Genome-wide autozygosity is associated with lower general cognitive ability

D P Howrigan; M A Simonson; G Davies; S E Harris; A Tenesa; J M Starr; D C Liewald; I J Deary; A McRae; M J Wright; G W Montgomery; N. Hansell; N G Martin; A. Payton; M Horan; W E Ollier; A Abdellaoui; D I Boomsma; P. DeRosse; E E M Knowles; D C Glahn; S. Djurovic; I. Melle; O. A. Andreassen; A. Christoforou; V M Steen; S L Hellard; K. Sundet; I. Reinvang; T. Espeseth; A J Lundervold; I. Giegling; B Konte; A M Hartmann; D. Rujescu; P. Roussos; S. Giakoumaki; K E Burdick; P. Bitsios; G. Donohoe; R P Corley; P M Visscher; N. Pendleton; A K Malhotra; B M Neale; T. Lencz; M C Keller

doi:10.13025/25836

Genome-wide autozygosity is associated with lower general cognitive ability

D P Howrigan
, M A Simonson
, G Davies
, S E Harris
, A Tenesa
, J M Starr
, D C Liewald
, I J Deary
, A McRae
, M J Wright
, G W Montgomery
, N. Hansell
, N G Martin
, A. Payton
, M Horan
, W E Ollier
, A Abdellaoui
, D I Boomsma
, P. DeRosse
, E E M Knowles

D C Glahn, S. Djurovic, I. Melle, O. A. Andreassen, A. Christoforou, V M Steen, S L Hellard, K. Sundet, I. Reinvang, T. Espeseth, A J Lundervold, I. Giegling, B Konte, A M Hartmann, D. Rujescu, P. Roussos, S. Giakoumaki, K E Burdick, P. Bitsios, G. Donohoe, R P Corley, P M Visscher, N. Pendleton, A K Malhotra, B M Neale, T. Lencz, M C Keller

Psychology

Massachusetts General Hospital
Broad Institute
Massachusetts Institute of Technology
University of Edinburgh
University of Edinburgh, Roslin Institute
QIMR Berghofer Medical Research Institute
University of Queensland
University of Manchester
Vrije Universiteit Amsterdam
University of Amsterdam
The Zucker Hillside Hospital
Laboratory of Developmental Erythropoiesis
The Hofstra North Shore–Long Island Jewish School of Medicine
Yale University School of Medicine
NORMENT
Oslo University Hospital
University of Oslo
University of Bergen
Haukeland University Hospital
Equinor ASA
University of Halle
Icahn School of Medicine at Mount Sinai
James J. Peters VA Medical Center
University of Crete
Institute of Computer Science
University of Colorado Boulder

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

31 Citations (Scopus)

Abstract

Inbreeding depression refers to lower fitness among offspring of genetic relatives. This reduced fitness is caused by the inheritance of two identical chromosomal segments (autozygosity) across the genome, which may expose the effects of (partially) recessive deleterious mutations. Even among outbred populations, autozygosity can occur to varying degrees due to cryptic relatedness between parents. Using dense genome-wide single-nucleotide polymorphism (SNP) data, we examined the degree to which autozygosity associated with measured cognitive ability in an unselected sample of 4854 participants of European ancestry. We used runs of homozygosity - multiple homozygous SNPs in a row - to estimate autozygous tracts across the genome. We found that increased levels of autozygosity predicted lower general cognitive ability, and estimate a drop of 0.6 s.d. among the offspring of first cousins (P=0.003-0.02 depending on the model). This effect came predominantly from long and rare autozygous tracts, which theory predicts as more likely to be deleterious than short and common tracts. Association mapping of autozygous tracts did not reveal any specific regions that were predictive beyond chance after correcting for multiple testing genome wide. The observed effect size is consistent with studies of cognitive decline among offspring of known consanguineous relationships. These findings suggest a role for multiple recessive or partially recessive alleles in general cognitive ability, and that alleles decreasing general cognitive ability have been selected against over evolutionary time.

Original language	English
Pages (from-to)	837-843
Number of pages	7
Journal	Molecular Psychiatry
Volume	21
Issue number	6
DOIs	https://doi.org/10.13025/25836 https://doi.org/10.1038/mp.2015.120
Publication status	Published - 1 Jun 2016

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10.13025/25836Licence: CC BY-NC-ND
10.1038/mp.2015.120

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Howrigan, D. P., Simonson, M. A., Davies, G., Harris, S. E., Tenesa, A., Starr, J. M., Liewald, D. C., Deary, I. J., McRae, A., Wright, M. J., Montgomery, G. W., Hansell, N., Martin, N. G., Payton, A., Horan, M., Ollier, W. E., Abdellaoui, A., Boomsma, D. I., DeRosse, P., ... Keller, M. C. (2016). Genome-wide autozygosity is associated with lower general cognitive ability. Molecular Psychiatry, 21(6), 837-843. https://doi.org/10.13025/25836, https://doi.org/10.1038/mp.2015.120

@article{4c6bfbac764e42468671ca9086633d90,

title = "Genome-wide autozygosity is associated with lower general cognitive ability",

abstract = "Inbreeding depression refers to lower fitness among offspring of genetic relatives. This reduced fitness is caused by the inheritance of two identical chromosomal segments (autozygosity) across the genome, which may expose the effects of (partially) recessive deleterious mutations. Even among outbred populations, autozygosity can occur to varying degrees due to cryptic relatedness between parents. Using dense genome-wide single-nucleotide polymorphism (SNP) data, we examined the degree to which autozygosity associated with measured cognitive ability in an unselected sample of 4854 participants of European ancestry. We used runs of homozygosity - multiple homozygous SNPs in a row - to estimate autozygous tracts across the genome. We found that increased levels of autozygosity predicted lower general cognitive ability, and estimate a drop of 0.6 s.d. among the offspring of first cousins (P=0.003-0.02 depending on the model). This effect came predominantly from long and rare autozygous tracts, which theory predicts as more likely to be deleterious than short and common tracts. Association mapping of autozygous tracts did not reveal any specific regions that were predictive beyond chance after correcting for multiple testing genome wide. The observed effect size is consistent with studies of cognitive decline among offspring of known consanguineous relationships. These findings suggest a role for multiple recessive or partially recessive alleles in general cognitive ability, and that alleles decreasing general cognitive ability have been selected against over evolutionary time.",

author = "Howrigan, \{D P\} and Simonson, \{M A\} and G Davies and Harris, \{S E\} and A Tenesa and Starr, \{J M\} and Liewald, \{D C\} and Deary, \{I J\} and A McRae and Wright, \{M J\} and Montgomery, \{G W\} and N. Hansell and Martin, \{N G\} and A. Payton and M Horan and Ollier, \{W E\} and A Abdellaoui and Boomsma, \{D I\} and P. DeRosse and Knowles, \{E E M\} and Glahn, \{D C\} and S. Djurovic and I. Melle and Andreassen, \{O. A.\} and A. Christoforou and Steen, \{V M\} and Hellard, \{S L\} and K. Sundet and I. Reinvang and T. Espeseth and Lundervold, \{A J\} and I. Giegling and B Konte and Hartmann, \{A M\} and D. Rujescu and P. Roussos and S. Giakoumaki and Burdick, \{K E\} and P. Bitsios and G. Donohoe and Corley, \{R P\} and Visscher, \{P M\} and N. Pendleton and Malhotra, \{A K\} and Neale, \{B M\} and T. Lencz and Keller, \{M C\}",

note = "Publisher Copyright: {\textcopyright} 2016 Macmillan Publishers Limited.",

year = "2016",

month = jun,

day = "1",

doi = "10.13025/25836",

language = "English",

volume = "21",

pages = "837--843",

journal = "Molecular Psychiatry",

issn = "1359-4184",

publisher = "Springer Nature",

number = "6",

}

Howrigan, DP, Simonson, MA, Davies, G, Harris, SE, Tenesa, A, Starr, JM, Liewald, DC, Deary, IJ, McRae, A, Wright, MJ, Montgomery, GW, Hansell, N, Martin, NG, Payton, A, Horan, M, Ollier, WE, Abdellaoui, A, Boomsma, DI, DeRosse, P, Knowles, EEM, Glahn, DC, Djurovic, S, Melle, I, Andreassen, OA, Christoforou, A, Steen, VM, Hellard, SL, Sundet, K, Reinvang, I, Espeseth, T, Lundervold, AJ, Giegling, I, Konte, B, Hartmann, AM, Rujescu, D, Roussos, P, Giakoumaki, S, Burdick, KE, Bitsios, P, Donohoe, G, Corley, RP, Visscher, PM, Pendleton, N, Malhotra, AK, Neale, BM, Lencz, T & Keller, MC 2016, 'Genome-wide autozygosity is associated with lower general cognitive ability', Molecular Psychiatry, vol. 21, no. 6, pp. 837-843. https://doi.org/10.13025/25836, https://doi.org/10.1038/mp.2015.120

TY - JOUR

T1 - Genome-wide autozygosity is associated with lower general cognitive ability

AU - Howrigan, D P

AU - Simonson, M A

AU - Davies, G

AU - Harris, S E

AU - Tenesa, A

AU - Starr, J M

AU - Liewald, D C

AU - Deary, I J

AU - McRae, A

AU - Wright, M J

AU - Montgomery, G W

AU - Hansell, N.

AU - Martin, N G

AU - Payton, A.

AU - Horan, M

AU - Ollier, W E

AU - Abdellaoui, A

AU - Boomsma, D I

AU - DeRosse, P.

AU - Knowles, E E M

AU - Glahn, D C

AU - Djurovic, S.

AU - Melle, I.

AU - Andreassen, O. A.

AU - Christoforou, A.

AU - Steen, V M

AU - Hellard, S L

AU - Sundet, K.

AU - Reinvang, I.

AU - Espeseth, T.

AU - Lundervold, A J

AU - Giegling, I.

AU - Konte, B

AU - Hartmann, A M

AU - Rujescu, D.

AU - Roussos, P.

AU - Giakoumaki, S.

AU - Burdick, K E

AU - Bitsios, P.

AU - Donohoe, G.

AU - Corley, R P

AU - Visscher, P M

AU - Pendleton, N.

AU - Malhotra, A K

AU - Neale, B M

AU - Lencz, T.

AU - Keller, M C

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Inbreeding depression refers to lower fitness among offspring of genetic relatives. This reduced fitness is caused by the inheritance of two identical chromosomal segments (autozygosity) across the genome, which may expose the effects of (partially) recessive deleterious mutations. Even among outbred populations, autozygosity can occur to varying degrees due to cryptic relatedness between parents. Using dense genome-wide single-nucleotide polymorphism (SNP) data, we examined the degree to which autozygosity associated with measured cognitive ability in an unselected sample of 4854 participants of European ancestry. We used runs of homozygosity - multiple homozygous SNPs in a row - to estimate autozygous tracts across the genome. We found that increased levels of autozygosity predicted lower general cognitive ability, and estimate a drop of 0.6 s.d. among the offspring of first cousins (P=0.003-0.02 depending on the model). This effect came predominantly from long and rare autozygous tracts, which theory predicts as more likely to be deleterious than short and common tracts. Association mapping of autozygous tracts did not reveal any specific regions that were predictive beyond chance after correcting for multiple testing genome wide. The observed effect size is consistent with studies of cognitive decline among offspring of known consanguineous relationships. These findings suggest a role for multiple recessive or partially recessive alleles in general cognitive ability, and that alleles decreasing general cognitive ability have been selected against over evolutionary time.

AB - Inbreeding depression refers to lower fitness among offspring of genetic relatives. This reduced fitness is caused by the inheritance of two identical chromosomal segments (autozygosity) across the genome, which may expose the effects of (partially) recessive deleterious mutations. Even among outbred populations, autozygosity can occur to varying degrees due to cryptic relatedness between parents. Using dense genome-wide single-nucleotide polymorphism (SNP) data, we examined the degree to which autozygosity associated with measured cognitive ability in an unselected sample of 4854 participants of European ancestry. We used runs of homozygosity - multiple homozygous SNPs in a row - to estimate autozygous tracts across the genome. We found that increased levels of autozygosity predicted lower general cognitive ability, and estimate a drop of 0.6 s.d. among the offspring of first cousins (P=0.003-0.02 depending on the model). This effect came predominantly from long and rare autozygous tracts, which theory predicts as more likely to be deleterious than short and common tracts. Association mapping of autozygous tracts did not reveal any specific regions that were predictive beyond chance after correcting for multiple testing genome wide. The observed effect size is consistent with studies of cognitive decline among offspring of known consanguineous relationships. These findings suggest a role for multiple recessive or partially recessive alleles in general cognitive ability, and that alleles decreasing general cognitive ability have been selected against over evolutionary time.

UR - http://hdl.handle.net/10379/12000

UR - https://www.scopus.com/pages/publications/84941917087

U2 - 10.13025/25836

DO - 10.13025/25836

M3 - Article

SN - 1359-4184

VL - 21

SP - 837

EP - 843

JO - Molecular Psychiatry

JF - Molecular Psychiatry

IS - 6

ER -

Genome-wide autozygosity is associated with lower general cognitive ability

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