TY - JOUR
T1 - Genes to Mental Health (G2MH)
T2 - A Framework to Map the Combined Effects of Rare and Common Variants on Dimensions of Cognition and Psychopathology
AU - Genes to Mental Health Network
AU - Jacquemont, Sébastien
AU - Huguet, Guillaume
AU - Klein, Marieke
AU - Chawner, Samuel J.R.A.
AU - Donald, Kirsten A.
AU - Bree, Marianne B.M.Van Den
AU - Sebat, Jonathan
AU - Ledbetter, David H.
AU - Constantino, John N.
AU - Earl, Rachel K.
AU - McDonald-Mcginn, Donna M.
AU - Amelsvoort, Therese Van
AU - Swillen, Ann
AU - O'Donnell-Luria, Anne H.
AU - Glahn, David C.
AU - Almasy, Laura
AU - Eichler, Evan E.
AU - Scherer, Stephen W.
AU - Robinson, Elise
AU - Bassett, Anne S.
AU - Martin, Christa Lese
AU - Finucane, Brenda
AU - Vorstman, Jacob A.S.
AU - Bearden, Carrie E.
AU - Gur, Raquel E.
AU - Ahlers, Kaitlyn
AU - Bernier, Raphael
AU - Bradley, Meghan
AU - Brown, Matthew
AU - Chabris, Christopher
AU - Chang, Elaine
AU - Eayrs, Anthony Curtis
AU - Rosario, Olga Del
AU - Emanuel, Beverly
AU - Fiksinski, Ania M.
AU - Gallagher, Sean
AU - Geyskens, Liliane
AU - Gillentine, Madelyn
AU - Girirajan, Santhosh
AU - Grigoryan, Vardui
AU - Guloksuz, Sinan
AU - Hall, Jessica
AU - Harwood, Janet
AU - Heidlebaugh, Alexis
AU - Holdren, Karahlyn
AU - Holmans, Peter
AU - Jegathisawaran, Jathishinie
AU - Kambic, Amina
AU - Karlen, Claire
AU - Kurtz-Nelson, Eva
N1 - Publisher Copyright:
© 2022 American Psychiatric Association. All rights reserved.
PY - 2022/3
Y1 - 2022/3
N2 - Rare genomic disorders (RGDs) confer elevated risk for neurodevelopmental psychiatric disorders. In this era of intense genomics discoveries, the landscape of RGDs is rapidly evolving. However, there has not been comparable progress to date in scalable, harmonized phenotyping methods. As a result, beyond associations with categorical diagnoses, the effects on dimensional traits remain unclear for many RGDs. The nature and specificity of RGD effects on cognitive and behavioral traits is an area of intense investigation: RGDs are frequently associated with more than one psychiatric condition, and those studied to date affect, to varying degrees, a broad range of developmental and cognitive functions. Although many RGDs have large effects, phenotypic expression is typically influenced by additional genomic and environmental factors. There is emerging evidence that using polygenic risk scores in individuals with RGDs offers opportunities to refine prediction, thus allowing for the identification of those at greatest risk of psychiatric illness. However, translation into the clinic is hindered by roadblocks, which include limited genetic testing in clinical psychiatry, and the lack of guidelines for following individuals with RGDs, who are at high risk of developing psychiatric symptoms. The Genes to Mental Health Network (G2MH) is a newly funded National Institute of Mental Health initiative that will collect, share, and analyze large-scale data sets combining genomics and dimensional measures of psychopathology spanning diverse populations and geography. The authors present here the most recent understanding of the effects of RGDs on dimensional behavioral traits and risk for psychiatric conditions and discuss strategies that will be pursued within the G2MH network, as well as how expected results can be translated into clinical practice to improve patient outcomes.
AB - Rare genomic disorders (RGDs) confer elevated risk for neurodevelopmental psychiatric disorders. In this era of intense genomics discoveries, the landscape of RGDs is rapidly evolving. However, there has not been comparable progress to date in scalable, harmonized phenotyping methods. As a result, beyond associations with categorical diagnoses, the effects on dimensional traits remain unclear for many RGDs. The nature and specificity of RGD effects on cognitive and behavioral traits is an area of intense investigation: RGDs are frequently associated with more than one psychiatric condition, and those studied to date affect, to varying degrees, a broad range of developmental and cognitive functions. Although many RGDs have large effects, phenotypic expression is typically influenced by additional genomic and environmental factors. There is emerging evidence that using polygenic risk scores in individuals with RGDs offers opportunities to refine prediction, thus allowing for the identification of those at greatest risk of psychiatric illness. However, translation into the clinic is hindered by roadblocks, which include limited genetic testing in clinical psychiatry, and the lack of guidelines for following individuals with RGDs, who are at high risk of developing psychiatric symptoms. The Genes to Mental Health Network (G2MH) is a newly funded National Institute of Mental Health initiative that will collect, share, and analyze large-scale data sets combining genomics and dimensional measures of psychopathology spanning diverse populations and geography. The authors present here the most recent understanding of the effects of RGDs on dimensional behavioral traits and risk for psychiatric conditions and discuss strategies that will be pursued within the G2MH network, as well as how expected results can be translated into clinical practice to improve patient outcomes.
UR - http://www.scopus.com/inward/record.url?scp=85126575077&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85126575077&partnerID=8YFLogxK
U2 - 10.1176/appi.ajp.2021.21040432
DO - 10.1176/appi.ajp.2021.21040432
M3 - Review article
AN - SCOPUS:85126575077
SN - 0002-953X
VL - 179
SP - 189
EP - 203
JO - American Journal of Psychiatry
JF - American Journal of Psychiatry
IS - 3
ER -