Modeling the genomic architecture of adiposity and anthropometrics across the lifespan

Colorado Center for Personalized Medicine

doi:10.1038/s41467-025-62730-w

Modeling the genomic architecture of adiposity and anthropometrics across the lifespan

Colorado Center for Personalized Medicine

Section of Neuromuscular Medicine

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

Abstract

Obesity-related conditions are among the leading causes of preventable death and are increasing in prevalence worldwide. Body size and composition are complex traits that are challenging to characterize due to environmental and genetic influences, longitudinal variation, heterogeneity between sexes, and differing health risks based on adipose distribution. Here, we construct a 4-factor genomic structural equation model using 18 measures, unveiling shared and distinct genetic architectures underlying birth size, abdominal size, adipose distribution, and adiposity. Multivariate genome-wide associations reveal the adiposity factor is enriched specifically in neural tissues and pathways, while adipose distribution is enriched more broadly across physiological systems. In addition, polygenic scores for the adiposity factor predict many adverse health outcomes, while those for body size and composition predict a more limited subset. Finally, we characterize the factors’ genetic correlations with obesity-related traits and examine the druggable genome by constructing a bipartite drug-gene network to identify potential therapeutic targets.

Original language	English
Article number	7494
Journal	Nature communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-62730-w
State	Published - Dec 2025

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@article{0797a3eb037c49a2b023f880fe80c55b,

title = "Modeling the genomic architecture of adiposity and anthropometrics across the lifespan",

abstract = "Obesity-related conditions are among the leading causes of preventable death and are increasing in prevalence worldwide. Body size and composition are complex traits that are challenging to characterize due to environmental and genetic influences, longitudinal variation, heterogeneity between sexes, and differing health risks based on adipose distribution. Here, we construct a 4-factor genomic structural equation model using 18 measures, unveiling shared and distinct genetic architectures underlying birth size, abdominal size, adipose distribution, and adiposity. Multivariate genome-wide associations reveal the adiposity factor is enriched specifically in neural tissues and pathways, while adipose distribution is enriched more broadly across physiological systems. In addition, polygenic scores for the adiposity factor predict many adverse health outcomes, while those for body size and composition predict a more limited subset. Finally, we characterize the factors{\textquoteright} genetic correlations with obesity-related traits and examine the druggable genome by constructing a bipartite drug-gene network to identify potential therapeutic targets.",

author = "\{Colorado Center for Personalized Medicine\} and Arehart, \{Christopher H.\} and Meng Lin and Gibson, \{Raine A.\} and Wiley, \{Laura K.\} and Trinkley, \{Katy E.\} and Todd, \{Emily B.\} and Candace Teague and Taylor, \{Matthew R.G.\} and Anna Tanaka and Swartz, \{Carolyn T.\} and Sutton, \{Kristen J.\} and Stewart, \{Adrian M.\} and Shortt, \{Johnathan A.\} and Hoda Sherif and Shalowitz, \{Elise L.\} and Neda Rasouli and Sridharan Raghavan and Nick Rafaels and Alaa Radwan and Nikita Pozdeyev and Jack Pattee and Ann Nadrash and Ethan Moore and Andrew Monte and McDaniel, \{Nicole L.\} and David Mayer and Gates, \{Brianna L.\} and Martin, \{James L.\} and Darcy Marceau and Maldonado, \{Betzaida L.\} and Vargas, \{Luciana B.\} and Lowery, \{Jan T.\} and Lesny, \{Joe A.\} and Lee, \{Yee Ming\} and Lange, \{Ethan M.\} and Rashawnda Lacy and Kudron, \{Elizabeth L.\} and Lisa Ku and Iain Konigsberg and Dave Kao and Julian, \{Colleen G.\} and Johnson, \{Randi K.\} and Hendricks, \{Audrey E.\} and Emily Hearst and Brooke Hawkes and Greene, \{Casey S.\} and Gilliland, \{Elizabeth K.\} and Gignoux, \{Christopher R.\} and Hunter George and Frye, \{Teresa C.\} and Franklin, \{Alan W.\} and Fisher, \{Matthew J.\} and Edelmann, \{Michelle N.\} and Erin Culver and Jacob Crawford and Kristy Crooks and Coughlin, \{Curtis R.\} and Cole, \{Joanne B.\} and Casteel, \{Emily M.\} and Burke, \{Elizabeth E.\} and Judith Brutus-Lestin and Brunetti, \{Tonya M.\} and Brooks, \{Ian M.\} and Arehart, \{Christopher H.\} and Kelsey Arbogast and Aquilante, \{Christina L.\} and Anderson, \{Heather D.\} and Gignoux, \{Christopher R.\} and Stanislawski, \{Maggie A.\} and Grotzinger, \{Andrew D.\} and Evans, \{Luke M.\}",

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

year = "2025",

month = dec,

doi = "10.1038/s41467-025-62730-w",

language = "English",

volume = "16",

journal = "Nature communications",

issn = "2041-1723",

number = "1",

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TY - JOUR

T1 - Modeling the genomic architecture of adiposity and anthropometrics across the lifespan

AU - Colorado Center for Personalized Medicine

AU - Arehart, Christopher H.

AU - Lin, Meng

AU - Gibson, Raine A.

AU - Wiley, Laura K.

AU - Trinkley, Katy E.

AU - Todd, Emily B.

AU - Teague, Candace

AU - Taylor, Matthew R.G.

AU - Tanaka, Anna

AU - Swartz, Carolyn T.

AU - Sutton, Kristen J.

AU - Stewart, Adrian M.

AU - Shortt, Johnathan A.

AU - Sherif, Hoda

AU - Shalowitz, Elise L.

AU - Rasouli, Neda

AU - Raghavan, Sridharan

AU - Rafaels, Nick

AU - Radwan, Alaa

AU - Pozdeyev, Nikita

AU - Pattee, Jack

AU - Nadrash, Ann

AU - Moore, Ethan

AU - Monte, Andrew

AU - McDaniel, Nicole L.

AU - Mayer, David

AU - Gates, Brianna L.

AU - Martin, James L.

AU - Marceau, Darcy

AU - Maldonado, Betzaida L.

AU - Vargas, Luciana B.

AU - Lowery, Jan T.

AU - Lesny, Joe A.

AU - Lee, Yee Ming

AU - Lange, Ethan M.

AU - Lacy, Rashawnda

AU - Kudron, Elizabeth L.

AU - Ku, Lisa

AU - Konigsberg, Iain

AU - Kao, Dave

AU - Julian, Colleen G.

AU - Johnson, Randi K.

AU - Hendricks, Audrey E.

AU - Hearst, Emily

AU - Hawkes, Brooke

AU - Greene, Casey S.

AU - Gilliland, Elizabeth K.

AU - Gignoux, Christopher R.

AU - George, Hunter

AU - Frye, Teresa C.

AU - Franklin, Alan W.

AU - Fisher, Matthew J.

AU - Edelmann, Michelle N.

AU - Culver, Erin

AU - Crawford, Jacob

AU - Crooks, Kristy

AU - Coughlin, Curtis R.

AU - Cole, Joanne B.

AU - Casteel, Emily M.

AU - Burke, Elizabeth E.

AU - Brutus-Lestin, Judith

AU - Brunetti, Tonya M.

AU - Brooks, Ian M.

AU - Arehart, Christopher H.

AU - Arbogast, Kelsey

AU - Aquilante, Christina L.

AU - Anderson, Heather D.

AU - Gignoux, Christopher R.

AU - Stanislawski, Maggie A.

AU - Grotzinger, Andrew D.

AU - Evans, Luke M.

PY - 2025/12

Y1 - 2025/12

N2 - Obesity-related conditions are among the leading causes of preventable death and are increasing in prevalence worldwide. Body size and composition are complex traits that are challenging to characterize due to environmental and genetic influences, longitudinal variation, heterogeneity between sexes, and differing health risks based on adipose distribution. Here, we construct a 4-factor genomic structural equation model using 18 measures, unveiling shared and distinct genetic architectures underlying birth size, abdominal size, adipose distribution, and adiposity. Multivariate genome-wide associations reveal the adiposity factor is enriched specifically in neural tissues and pathways, while adipose distribution is enriched more broadly across physiological systems. In addition, polygenic scores for the adiposity factor predict many adverse health outcomes, while those for body size and composition predict a more limited subset. Finally, we characterize the factors’ genetic correlations with obesity-related traits and examine the druggable genome by constructing a bipartite drug-gene network to identify potential therapeutic targets.

AB - Obesity-related conditions are among the leading causes of preventable death and are increasing in prevalence worldwide. Body size and composition are complex traits that are challenging to characterize due to environmental and genetic influences, longitudinal variation, heterogeneity between sexes, and differing health risks based on adipose distribution. Here, we construct a 4-factor genomic structural equation model using 18 measures, unveiling shared and distinct genetic architectures underlying birth size, abdominal size, adipose distribution, and adiposity. Multivariate genome-wide associations reveal the adiposity factor is enriched specifically in neural tissues and pathways, while adipose distribution is enriched more broadly across physiological systems. In addition, polygenic scores for the adiposity factor predict many adverse health outcomes, while those for body size and composition predict a more limited subset. Finally, we characterize the factors’ genetic correlations with obesity-related traits and examine the druggable genome by constructing a bipartite drug-gene network to identify potential therapeutic targets.

UR - https://www.scopus.com/pages/publications/105013416985

U2 - 10.1038/s41467-025-62730-w

DO - 10.1038/s41467-025-62730-w

M3 - Article

C2 - 40796553

AN - SCOPUS:105013416985

SN - 2041-1723

VL - 16

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 7494

ER -

Modeling the genomic architecture of adiposity and anthropometrics across the lifespan

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