Polygenic Risk Scores for Developmental Disorders, Neuromotor Functioning During Infancy, and Autistic Traits in Childhood

Fadila Serdarevic; Henning Tiemeier; Philip R. Jansen; Silvia Alemany; Yllza Xerxa; Alexander Neumann; Elise Robinson; Manon H.J. Hillegers; Frank C. Verhulst; Akhgar Ghassabian

doi:https://doi.org/10.1016/j.biopsych.2019.06.006

Polygenic Risk Scores for Developmental Disorders, Neuromotor Functioning During Infancy, and Autistic Traits in Childhood

Fadila Serdarevic, Henning Tiemeier, Philip R. Jansen, Silvia Alemany, Yllza Xerxa, Alexander Neumann, Elise Robinson, Manon H.J. Hillegers, Frank C. Verhulst, Akhgar Ghassabian

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

17 Citations (Scopus)

Abstract

Background: Impaired neuromotor development is often one of the earliest observations in children with autism spectrum disorder (ASD). We investigated whether a genetic predisposition to developmental disorders was associated with nonoptimal neuromotor development during infancy and examined the genetic correlation between nonoptimal neuromotor development and autistic traits in the general population. Methods: In a population-based cohort in The Netherlands (2002–2006), we calculated polygenic risk scores (PRSs) for ASD and attention-deficit/hyperactivity disorder (ADHD) using genome-wide association study summary statistics. In 1921 children with genetic data, parents rated autistic traits at 6 years of age. Among them, 1174 children (61.1%) underwent neuromotor examinations (tone, responses, senses, and other observations) during infancy (9–20 weeks of age). We used linear regressions to examine associations of PRSs with neuromotor scores and autistic traits. We performed a bivariate genome-based restricted maximum likelihood analysis to explore whether genetic susceptibility underlies the association between neuromotor development and autistic traits. Results: Higher PRSs for ASD were associated with less optimal overall infant neuromotor development, in particular low muscle tone. Higher PRSs for ADHD were associated with less optimal senses. PRSs for ASD and those for ADHD both were associated with autistic traits. The single nucleotide polymorphism–based heritability of overall motor development was 20% (SE =.21) and of autistic traits was 68% (SE =.26). The genetic correlation between overall motor development and autistic traits was.35 (SE =.21, p <.001). Conclusions: We found that genetic liabilities for ASD and ADHD covary with neuromotor development during infancy. Shared genetic liability might partly explain the association between nonoptimal neuromotor development during infancy and autistic traits in childhood.

Original language	English
Pages (from-to)	132-138
Number of pages	7
Journal	Biological Psychiatry
Volume	87
Issue number	2
Early online date	18 Jun 2019
DOIs	https://doi.org/10.1016/j.biopsych.2019.06.006
Publication status	Published - 15 Jan 2020

Keywords

ADHD
Autism
Cohort
Infant
Neuromotor
Polygenic risk score
Population based

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@article{ac3637533b7b4072b8dcdcd5d9baa2b3,

title = "Polygenic Risk Scores for Developmental Disorders, Neuromotor Functioning During Infancy, and Autistic Traits in Childhood",

abstract = "Background: Impaired neuromotor development is often one of the earliest observations in children with autism spectrum disorder (ASD). We investigated whether a genetic predisposition to developmental disorders was associated with nonoptimal neuromotor development during infancy and examined the genetic correlation between nonoptimal neuromotor development and autistic traits in the general population. Methods: In a population-based cohort in The Netherlands (2002–2006), we calculated polygenic risk scores (PRSs) for ASD and attention-deficit/hyperactivity disorder (ADHD) using genome-wide association study summary statistics. In 1921 children with genetic data, parents rated autistic traits at 6 years of age. Among them, 1174 children (61.1%) underwent neuromotor examinations (tone, responses, senses, and other observations) during infancy (9–20 weeks of age). We used linear regressions to examine associations of PRSs with neuromotor scores and autistic traits. We performed a bivariate genome-based restricted maximum likelihood analysis to explore whether genetic susceptibility underlies the association between neuromotor development and autistic traits. Results: Higher PRSs for ASD were associated with less optimal overall infant neuromotor development, in particular low muscle tone. Higher PRSs for ADHD were associated with less optimal senses. PRSs for ASD and those for ADHD both were associated with autistic traits. The single nucleotide polymorphism–based heritability of overall motor development was 20% (SE =.21) and of autistic traits was 68% (SE =.26). The genetic correlation between overall motor development and autistic traits was.35 (SE =.21, p <.001). Conclusions: We found that genetic liabilities for ASD and ADHD covary with neuromotor development during infancy. Shared genetic liability might partly explain the association between nonoptimal neuromotor development during infancy and autistic traits in childhood.",

keywords = "ADHD, Autism, Cohort, Infant, Neuromotor, Polygenic risk score, Population based",

author = "Fadila Serdarevic and Henning Tiemeier and Jansen, {Philip R.} and Silvia Alemany and Yllza Xerxa and Alexander Neumann and Elise Robinson and Hillegers, {Manon H.J.} and Verhulst, {Frank C.} and Akhgar Ghassabian",

note = "Funding Information: The general design of the Generation R Study is supported by the Erasmus Medical Center Rotterdam, the Erasmus University Rotterdam, the Netherlands Organization for Health Research and Development (ZonMw ?Geestkracht? programme 10.000.1003), the Netherlands Organization for Scientific Research (NOW), and the Ministry of Health, Welfare and Sport. The Generation R Study is conducted by the Erasmus Medical Center in close collaboration with the School of Law and the Faculty of Social Sciences of the Erasmus University Rotterdam, the Municipal Health Service Rotterdam area, the Rotterdam Homecare Foundation, and the Stichting Trombosedienst en Artsenlaboratorium Rijnmond. HT was supported by a grant of the Dutch Ministry of Education, Culture, and Science and the NWO (Grant No. 024.001.003, Consortium on Individual Development). A Ter Meulen grant financed by the Dutch Government and an Erasmus Mundus?Western Balkans (ERAWEB) scholarship grant financed by the European Commission were awarded to FS (Grant No. 2013-2548/001-001-EMA2). The authors report no biomedical financial interests or potential conflicts of interest. Funding Information: The general design of the Generation R Study is supported by the Erasmus Medical Center Rotterdam, the Erasmus University Rotterdam , the Netherlands Organization for Health Research and Development (ZonMw “Geestkracht” programme 10.000.1003), the Netherlands Organization for Scientific Research (NOW), and the Ministry of Health, Welfare and Sport . The Generation R Study is conducted by the Erasmus Medical Center in close collaboration with the School of Law and the Faculty of Social Sciences of the Erasmus University Rotterdam, the Municipal Health Service Rotterdam area, the Rotterdam Homecare Foundation, and the Stichting Trombosedienst en Artsenlaboratorium Rijnmond. HT was supported by a grant of the Dutch Ministry of Education, Culture, and Science and the NWO (Grant No. 024.001.003 , Consortium on Individual Development). A Ter Meulen grant financed by the Dutch Government and an Erasmus Mundus–Western Balkans (ERAWEB) scholarship grant financed by the European Commission were awarded to FS (Grant No. 2013-2548/001-001-EMA2 ). Publisher Copyright: {\textcopyright} 2019 Society of Biological Psychiatry Copyright: Copyright 2020 Elsevier B.V., All rights reserved.",

year = "2020",

month = jan,

day = "15",

doi = "https://doi.org/10.1016/j.biopsych.2019.06.006",

language = "English",

volume = "87",

pages = "132--138",

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T1 - Polygenic Risk Scores for Developmental Disorders, Neuromotor Functioning During Infancy, and Autistic Traits in Childhood

AU - Serdarevic, Fadila

AU - Tiemeier, Henning

AU - Jansen, Philip R.

AU - Alemany, Silvia

AU - Xerxa, Yllza

AU - Neumann, Alexander

AU - Robinson, Elise

AU - Hillegers, Manon H.J.

AU - Verhulst, Frank C.

AU - Ghassabian, Akhgar

N1 - Funding Information: The general design of the Generation R Study is supported by the Erasmus Medical Center Rotterdam, the Erasmus University Rotterdam, the Netherlands Organization for Health Research and Development (ZonMw ?Geestkracht? programme 10.000.1003), the Netherlands Organization for Scientific Research (NOW), and the Ministry of Health, Welfare and Sport. The Generation R Study is conducted by the Erasmus Medical Center in close collaboration with the School of Law and the Faculty of Social Sciences of the Erasmus University Rotterdam, the Municipal Health Service Rotterdam area, the Rotterdam Homecare Foundation, and the Stichting Trombosedienst en Artsenlaboratorium Rijnmond. HT was supported by a grant of the Dutch Ministry of Education, Culture, and Science and the NWO (Grant No. 024.001.003, Consortium on Individual Development). A Ter Meulen grant financed by the Dutch Government and an Erasmus Mundus?Western Balkans (ERAWEB) scholarship grant financed by the European Commission were awarded to FS (Grant No. 2013-2548/001-001-EMA2). The authors report no biomedical financial interests or potential conflicts of interest. Funding Information: The general design of the Generation R Study is supported by the Erasmus Medical Center Rotterdam, the Erasmus University Rotterdam , the Netherlands Organization for Health Research and Development (ZonMw “Geestkracht” programme 10.000.1003), the Netherlands Organization for Scientific Research (NOW), and the Ministry of Health, Welfare and Sport . The Generation R Study is conducted by the Erasmus Medical Center in close collaboration with the School of Law and the Faculty of Social Sciences of the Erasmus University Rotterdam, the Municipal Health Service Rotterdam area, the Rotterdam Homecare Foundation, and the Stichting Trombosedienst en Artsenlaboratorium Rijnmond. HT was supported by a grant of the Dutch Ministry of Education, Culture, and Science and the NWO (Grant No. 024.001.003 , Consortium on Individual Development). A Ter Meulen grant financed by the Dutch Government and an Erasmus Mundus–Western Balkans (ERAWEB) scholarship grant financed by the European Commission were awarded to FS (Grant No. 2013-2548/001-001-EMA2 ). Publisher Copyright: © 2019 Society of Biological Psychiatry Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2020/1/15

Y1 - 2020/1/15

N2 - Background: Impaired neuromotor development is often one of the earliest observations in children with autism spectrum disorder (ASD). We investigated whether a genetic predisposition to developmental disorders was associated with nonoptimal neuromotor development during infancy and examined the genetic correlation between nonoptimal neuromotor development and autistic traits in the general population. Methods: In a population-based cohort in The Netherlands (2002–2006), we calculated polygenic risk scores (PRSs) for ASD and attention-deficit/hyperactivity disorder (ADHD) using genome-wide association study summary statistics. In 1921 children with genetic data, parents rated autistic traits at 6 years of age. Among them, 1174 children (61.1%) underwent neuromotor examinations (tone, responses, senses, and other observations) during infancy (9–20 weeks of age). We used linear regressions to examine associations of PRSs with neuromotor scores and autistic traits. We performed a bivariate genome-based restricted maximum likelihood analysis to explore whether genetic susceptibility underlies the association between neuromotor development and autistic traits. Results: Higher PRSs for ASD were associated with less optimal overall infant neuromotor development, in particular low muscle tone. Higher PRSs for ADHD were associated with less optimal senses. PRSs for ASD and those for ADHD both were associated with autistic traits. The single nucleotide polymorphism–based heritability of overall motor development was 20% (SE =.21) and of autistic traits was 68% (SE =.26). The genetic correlation between overall motor development and autistic traits was.35 (SE =.21, p <.001). Conclusions: We found that genetic liabilities for ASD and ADHD covary with neuromotor development during infancy. Shared genetic liability might partly explain the association between nonoptimal neuromotor development during infancy and autistic traits in childhood.

AB - Background: Impaired neuromotor development is often one of the earliest observations in children with autism spectrum disorder (ASD). We investigated whether a genetic predisposition to developmental disorders was associated with nonoptimal neuromotor development during infancy and examined the genetic correlation between nonoptimal neuromotor development and autistic traits in the general population. Methods: In a population-based cohort in The Netherlands (2002–2006), we calculated polygenic risk scores (PRSs) for ASD and attention-deficit/hyperactivity disorder (ADHD) using genome-wide association study summary statistics. In 1921 children with genetic data, parents rated autistic traits at 6 years of age. Among them, 1174 children (61.1%) underwent neuromotor examinations (tone, responses, senses, and other observations) during infancy (9–20 weeks of age). We used linear regressions to examine associations of PRSs with neuromotor scores and autistic traits. We performed a bivariate genome-based restricted maximum likelihood analysis to explore whether genetic susceptibility underlies the association between neuromotor development and autistic traits. Results: Higher PRSs for ASD were associated with less optimal overall infant neuromotor development, in particular low muscle tone. Higher PRSs for ADHD were associated with less optimal senses. PRSs for ASD and those for ADHD both were associated with autistic traits. The single nucleotide polymorphism–based heritability of overall motor development was 20% (SE =.21) and of autistic traits was 68% (SE =.26). The genetic correlation between overall motor development and autistic traits was.35 (SE =.21, p <.001). Conclusions: We found that genetic liabilities for ASD and ADHD covary with neuromotor development during infancy. Shared genetic liability might partly explain the association between nonoptimal neuromotor development during infancy and autistic traits in childhood.

KW - ADHD

KW - Autism

KW - Cohort

KW - Infant

KW - Neuromotor

KW - Polygenic risk score

KW - Population based

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SN - 0006-3223

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JO - Biological Psychiatry

JF - Biological Psychiatry

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ER -

Polygenic Risk Scores for Developmental Disorders, Neuromotor Functioning During Infancy, and Autistic Traits in Childhood

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Keywords

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