GWAS Study

Mapping genomic loci implicates genes and synaptic biology in schizophrenia.

Trubetskoy V, Pardiñas AF, Qi T et al.

35396580 PubMed ID

GWAS Study Type

320404 Participants

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Chapter I

Publication Details

Comprehensive information about this research publication

Journal Nature

Publication Date 2022-04-08

Disease/Trait Schizophrenia

DOI 10.1038/s41586-022-04434-5

ISSN 1476-4687

Authors

Trubetskoy V

Pardiñas AF

Qi T

Panagiotaropoulou G

Awasthi S

Bigdeli TB

Bryois J

Chen CY

Dennison CA

Hall LS

Lam M

Watanabe K

Frei O

Ge T

Harwood JC

Koopmans F

Magnusson S

Richards AL

Sidorenko J

Wu Y

Zeng J

Grove J

Kim M

Li Z

Voloudakis G

Zhang W

Adams M

Agartz I

Atkinson EG

Agerbo E

Al Eissa M

Albus M

Alexander M

Alizadeh BZ

Alptekin K

Als TD

Amin F

Arolt V

Arrojo M

Athanasiu L

Azevedo MH

Bacanu SA

Bass NJ

Begemann M

Belliveau RA

Bene J

Benyamin B

Bergen SE

Blasi G

Bobes J

Bonassi S

Braun A

Bressan RA

Bromet EJ

Bruggeman R

Buckley PF

Buckner RL

Bybjerg-Grauholm J

Cahn W

Cairns MJ

Calkins ME

Carr VJ

Castle D

Catts SV

Chambert KD

Chan RCK

Chaumette B

Cheng W

Cheung EFC

Chong SA

Cohen D

Consoli A

Cordeiro Q

Costas J

Curtis C

Davidson M

Davis KL

de Haan L

Degenhardt F

DeLisi LE

Demontis D

Dickerson F

Dikeos D

Dinan T

Djurovic S

Duan J

Ducci G

Dudbridge F

Eriksson JG

Fañanás L

Faraone SV

Fiorentino A

Forstner A

Frank J

Freimer NB

Fromer M

Frustaci A

Gadelha A

Genovese G

Gershon ES

Giannitelli M

Giegling I

Giusti-Rodríguez P

Godard S

Goldstein JI

González Peñas J

González-Pinto A

Gopal S

Gratten J

Green MF

Greenwood TA

Guillin O

Gülöksüz S

Gur RE

Gur RC

Gutiérrez B

Hahn E

Hakonarson H

Haroutunian V

Hartmann AM

Harvey C

Hayward C

Henskens FA

Herms S

Hoffmann P

Howrigan DP

Ikeda M

Iyegbe C

Joa I

Julià A

Kähler AK

Kam-Thong T

Kamatani Y

Karachanak-Yankova S

Kebir O

Keller MC

Kelly BJ

Khrunin A

Kim SW

Klovins J

Kondratiev N

Konte B

Kraft J

Kubo M

Kučinskas V

Kučinskiene ZA

Kusumawardhani A

Kuzelova-Ptackova H

Landi S

Lazzeroni LC

Lee PH

Legge SE

Lehrer DS

Lencer R

Lerer B

Li M

Lieberman J

Light GA

Limborska S

Liu CM

Lönnqvist J

Loughland CM

Lubinski J

Luykx JJ

Lynham A

Macek M

Mackinnon A

Magnusson PKE

Maher BS

Maier W

Malaspina D

Mallet J

Marder SR

Marsal S

Martin AR

Martorell L

Mattheisen M

McCarley RW

McDonald C

McGrath JJ

Medeiros H

Meier S

Melegh B

Melle I

Mesholam-Gately RI

Metspalu A

Michie PT

Milani L

Milanova V

Mitjans M

Molden E

Molina E

Molto MD

Mondelli V

Moreno C

Morley CP

Muntané G

Murphy KC

Myin-Germeys I

Nenadić I

Nestadt G

Nikitina-Zake L

Noto C

Nuechterlein KH

O'Brien NL

O'Neill FA

Oh SY

Olincy A

Ota VK

Pantelis C

Papadimitriou GN

Parellada M

Paunio T

Pellegrino R

Periyasamy S

Perkins DO

Pfuhlmann B

Pietiläinen O

Pimm J

Porteous D

Powell J

Quattrone D

Quested D

Radant AD

Rampino A

Rapaport MH

Rautanen A

Reichenberg A

Roe C

Roffman JL

Roth J

Rothermundt M

Rutten BPF

Saker-Delye S

Salomaa V

Sanjuan J

Santoro ML

Savitz A

Schall U

Scott RJ

Seidman LJ

Sharp SI

Shi J

Siever LJ

Sigurdsson E

Sim K

Skarabis N

Slominsky P

So HC

Sobell JL

Söderman E

Stain HJ

Steen NE

Steixner-Kumar AA

Stögmann E

Stone WS

Straub RE

Streit F

Strengman E

Stroup TS

Subramaniam M

Sugar CA

Suvisaari J

Svrakic DM

Swerdlow NR

Szatkiewicz JP

Ta TMT

Takahashi A

Terao C

Thibaut F

Toncheva D

Tooney PA

Torretta S

Tosato S

Tura GB

Turetsky BI

ÜA

Üçok A

Vaaler A

van Amelsvoort T

van Winkel R

Veijola J

Waddington J

Walter H

Waterreus A

Webb BT

Weiser M

Williams NM

Witt SH

Wormley BK

Wu JQ

Xu Z

Yolken R

Zai CC

Zhou W

Zhu F

Zimprich F

Atbaşoğlu EC

Ayub M

Benner C

Bertolino A

Black DW

Bray NJ

Breen G

Buccola NG

Byerley WF

Chen WJ

Cloninger CR

Crespo-Facorro B

Donohoe G

Freedman R

Galletly C

Gandal MJ

Gennarelli M

Hougaard DM

Hwu HG

Jablensky AV

McCarroll SA

Moran JL

Mors O

Mortensen PB

Müller-Myhsok B

Neil AL

Nordentoft M

Pato MT

Petryshen TL

Pirinen M

Pulver AE

Schulze TG

Silverman JM

Smoller JW

Stahl EA

Tsuang DW

Vilella E

Wang SH

Xu S

Adolfsson R

Arango C

Baune BT

Belangero SI

Børglum AD

Braff D

Bramon E

Buxbaum JD

Campion D

Cervilla JA

Cichon S

Collier DA

Corvin A

Curtis D

Forti MD

Domenici E

Ehrenreich H

Escott-Price V

Esko T

Fanous AH

Gareeva A

Gawlik M

Gejman PV

Gill M

Glatt SJ

Golimbet V

Hong KS

Hultman CM

Hyman SE

Iwata N

Jönsson EG

Kahn RS

Kennedy JL

Khusnutdinova E

Kirov G

Knowles JA

Krebs MO

Laurent-Levinson C

Lee J

Lencz T

Levinson DF

Li QS

Liu J

Malhotra AK

Malhotra D

McIntosh A

McQuillin A

Menezes PR

Morgan VA

Morris DW

Mowry BJ

Murray RM

Nimgaonkar V

Nöthen MM

Ophoff RA

Paciga SA

Palotie A

Pato CN

Qin S

Rietschel M

Riley BP

Rivera M

Rujescu D

Saka MC

Sanders AR

Schwab SG

Serretti A

Sham PC

Shi Y

St Clair D

Stefánsson H

Stefansson K

Tsuang MT

van Os J

Vawter MP

Weinberger DR

Werge T

Wildenauer DB

Yu X

Yue W

Holmans PA

Pocklington AJ

Roussos P

Vassos E

Verhage M

Visscher PM

Yang J

Posthuma D

Andreassen OA

Kendler KS

Owen MJ

Wray NR

Daly MJ

Huang H

Neale BM

Sullivan PF

Ripke S

Walters JTR

O'Donovan MC

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Chapter II

Abstract

Summary of the research findings

Schizophrenia has a heritability of 60-80%1, much of which is attributable to common risk alleles. Here, in a two-stage genome-wide association study of up to 76,755 individuals with schizophrenia and 243,649 control individuals, we report common variant associations at 287 distinct genomic loci. Associations were concentrated in genes that are expressed in excitatory and inhibitory neurons of the central nervous system, but not in other tissues or cell types. Using fine-mapping and functional genomic data, we identify 120 genes (106 protein-coding) that are likely to underpin associations at some of these loci, including 16 genes with credible causal non-synonymous or untranslated region variation. We also implicate fundamental processes related to neuronal function, including synaptic organization, differentiation and transmission. Fine-mapped candidates were enriched for genes associated with rare disruptive coding variants in people with schizophrenia, including the glutamate receptor subunit GRIN2A and transcription factor SP4, and were also enriched for genes implicated by such variants in neurodevelopmental disorders. We identify biological processes relevant to schizophrenia pathophysiology; show convergence of common and rare variant associations in schizophrenia and neurodevelopmental disorders; and provide a resource of prioritized genes and variants to advance mechanistic studies.

53,386 European ancestry cases, 77,258 European ancestry controls, 14,004 East Asian ancestry cases, 16,757 East Asian ancestry controls, 6,152 African American cases, 3,918 African American controls, 1,234 Latino cases, 3,090 Latino controls

Chapter III

Study Statistics

Key metrics and study information

320404

Total Participants

GWAS

Study Type

Yes

Replicated

1,979 European ancestry cases, 142,626 European ancestry controls

Replication Participants

East Asian, African American or Afro-Caribbean, Hispanic or Latin American, European

Ancestry

U.S., Georgia, Israel, Turkey, Austria, Belgium, Bulgaria, Czech Republic, Denmark, Estonia, Finland, France, Germany, Hungary, Italy, Latvia, Lithuania, Netherlands, Norway, Poland, Portugal, Republic of Ireland, Russian Federation, Serbia, Spain, Sweden, The former Yugoslav Republic of Macedonia, U.K., Brazil, Canada, Australia

Recruitment Country

Chapter IV

Analysis

Comprehensive review of health and genetic findings

Important Disclaimer: This review has been performed semi-automatically and is provided for informational purposes only. While we strive for accuracy, this analysis may contain errors, omissions, or misinterpretations of the original research. DNA Genics disclaims all liability for any inaccuracies, errors, or consequences arising from the use of this information. Users should independently verify all information and consult original research publications before making any decisions based on this content. This analysis is not intended as a substitute for professional scientific review or medical advice.

Analysis In Progress

Our analysis of this publication is currently being prepared. Please check back soon for comprehensive insights into the health and genetic findings discussed in this research.

Mapping genomic loci implicates genes and synaptic biology in schizophrenia.

Publication Details

Authors

Abstract

Study Statistics

Analysis

Analysis In Progress

Summary

Key Findings

Health Insights

Disease Analysis

Genetic Trait Analysis

Clinical Relevance

Scientific Assessment

Explore More Research

Mapping genomic loci implicates genes and synaptic biology in schizophrenia.

Publication Details

Authors

Abstract

Study Statistics

Analysis

Analysis In Progress

Summary

Key Findings

Health Insights

Disease Analysis

Genetic Trait Analysis

Clinical Relevance

Scientific Assessment

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