Distinct genetic liability profiles define clinically relevant patient strata across common diseases

Schizophrenia Working Group of the Psychiatric Genomics Consortium

doi:10.1038/s41467-024-49338-2

Distinct genetic liability profiles define clinically relevant patient strata across common diseases

Schizophrenia Working Group of the Psychiatric Genomics Consortium

Max Planck Institute of Psychiatry
Technical University of Munich
Human Technopole
University of Münster
Ludwig Maximilian University of Munich
German Centre for Cardiovascular Research
Vanderbilt University
Massachusetts General Hospital
Charité – Universitätsmedizin Berlin
Broad Institute
University College London
Icahn School of Medicine at Mount Sinai
University of Trento
Umeå University
Karolinska Institutet
Diakonhjemmet Hospital
University of Oslo
Aarhus University
iPSYCH
Isar-Amper-Klinikum München-Ost
Stanford University
Department of Veterans Affairs
Emory University
Virginia Commonwealth University
Max Planck Institute of Experimental Medicine
University of Pecs
University of Iowa
University of Edinburgh
King's College London
University of Groningen
Louisiana State University Health Sciences Center
Harvard University
University of California at San Francisco
Utrecht University
Centre Hospitalier du Rouvray and INSERM U1079 Faculty of Medicine
University of California at Los Angeles
Schizophrenia Research Institute
University of New South Wales
Cardiff University
University of Queensland
CAS - Institute of Psychology
The University of Hong Kong
University of North Carolina at Chapel Hill
Castle Peak Hospital
Singapore Institute of Mental Health
Life & Brain GmbH
University of Basel
University of Bonn
Jülich Research Centre
Latvian Biomedical Research and Study Centre
Washington University St. Louis
Sorbonne Université
Blue Note Biosciences
Eli Lilly
College Dublin
Hebrew University of Jerusalem
Sheba Medical Center at Tel Hashomer
University of Antwerp
National and Kapodistrian University of Athens
University College Cork
University of Galway
The University of Chicago
NorthShore University HealthSystem
London School of Hygiene and Tropical Medicine
University of Regensburg
Helsinki University Central Hospital
Folkhalsan
Biomedicum Helsinki
National Institute for Health and Welfare
Boston Children's Hospital
University of Tartu
F. Hoffmann-La Roche AG
Heidelberg University
University of Colorado Anschutz Medical Campus
Martin Luther University Halle-Wittenberg
Trinity College Dublin
Johnson & Johnson
Academic Medical Centre University of Amsterdam
Illumina, Inc.
Mental Health Centre Sct. Hans
VA Medical Center
University of Newcastle
Statens Serum Institut
Fujita Health University
University of Western Australia
The University of Western Australia
Stavanger University Hospital
Vall d'Hebron Research Institute
Medical University Sofia
University of Colorado Boulder
University of Toronto
Institute of Molecular Genetics, Russian Academy of Sciences
SUNY Downstate Health Sciences University
University of Southern California
Vilnius University
Charles University
Assistance publique – Hôpitaux de Paris
Université Paris Est
Institut national de la santé et de la recherche médicale
Duke-NUSA Graduate Medical School
Hempstead
Northwell Health System
Hadassah University Medical Centre
Sichuan University
Johns Hopkins University
Columbia University
Agency for Science, Technology and Research, Singapore
National University of Singapore
Pomeranian Medical University in Szczecin
Glen Oaks
Stockholm County Council
Sorlandet Hospital
VA BOSTON HEALTH CARE SYSTEM
Beth Israel Deaconess Medical Center
University of Tartu
Royal College of Surgeons in Ireland
Maastricht University
Friedrich Schiller University Jena
Co
Queen's University Belfast
University of California at Berkeley
University of Helsinki
University of Melbourne
Technical University of Denmark
Erasmus University Rotterdam
VU University Medical Center Amsterdam
Vrije Universiteit Amsterdam
Brigham and Women’s Hospital
University of Oxford
University of Wollongong
Hunter New England Health Service
National Institutes of Health
University of Iceland
University of Aberdeen
deCODE Genetics / Amgen
Medical University of Vienna
Lieber Institute for Brain Development
Berkshire Healthcare NHS Foundation Trust
University of Verona
Health Research Board Ireland
University of Copenhagen
Pfizer
Georgetown University
University of South Australia
University of Greifswald
SUNY Upstate Medical University
Helmholtz Zentrum München - German Research Center for Environmental Health
University of Liverpool

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

5 Citations (Scopus)

Abstract

Stratified medicine holds great promise to tailor treatment to the needs of individual patients. While genetics holds great potential to aid patient stratification, it remains a major challenge to operationalize complex genetic risk factor profiles to deconstruct clinical heterogeneity. Contemporary approaches to this problem rely on polygenic risk scores (PRS), which provide only limited clinical utility and lack a clear biological foundation. To overcome these limitations, we develop the CASTom-iGEx approach to stratify individuals based on the aggregated impact of their genetic risk factor profiles on tissue specific gene expression levels. The paradigmatic application of this approach to coronary artery disease or schizophrenia patient cohorts identified diverse strata or biotypes. These biotypes are characterized by distinct endophenotype profiles as well as clinical parameters and are fundamentally distinct from PRS based groupings. In stark contrast to the latter, the CASTom-iGEx strategy discovers biologically meaningful and clinically actionable patient subgroups, where complex genetic liabilities are not randomly distributed across individuals but rather converge onto distinct disease relevant biological processes. These results support the notion of different patient biotypes characterized by partially distinct pathomechanisms. Thus, the universally applicable approach presented here has the potential to constitute an important component of future personalized medicine paradigms.

Original language	English
Article number	5534
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-49338-2
Publication status	Published - Dec 2024
Externally published	Yes

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SDG 3 Good Health and Well-being

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10.1038/s41467-024-49338-2

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@article{a96181a0f9d9481199aace69e03a18ec,

title = "Distinct genetic liability profiles define clinically relevant patient strata across common diseases",

abstract = "Stratified medicine holds great promise to tailor treatment to the needs of individual patients. While genetics holds great potential to aid patient stratification, it remains a major challenge to operationalize complex genetic risk factor profiles to deconstruct clinical heterogeneity. Contemporary approaches to this problem rely on polygenic risk scores (PRS), which provide only limited clinical utility and lack a clear biological foundation. To overcome these limitations, we develop the CASTom-iGEx approach to stratify individuals based on the aggregated impact of their genetic risk factor profiles on tissue specific gene expression levels. The paradigmatic application of this approach to coronary artery disease or schizophrenia patient cohorts identified diverse strata or biotypes. These biotypes are characterized by distinct endophenotype profiles as well as clinical parameters and are fundamentally distinct from PRS based groupings. In stark contrast to the latter, the CASTom-iGEx strategy discovers biologically meaningful and clinically actionable patient subgroups, where complex genetic liabilities are not randomly distributed across individuals but rather converge onto distinct disease relevant biological processes. These results support the notion of different patient biotypes characterized by partially distinct pathomechanisms. Thus, the universally applicable approach presented here has the potential to constitute an important component of future personalized medicine paradigms.",

author = "\{Schizophrenia Working Group of the Psychiatric Genomics Consortium\} and Lucia Trastulla and Georgii Dolgalev and Sylvain Moser and Jim{\'e}nez-Barr{\'o}n, \{Laura T.\} and Andlauer, \{Till F.M.\} and \{von Scheidt\}, Moritz and Ruderfer, \{Douglas M.\} and Stephan Ripke and Andrew McQuillin and Stahl, \{Eli A.\} and Enrico Domenici and Rolf Adolfsson and Ingrid Agartz and Esben Agerbo and Margot Albus and Madeline Alexander and Farooq Amin and Bacanu, \{Silviu A.\} and Martin Begemann and Belliveau, \{Richard A.\} and Judit Bene and Bergen, \{Sarah E.\} and Elizabeth Bevilacqua and Bigdeli, \{Tim B.\} and Black, \{Donald W.\} and Blackwood, \{Douglas H.R.\} and Borglum, \{Anders D.\} and Elvira Bramon and Richard Bruggeman and Buccola, \{Nancy G.\} and Buckner, \{Randy L.\} and Brendan Bulik-Sullivan and Buxbaum, \{Joseph D.\} and William Byerley and Wiepke Cahn and Guiqing Cai and Dominique Campion and Cantor, \{Rita M.\} and Carr, \{Vaughan J.\} and Noa Carrera and Catts, \{Stanley V.\} and Chambert, \{Kimberley D.\} and Chan, \{Raymond C.K.\} and Chen, \{Eric Y.H.\} and Chen, \{Ronald Y.L.\} and Wei Cheng and Cheung, \{Eric F.C.\} and Chong, \{Siow Ann\} and Sven Cichon and Janis Klovins",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-49338-2",

language = "English",

volume = "15",

journal = "Nature Communications",

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T1 - Distinct genetic liability profiles define clinically relevant patient strata across common diseases

AU - Schizophrenia Working Group of the Psychiatric Genomics Consortium

AU - Trastulla, Lucia

AU - Dolgalev, Georgii

AU - Moser, Sylvain

AU - Jiménez-Barrón, Laura T.

AU - Andlauer, Till F.M.

AU - von Scheidt, Moritz

AU - Ruderfer, Douglas M.

AU - Ripke, Stephan

AU - McQuillin, Andrew

AU - Stahl, Eli A.

AU - Domenici, Enrico

AU - Adolfsson, Rolf

AU - Agartz, Ingrid

AU - Agerbo, Esben

AU - Albus, Margot

AU - Alexander, Madeline

AU - Amin, Farooq

AU - Bacanu, Silviu A.

AU - Begemann, Martin

AU - Belliveau, Richard A.

AU - Bene, Judit

AU - Bergen, Sarah E.

AU - Bevilacqua, Elizabeth

AU - Bigdeli, Tim B.

AU - Black, Donald W.

AU - Blackwood, Douglas H.R.

AU - Borglum, Anders D.

AU - Bramon, Elvira

AU - Bruggeman, Richard

AU - Buccola, Nancy G.

AU - Buckner, Randy L.

AU - Bulik-Sullivan, Brendan

AU - Buxbaum, Joseph D.

AU - Byerley, William

AU - Cahn, Wiepke

AU - Cai, Guiqing

AU - Campion, Dominique

AU - Cantor, Rita M.

AU - Carr, Vaughan J.

AU - Carrera, Noa

AU - Catts, Stanley V.

AU - Chambert, Kimberley D.

AU - Chan, Raymond C.K.

AU - Chen, Eric Y.H.

AU - Chen, Ronald Y.L.

AU - Cheng, Wei

AU - Cheung, Eric F.C.

AU - Chong, Siow Ann

AU - Cichon, Sven

AU - Klovins, Janis

PY - 2024/12

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N2 - Stratified medicine holds great promise to tailor treatment to the needs of individual patients. While genetics holds great potential to aid patient stratification, it remains a major challenge to operationalize complex genetic risk factor profiles to deconstruct clinical heterogeneity. Contemporary approaches to this problem rely on polygenic risk scores (PRS), which provide only limited clinical utility and lack a clear biological foundation. To overcome these limitations, we develop the CASTom-iGEx approach to stratify individuals based on the aggregated impact of their genetic risk factor profiles on tissue specific gene expression levels. The paradigmatic application of this approach to coronary artery disease or schizophrenia patient cohorts identified diverse strata or biotypes. These biotypes are characterized by distinct endophenotype profiles as well as clinical parameters and are fundamentally distinct from PRS based groupings. In stark contrast to the latter, the CASTom-iGEx strategy discovers biologically meaningful and clinically actionable patient subgroups, where complex genetic liabilities are not randomly distributed across individuals but rather converge onto distinct disease relevant biological processes. These results support the notion of different patient biotypes characterized by partially distinct pathomechanisms. Thus, the universally applicable approach presented here has the potential to constitute an important component of future personalized medicine paradigms.

AB - Stratified medicine holds great promise to tailor treatment to the needs of individual patients. While genetics holds great potential to aid patient stratification, it remains a major challenge to operationalize complex genetic risk factor profiles to deconstruct clinical heterogeneity. Contemporary approaches to this problem rely on polygenic risk scores (PRS), which provide only limited clinical utility and lack a clear biological foundation. To overcome these limitations, we develop the CASTom-iGEx approach to stratify individuals based on the aggregated impact of their genetic risk factor profiles on tissue specific gene expression levels. The paradigmatic application of this approach to coronary artery disease or schizophrenia patient cohorts identified diverse strata or biotypes. These biotypes are characterized by distinct endophenotype profiles as well as clinical parameters and are fundamentally distinct from PRS based groupings. In stark contrast to the latter, the CASTom-iGEx strategy discovers biologically meaningful and clinically actionable patient subgroups, where complex genetic liabilities are not randomly distributed across individuals but rather converge onto distinct disease relevant biological processes. These results support the notion of different patient biotypes characterized by partially distinct pathomechanisms. Thus, the universally applicable approach presented here has the potential to constitute an important component of future personalized medicine paradigms.

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JF - Nature Communications

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Distinct genetic liability profiles define clinically relevant patient strata across common diseases

Abstract

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