:
Sajjad Rafiq
Author:
Rosanna Upstill-Goddard
Author:
John Hopper
Author:
Enes Makalic
Author:
Daniel Schmidt
Author:
Miroslav Kapuscinski
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