Polygenic transmission disequilibrium confirms that common and rare variation act additively to create risk for autism spectrum disorders

Daniel J Weiner; Emilie M Wigdor; Stephan Ripke; Raymond K Walters; Jack A Kosmicki; Jakob Grove; Kaitlin E Samocha; Jacqueline I Goldstein; Aysu Okbay; Jonas Bybjerg-Grauholm; Thomas Werge; David M Hougaard; Jacob Taylor; David Skuse; Bernie Devlin; Richard Anney; Stephan J Sanders; Somer Bishop; Preben Bo Mortensen; Anders D Børglum; George Davey Smith; Mark J Daly; Elise B Robinson; iPSYCH-Broad Autism Group; Thomas Folkmann Hansen

doi:10.1038/ng.3863

Polygenic transmission disequilibrium confirms that common and rare variation act additively to create risk for autism spectrum disorders

Daniel J Weiner, Emilie M Wigdor, Stephan Ripke, Raymond K Walters, Jack A Kosmicki, Jakob Grove, Kaitlin E Samocha, Jacqueline I Goldstein, Aysu Okbay, Jonas Bybjerg-Grauholm, Thomas Werge, David M Hougaard, Jacob Taylor, David Skuse, Bernie Devlin, Richard Anney, Stephan J Sanders, Somer Bishop, Preben Bo Mortensen, Anders D BørglumGeorge Davey Smith, Mark J Daly, Elise B Robinson, iPSYCH-Broad Autism Group, Thomas Folkmann Hansen (Medlem af forfattergruppering)

267 Citationer (Scopus)

Abstrakt

Autism spectrum disorder (ASD) risk is influenced by common polygenic and de novo variation. We aimed to clarify the influence of polygenic risk for ASD and to identify subgroups of ASD cases, including those with strongly acting de novo variants, in which polygenic risk is relevant. Using a novel approach called the polygenic transmission disequilibrium test and data from 6,454 families with a child with ASD, we show that polygenic risk for ASD, schizophrenia, and greater educational attainment is over-transmitted to children with ASD. These findings hold independent of proband IQ. We find that polygenic variation contributes additively to risk in ASD cases who carry a strongly acting de novo variant. Lastly, we show that elements of polygenic risk are independent and differ in their relationship with phenotype. These results confirm that the genetic influences on ASD are additive and suggest that they create risk through at least partially distinct etiologic pathways.

Originalsprog	Engelsk
Tidsskrift	Nature Genetics
Vol/bind	49
Udgave nummer	7
Sider (fra-til)	978-985
Antal sider	8
ISSN	1061-4036
DOI	https://doi.org/10.1038/ng.3863
Status	Udgivet - jul. 2017

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10.1038/ng.3863

Citationsformater

Weiner, D. J., Wigdor, E. M., Ripke, S., Walters, R. K., Kosmicki, J. A., Grove, J., Samocha, K. E., Goldstein, J. I., Okbay, A., Bybjerg-Grauholm, J., Werge, T., Hougaard, D. M., Taylor, J., Skuse, D., Devlin, B., Anney, R., Sanders, S. J., Bishop, S., Mortensen, P. B., ... Hansen, T. F. (2017). Polygenic transmission disequilibrium confirms that common and rare variation act additively to create risk for autism spectrum disorders. Nature Genetics, 49(7), 978-985. https://doi.org/10.1038/ng.3863

Weiner, DJ, Wigdor, EM, Ripke, S, Walters, RK, Kosmicki, JA, Grove, J, Samocha, KE, Goldstein, JI, Okbay, A, Bybjerg-Grauholm, J, Werge, T, Hougaard, DM, Taylor, J, Skuse, D, Devlin, B, Anney, R, Sanders, SJ, Bishop, S, Mortensen, PB, Børglum, AD, Smith, GD, Daly, MJ, Robinson, EB, iPSYCH-Broad Autism Group & Hansen, TF 2017, 'Polygenic transmission disequilibrium confirms that common and rare variation act additively to create risk for autism spectrum disorders', Nature Genetics, bind 49, nr. 7, s. 978-985. https://doi.org/10.1038/ng.3863

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title = "Polygenic transmission disequilibrium confirms that common and rare variation act additively to create risk for autism spectrum disorders",

abstract = "Autism spectrum disorder (ASD) risk is influenced by common polygenic and de novo variation. We aimed to clarify the influence of polygenic risk for ASD and to identify subgroups of ASD cases, including those with strongly acting de novo variants, in which polygenic risk is relevant. Using a novel approach called the polygenic transmission disequilibrium test and data from 6,454 families with a child with ASD, we show that polygenic risk for ASD, schizophrenia, and greater educational attainment is over-transmitted to children with ASD. These findings hold independent of proband IQ. We find that polygenic variation contributes additively to risk in ASD cases who carry a strongly acting de novo variant. Lastly, we show that elements of polygenic risk are independent and differ in their relationship with phenotype. These results confirm that the genetic influences on ASD are additive and suggest that they create risk through at least partially distinct etiologic pathways.",

keywords = "Adult, Autism Spectrum Disorder, Child, Cohort Studies, Educational Status, Ethnic Groups, Family Health, Female, Genetic Association Studies, Genetic Predisposition to Disease, Genetic Variation, Genetics, Behavioral, Humans, Intellectual Disability, Intelligence, Male, Multifactorial Inheritance, Phenotype, Risk Factors, Schizophrenia, Sequence Deletion, Journal Article",

author = "Weiner, {Daniel J} and Wigdor, {Emilie M} and Stephan Ripke and Walters, {Raymond K} and Kosmicki, {Jack A} and Jakob Grove and Samocha, {Kaitlin E} and Goldstein, {Jacqueline I} and Aysu Okbay and Jonas Bybjerg-Grauholm and Thomas Werge and Hougaard, {David M} and Jacob Taylor and David Skuse and Bernie Devlin and Richard Anney and Sanders, {Stephan J} and Somer Bishop and Mortensen, {Preben Bo} and B{\o}rglum, {Anders D} and Smith, {George Davey} and Daly, {Mark J} and Robinson, {Elise B} and {iPSYCH-Broad Autism Group} and Hansen, {Thomas Folkmann}",

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journal = "Nature Genetics",

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T1 - Polygenic transmission disequilibrium confirms that common and rare variation act additively to create risk for autism spectrum disorders

AU - Weiner, Daniel J

AU - Wigdor, Emilie M

AU - Ripke, Stephan

AU - Walters, Raymond K

AU - Kosmicki, Jack A

AU - Grove, Jakob

AU - Samocha, Kaitlin E

AU - Goldstein, Jacqueline I

AU - Okbay, Aysu

AU - Bybjerg-Grauholm, Jonas

AU - Werge, Thomas

AU - Hougaard, David M

AU - Taylor, Jacob

AU - Skuse, David

AU - Devlin, Bernie

AU - Anney, Richard

AU - Sanders, Stephan J

AU - Bishop, Somer

AU - Mortensen, Preben Bo

AU - Børglum, Anders D

AU - Smith, George Davey

AU - Daly, Mark J

AU - Robinson, Elise B

AU - iPSYCH-Broad Autism Group

A2 - Hansen, Thomas Folkmann

PY - 2017/7

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N2 - Autism spectrum disorder (ASD) risk is influenced by common polygenic and de novo variation. We aimed to clarify the influence of polygenic risk for ASD and to identify subgroups of ASD cases, including those with strongly acting de novo variants, in which polygenic risk is relevant. Using a novel approach called the polygenic transmission disequilibrium test and data from 6,454 families with a child with ASD, we show that polygenic risk for ASD, schizophrenia, and greater educational attainment is over-transmitted to children with ASD. These findings hold independent of proband IQ. We find that polygenic variation contributes additively to risk in ASD cases who carry a strongly acting de novo variant. Lastly, we show that elements of polygenic risk are independent and differ in their relationship with phenotype. These results confirm that the genetic influences on ASD are additive and suggest that they create risk through at least partially distinct etiologic pathways.

AB - Autism spectrum disorder (ASD) risk is influenced by common polygenic and de novo variation. We aimed to clarify the influence of polygenic risk for ASD and to identify subgroups of ASD cases, including those with strongly acting de novo variants, in which polygenic risk is relevant. Using a novel approach called the polygenic transmission disequilibrium test and data from 6,454 families with a child with ASD, we show that polygenic risk for ASD, schizophrenia, and greater educational attainment is over-transmitted to children with ASD. These findings hold independent of proband IQ. We find that polygenic variation contributes additively to risk in ASD cases who carry a strongly acting de novo variant. Lastly, we show that elements of polygenic risk are independent and differ in their relationship with phenotype. These results confirm that the genetic influences on ASD are additive and suggest that they create risk through at least partially distinct etiologic pathways.

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KW - Autism Spectrum Disorder

KW - Child

KW - Cohort Studies

KW - Educational Status

KW - Ethnic Groups

KW - Family Health

KW - Female

KW - Genetic Association Studies

KW - Genetic Predisposition to Disease

KW - Genetic Variation

KW - Genetics, Behavioral

KW - Humans

KW - Intellectual Disability

KW - Intelligence

KW - Male

KW - Multifactorial Inheritance

KW - Phenotype

KW - Risk Factors

KW - Schizophrenia

KW - Sequence Deletion

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JO - Nature Genetics

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ER -

Polygenic transmission disequilibrium confirms that common and rare variation act additively to create risk for autism spectrum disorders

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