Translational genomics of osteoarthritis in 1,962,069 individuals

ArcOGEN Consortium; ARGO Consortium; DBDS Genomic Consortium; Estonian Biobank Research Team; FinnGen; Genes & Health Research Team; HUNT All-In Pain; Million Veteran Program; Regeneron Genetics Center; Konstantinos Hatzikotoulas; Lorraine Southam; Lilja Stefansdottir; Juha Karjalainen; Susanna Lemmelä; Mark Daly; Aarno Palotie

doi:10.1038/s41586-025-08771-z

Translational genomics of osteoarthritis in 1,962,069 individuals

ArcOGEN Consortium, ARGO Consortium, DBDS Genomic Consortium, Estonian Biobank Research Team, FinnGen, Genes & Health Research Team, HUNT All-In Pain, Million Veteran Program, Regeneron Genetics Center, Konstantinos Hatzikotoulas, Lorraine Southam, Lilja Stefansdottir, Juha Karjalainen, Susanna Lemmelä, Mark Daly, Aarno Palotie

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

Abstract

Osteoarthritis is the third most rapidly growing health condition associated with disability, after dementia and diabetes¹. By 2050, the total number of patients with osteoarthritis is estimated to reach 1 billion worldwide². As no disease-modifying treatments exist for osteoarthritis, a better understanding of disease aetiopathology is urgently needed. Here we perform a genome-wide association study meta-analyses across up to 489,975 cases and 1,472,094 controls, establishing 962 independent associations, 513 of which have not been previously reported. Using single-cell multiomics data, we identify signal enrichment in embryonic skeletal development pathways. We integrate orthogonal lines of evidence, including transcriptome, proteome and epigenome profiles of primary joint tissues, and implicate 700 effector genes. Within these, we find rare coding-variant burden associations with effect sizes that are consistently higher than common frequency variant associations. We highlight eight biological processes in which we find convergent involvement of multiple effector genes, including the circadian clock, glial-cell-related processes and pathways with an established role in osteoarthritis (TGFβ, FGF, WNT, BMP and retinoic acid signalling, and extracellular matrix organization). We find that 10% of the effector genes express a protein that is the target of approved drugs, offering repurposing opportunities, which can accelerate translation.

Original language	English
Journal	Nature
Volume	641
Issue number	8065
Pages (from-to)	1217–1224
Number of pages	26
ISSN	0028-0836
DOIs	https://doi.org/10.1038/s41586-025-08771-z
Publication status	Published - 29 May 2025
MoE publication type	A1 Journal article-refereed

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

Fields of Science

3111 Biomedicine
1184 Genetics, developmental biology, physiology

Access to Document

10.1038/s41586-025-08771-z

s41586-025-08771-z (2)Final published version, 11.3 MBLicence: CC BY

Cite this

ArcOGEN Consortium, ARGO Consortium, DBDS Genomic Consortium, Estonian Biobank Research Team, FinnGen, Genes & Health Research Team, HUNT All-In Pain, Million Veteran Program, Regeneron Genetics Center, Hatzikotoulas, K., Southam, L., Stefansdottir, L., Karjalainen, J., Lemmelä, S., Daly, M., & Palotie, A. (2025). Translational genomics of osteoarthritis in 1,962,069 individuals. Nature, 641(8065), 1217–1224. https://doi.org/10.1038/s41586-025-08771-z

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abstract = "Osteoarthritis is the third most rapidly growing health condition associated with disability, after dementia and diabetes1. By 2050, the total number of patients with osteoarthritis is estimated to reach 1 billion worldwide2. As no disease-modifying treatments exist for osteoarthritis, a better understanding of disease aetiopathology is urgently needed. Here we perform a genome-wide association study meta-analyses across up to 489,975 cases and 1,472,094 controls, establishing 962 independent associations, 513 of which have not been previously reported. Using single-cell multiomics data, we identify signal enrichment in embryonic skeletal development pathways. We integrate orthogonal lines of evidence, including transcriptome, proteome and epigenome profiles of primary joint tissues, and implicate 700 effector genes. Within these, we find rare coding-variant burden associations with effect sizes that are consistently higher than common frequency variant associations. We highlight eight biological processes in which we find convergent involvement of multiple effector genes, including the circadian clock, glial-cell-related processes and pathways with an established role in osteoarthritis (TGFβ, FGF, WNT, BMP and retinoic acid signalling, and extracellular matrix organization). We find that 10% of the effector genes express a protein that is the target of approved drugs, offering repurposing opportunities, which can accelerate translation.",

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author = "{ArcOGEN Consortium} and {ARGO Consortium} and {DBDS Genomic Consortium} and {Estonian Biobank Research Team} and FinnGen and {Genes & Health Research Team} and {HUNT All-In Pain} and {Million Veteran Program} and {Regeneron Genetics Center} and Konstantinos Hatzikotoulas and Lorraine Southam and Lilja Stefansdottir and Boer, {Cindy G.} and McDonald, {Merry Lynn} and Pett, {J. Patrick} and Park, {Young Chan} and Margo Tuerlings and Rick Mulders and Andrei Barysenka and Arruda, {Ana Luiza} and Vinicius Tragante and Alison Rocco and Norbert Bittner and Shibo Chen and Susanne Horn and Vinodh Srinivasasainagendra and Ken To and Georgia Katsoula and Peter Kreitmaier and Tenghe, {Amabel M.M.} and Arthur Gilly and Liubov Arbeeva and Chen, {Lane G.} and {de Pins}, {Agathe M.} and Daniel Dochtermann and Cecilie Henkel and Jonas H{\"o}ijer and Shuji Ito and Lind, {Penelope A.} and Bitota Lukusa-Sawalena and Minn, {Aye Ko Ko} and Marina Mola-Caminal and Akira Narita and Chelsea Nguyen and Ene Reimann and Silberstein, {Micah D.} and Skogholt, {Anne Heidi} and Tiwari, {Hemant K.} and Yau, {Michelle S.} and Ming Yue and Wei Zhao and Zhou, {Jin J.} and George Alexiadis and Karina Banasik and S{\o}ren Brunak and Juha Karjalainen and Susanna Lemmel{\"a} and Mark Daly and Aarno Palotie",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

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ArcOGEN Consortium, ARGO Consortium, DBDS Genomic Consortium, Estonian Biobank Research Team, FinnGen, Genes & Health Research Team, HUNT All-In Pain, Million Veteran Program, Regeneron Genetics Center, Hatzikotoulas, K, Southam, L, Stefansdottir, L, Karjalainen, J , Lemmelä, S , Daly, M & Palotie, A 2025, 'Translational genomics of osteoarthritis in 1,962,069 individuals', Nature, vol. 641, no. 8065, pp. 1217–1224. https://doi.org/10.1038/s41586-025-08771-z

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T1 - Translational genomics of osteoarthritis in 1,962,069 individuals

AU - ArcOGEN Consortium

AU - ARGO Consortium

AU - DBDS Genomic Consortium

AU - Estonian Biobank Research Team

AU - FinnGen

AU - Genes & Health Research Team

AU - HUNT All-In Pain

AU - Million Veteran Program

AU - Regeneron Genetics Center

AU - Hatzikotoulas, Konstantinos

AU - Southam, Lorraine

AU - Stefansdottir, Lilja

AU - Boer, Cindy G.

AU - McDonald, Merry Lynn

AU - Pett, J. Patrick

AU - Park, Young Chan

AU - Tuerlings, Margo

AU - Mulders, Rick

AU - Barysenka, Andrei

AU - Arruda, Ana Luiza

AU - Tragante, Vinicius

AU - Rocco, Alison

AU - Bittner, Norbert

AU - Chen, Shibo

AU - Horn, Susanne

AU - Srinivasasainagendra, Vinodh

AU - To, Ken

AU - Katsoula, Georgia

AU - Kreitmaier, Peter

AU - Tenghe, Amabel M.M.

AU - Gilly, Arthur

AU - Arbeeva, Liubov

AU - Chen, Lane G.

AU - de Pins, Agathe M.

AU - Dochtermann, Daniel

AU - Henkel, Cecilie

AU - Höijer, Jonas

AU - Ito, Shuji

AU - Lind, Penelope A.

AU - Lukusa-Sawalena, Bitota

AU - Minn, Aye Ko Ko

AU - Mola-Caminal, Marina

AU - Narita, Akira

AU - Nguyen, Chelsea

AU - Reimann, Ene

AU - Silberstein, Micah D.

AU - Skogholt, Anne Heidi

AU - Tiwari, Hemant K.

AU - Yau, Michelle S.

AU - Yue, Ming

AU - Zhao, Wei

AU - Zhou, Jin J.

AU - Alexiadis, George

AU - Banasik, Karina

AU - Brunak, Søren

AU - Karjalainen, Juha

AU - Lemmelä, Susanna

AU - Daly, Mark

AU - Palotie, Aarno

PY - 2025/5/29

Y1 - 2025/5/29

N2 - Osteoarthritis is the third most rapidly growing health condition associated with disability, after dementia and diabetes1. By 2050, the total number of patients with osteoarthritis is estimated to reach 1 billion worldwide2. As no disease-modifying treatments exist for osteoarthritis, a better understanding of disease aetiopathology is urgently needed. Here we perform a genome-wide association study meta-analyses across up to 489,975 cases and 1,472,094 controls, establishing 962 independent associations, 513 of which have not been previously reported. Using single-cell multiomics data, we identify signal enrichment in embryonic skeletal development pathways. We integrate orthogonal lines of evidence, including transcriptome, proteome and epigenome profiles of primary joint tissues, and implicate 700 effector genes. Within these, we find rare coding-variant burden associations with effect sizes that are consistently higher than common frequency variant associations. We highlight eight biological processes in which we find convergent involvement of multiple effector genes, including the circadian clock, glial-cell-related processes and pathways with an established role in osteoarthritis (TGFβ, FGF, WNT, BMP and retinoic acid signalling, and extracellular matrix organization). We find that 10% of the effector genes express a protein that is the target of approved drugs, offering repurposing opportunities, which can accelerate translation.

AB - Osteoarthritis is the third most rapidly growing health condition associated with disability, after dementia and diabetes1. By 2050, the total number of patients with osteoarthritis is estimated to reach 1 billion worldwide2. As no disease-modifying treatments exist for osteoarthritis, a better understanding of disease aetiopathology is urgently needed. Here we perform a genome-wide association study meta-analyses across up to 489,975 cases and 1,472,094 controls, establishing 962 independent associations, 513 of which have not been previously reported. Using single-cell multiomics data, we identify signal enrichment in embryonic skeletal development pathways. We integrate orthogonal lines of evidence, including transcriptome, proteome and epigenome profiles of primary joint tissues, and implicate 700 effector genes. Within these, we find rare coding-variant burden associations with effect sizes that are consistently higher than common frequency variant associations. We highlight eight biological processes in which we find convergent involvement of multiple effector genes, including the circadian clock, glial-cell-related processes and pathways with an established role in osteoarthritis (TGFβ, FGF, WNT, BMP and retinoic acid signalling, and extracellular matrix organization). We find that 10% of the effector genes express a protein that is the target of approved drugs, offering repurposing opportunities, which can accelerate translation.

KW - 3111 Biomedicine

KW - 1184 Genetics, developmental biology, physiology

U2 - 10.1038/s41586-025-08771-z

DO - 10.1038/s41586-025-08771-z

M3 - Article

AN - SCOPUS:105002481309

SN - 0028-0836

VL - 641

SP - 1217

EP - 1224

JO - Nature

JF - Nature

IS - 8065

ER -