Large-scale genome-wide analyses with proteomics integration reveal novel loci and biological insights into frailty

FinnGen; Jonathan K.L. Mak; Chenxi Qin; Moritz Krüger; Anna Kuukka; Sara Hägg; Jake Lin; Juulia Jylhävä

doi:10.1038/s43587-025-00925-y

Large-scale genome-wide analyses with proteomics integration reveal novel loci and biological insights into frailty

FinnGen, Jonathan K.L. Mak, Chenxi Qin, Moritz Krüger, Anna Kuukka, Sara Hägg, Jake Lin, Juulia Jylhävä

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Abstract

Frailty is a clinically relevant phenotype with notable gaps in our understanding of its etiology. Using the Hospital Frailty Risk Score (HFRS) to define frailty, we performed a genome-wide association study in FinnGen (N = 500,737), replicated the results in the UK Biobank (N = 407,463) and performed a meta-analysis. We prioritized genes through colocalization with expression, splicing and protein quantitative trait loci and proteomics integration. We identified 53 independent lead variants associated with frailty (P < 5 × 10⁻⁸), of which 45 were novel and not previously reported in the GWAS Catalog. Replication at the individual variant and polygenic risk score of the HFRS (P = 1.86 × 10⁻⁵²²) levels and meta-analysis largely confirmed the findings. Colocalization analysis supported a causal role for several genes, including CHST9, C6orf106 (ILRUN), KHK, MET, APOE, CGREF1 and PPP6C. Additionally, plasma levels of MET, CGREF1 and APOE were associated with HFRS. Our results reveal new genetic contributions to frailty and shed light on its biological basis.

Original language	English
Pages (from-to)	1589-1600
Journal	Nature Aging
Volume	5
Issue number	8
DOIs	https://doi.org/10.1038/s43587-025-00925-y
Publication status	Published - Aug 2025
Publication type	A1 Journal article-refereed

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Publication forum level 1

ASJC Scopus subject areas

Neuroscience (miscellaneous)
Ageing
Geriatrics and Gerontology

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https://urn.fi/URN:NBN:fi:tuni-202510139824Licence: CC BY

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title = "Large-scale genome-wide analyses with proteomics integration reveal novel loci and biological insights into frailty",

abstract = "Frailty is a clinically relevant phenotype with notable gaps in our understanding of its etiology. Using the Hospital Frailty Risk Score (HFRS) to define frailty, we performed a genome-wide association study in FinnGen (N = 500,737), replicated the results in the UK Biobank (N = 407,463) and performed a meta-analysis. We prioritized genes through colocalization with expression, splicing and protein quantitative trait loci and proteomics integration. We identified 53 independent lead variants associated with frailty (P < 5 × 10−8), of which 45 were novel and not previously reported in the GWAS Catalog. Replication at the individual variant and polygenic risk score of the HFRS (P = 1.86 × 10−522) levels and meta-analysis largely confirmed the findings. Colocalization analysis supported a causal role for several genes, including CHST9, C6orf106 (ILRUN), KHK, MET, APOE, CGREF1 and PPP6C. Additionally, plasma levels of MET, CGREF1 and APOE were associated with HFRS. Our results reveal new genetic contributions to frailty and shed light on its biological basis.",

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year = "2025",

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AU - FinnGen

AU - Mak, Jonathan K.L.

AU - Qin, Chenxi

AU - Krüger, Moritz

AU - Kuukka, Anna

AU - Hägg, Sara

AU - Lin, Jake

AU - Jylhävä, Juulia

PY - 2025/8

Y1 - 2025/8

N2 - Frailty is a clinically relevant phenotype with notable gaps in our understanding of its etiology. Using the Hospital Frailty Risk Score (HFRS) to define frailty, we performed a genome-wide association study in FinnGen (N = 500,737), replicated the results in the UK Biobank (N = 407,463) and performed a meta-analysis. We prioritized genes through colocalization with expression, splicing and protein quantitative trait loci and proteomics integration. We identified 53 independent lead variants associated with frailty (P < 5 × 10−8), of which 45 were novel and not previously reported in the GWAS Catalog. Replication at the individual variant and polygenic risk score of the HFRS (P = 1.86 × 10−522) levels and meta-analysis largely confirmed the findings. Colocalization analysis supported a causal role for several genes, including CHST9, C6orf106 (ILRUN), KHK, MET, APOE, CGREF1 and PPP6C. Additionally, plasma levels of MET, CGREF1 and APOE were associated with HFRS. Our results reveal new genetic contributions to frailty and shed light on its biological basis.

AB - Frailty is a clinically relevant phenotype with notable gaps in our understanding of its etiology. Using the Hospital Frailty Risk Score (HFRS) to define frailty, we performed a genome-wide association study in FinnGen (N = 500,737), replicated the results in the UK Biobank (N = 407,463) and performed a meta-analysis. We prioritized genes through colocalization with expression, splicing and protein quantitative trait loci and proteomics integration. We identified 53 independent lead variants associated with frailty (P < 5 × 10−8), of which 45 were novel and not previously reported in the GWAS Catalog. Replication at the individual variant and polygenic risk score of the HFRS (P = 1.86 × 10−522) levels and meta-analysis largely confirmed the findings. Colocalization analysis supported a causal role for several genes, including CHST9, C6orf106 (ILRUN), KHK, MET, APOE, CGREF1 and PPP6C. Additionally, plasma levels of MET, CGREF1 and APOE were associated with HFRS. Our results reveal new genetic contributions to frailty and shed light on its biological basis.

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DO - 10.1038/s43587-025-00925-y

M3 - Article

AN - SCOPUS:105015863188

SN - 2662-8465

VL - 5

SP - 1589

EP - 1600

JO - Nature Aging

JF - Nature Aging

IS - 8

ER -

Large-scale genome-wide analyses with proteomics integration reveal novel loci and biological insights into frailty

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