Association of Genetic Scores Related to Insulin Resistance With Neurological Outcomes in Ancestrally Diverse Cohorts From the Trans-Omics for Precision Medicine (TOPMed) Program

Authors

Chloé Sarnowski
Yixin Zhang
Farah Ammous
Lincoln M P Shade
Daniel DiCorpo
Xueqiu Jian
Donna K Arnett
Thomas R Austin
Alexa Beiser
Joshua C Bis
John Blangero
Eric Boerwinkle
Jan Bressler
Joanne E Curran
Charles S DeCarli
Harsha Doddapaneni
Josée Dupuis
David W Fardo
Jose C Florez
Stacey Gabriel
Richard A Gibbs
David C Glahn
Namrata Gupta
Hector M González
Kevin A González
Konstantinos Hatzikotoulas
Kathleen M Hayden
Susan R Heckbert
Bertha Hidalgo
Alicia Huerta-Chagoya
Timothy M Hughes
Sharon L R Kardia
Charles L Kooperberg
Lenore J Launer
W T Longstreth
Ravi Mandla
Rasika A Mathias
Andrew P Morris
Thomas H Mosley
Ilya M Nasrallah
Paul Nyquist
Bruce M Psaty
Qibin Qi
Laura M Raffield
Nigel W Rayner
Alexander P Reiner
Claudia L Satizabal
Elizabeth Selvin
Magdalena D R Sevilla-Gonzalez
Albert V Smith
Jennifer A Smith
Kirk Smith
Beverly M Snively
Lorraine Southam
Tamar Sofer
Ken Suzuki
Henry J Taylor
Miriam S Udler
Karine A Viaud-Martinez
Sylvia Wassertheil-Smoller
Alexis C Wood
Lisa R Yanek
Xianyong Yin
Alisa K Manning
Jerome I Rotter
Stephen S Rich
James B Meigs
Myriam Fornage
Sudha Seshadri
Alanna C Morrison
TOPMed Neurocognitive Working Group
TOPMed Diabetes Working Group

Language

English

Publication Date

9-24-2025

Journal

Communication Biology

DOI

10.1038/s42003-025-08674-9

PMID

40993182

PMCID

PMC12460837

PubMedCentral® Posted Date

9-24-2025

PubMedCentral® Full Text Version

Post-print

Abstract

To better characterize the potential biological mechanisms underlying insulin resistance (IR) and dementia, we derive cross-population and population specific polygenic scores [PSs] for fasting insulin and IR-related partitioned PSs [pPSs]. We conduct a cross-sectional study of the associations of these genetic scores with neurological outcomes in >17k participants (36% men, mean age 55 yrs) from the Trans-Omics for Precision Medicine (TOPMed) program (50% Non-Hispanic White, 23% Black/African American, 21% Hispanic/Latino American, and 4% Asian American). We report significant negative associations (P <  0.002) of the cross-population (P = 1.3 × 10-5) and European (PEA = 3.0 × 10-8) fasting insulin PSs with total cranial volume, and of a metabolic syndrome European PS with general cognitive function (BEA = -0.13, PEA = 0.0002) and lateral ventricular volume (BEA = 0.09, PEA = 0.002). We identify suggestive negative associations (P <  0.007) of metabolic syndrome and obesity pPSs with general cognitive function, and of lipodystrophy pPSs with total cranial volume. A higher genetic predisposition to IR is associated with lower brain size, and a genetic predisposition to specific IR-related type 2 diabetes subtypes, such as metabolic syndrome and mechanisms of IR mediated through obesity and lipodystrophy, is potentially involved in cognitive decline.

Keywords

Humans, Male, Insulin Resistance, Middle Aged, Female, Precision Medicine, Cross-Sectional Studies, Aged, Metabolic Syndrome, Adult, Genetic association study, Genomics, Genetic variation

Published Open-Access

yes

Recommended Citation

Sarnowski, Chloé; Zhang, Yixin; Ammous, Farah; et al., "Association of Genetic Scores Related to Insulin Resistance With Neurological Outcomes in Ancestrally Diverse Cohorts From the Trans-Omics for Precision Medicine (TOPMed) Program" (2025). The Brown Foundation: Institute of Molecular Medicine. 24.
https://digitalcommons.library.tmc.edu/molecular_med/24