TY - JOUR
T1 - NMR metabolomic modeling of age and lifespan
T2 - A multicohort analysis
AU - Lau, Chung Ho E.
AU - Manou, Maria
AU - Markozannes, Georgios
AU - Ala-Korpela, Mika
AU - Ben-Shlomo, Yoav
AU - Chaturvedi, Nish
AU - Engmann, Jorgen
AU - Gentry-Maharaj, Aleksandra
AU - Herzig, Karl Heinz
AU - Hingorani, Aroon
AU - Järvelin, Marjo Riitta
AU - Kähönen, Mika
AU - Kivimäki, Mika
AU - Lehtimäki, Terho
AU - Marttila, Saara
AU - Menon, Usha
AU - Munroe, Patricia B.
AU - Palaniswamy, Saranya
AU - Providencia, Rui
AU - Raitakari, Olli
AU - Schmidt, Amand Floriaan
AU - Sebert, Sylvain
AU - Wong, Andrew
AU - Vineis, Paolo
AU - Tzoulaki, Ioanna
AU - Robinson, Oliver
N1 - Publisher Copyright: © 2024 The Authors. Aging Cell published by Anatomical Society and John Wiley & Sons Ltd.
PY - 2024
Y1 - 2024
N2 - Metabolomic age models have been proposed for the study of biological aging, however, they have not been widely validated. We aimed to assess the performance of newly developed and existing nuclear magnetic resonance spectroscopy (NMR) metabolomic age models for prediction of chronological age (CA), mortality, and age-related disease. Ninety-eight metabolic variables were measured in blood from nine UK and Finnish cohort studies (N ≈31,000 individuals, age range 24–86 years). We used nonlinear and penalized regression to model CA and time to all-cause mortality. We examined associations of four new and two previously published metabolomic age models, with aging risk factors and phenotypes. Within the UK Biobank (N ≈102,000), we tested prediction of CA, incident disease (cardiovascular disease (CVD), type-2 diabetes mellitus, cancer, dementia, and chronic obstructive pulmonary disease), and all-cause mortality. Seven-fold cross-validated Pearson's r between metabolomic age models and CA ranged between 0.47 and 0.65 in the training cohort set (mean absolute error: 8–9 years). Metabolomic age models, adjusted for CA, were associated with C-reactive protein, and inversely associated with glomerular filtration rate. Positively associated risk factors included obesity, diabetes, smoking, and physical inactivity. In UK Biobank, correlations of metabolomic age with CA were modest (r = 0.29–0.33), yet all metabolomic model scores predicted mortality (hazard ratios of 1.01 to 1.06/metabolomic age year) and CVD, after adjustment for CA. While metabolomic age models were only moderately associated with CA in an independent population, they provided additional prediction of morbidity and mortality over CA itself, suggesting their wider applicability.
AB - Metabolomic age models have been proposed for the study of biological aging, however, they have not been widely validated. We aimed to assess the performance of newly developed and existing nuclear magnetic resonance spectroscopy (NMR) metabolomic age models for prediction of chronological age (CA), mortality, and age-related disease. Ninety-eight metabolic variables were measured in blood from nine UK and Finnish cohort studies (N ≈31,000 individuals, age range 24–86 years). We used nonlinear and penalized regression to model CA and time to all-cause mortality. We examined associations of four new and two previously published metabolomic age models, with aging risk factors and phenotypes. Within the UK Biobank (N ≈102,000), we tested prediction of CA, incident disease (cardiovascular disease (CVD), type-2 diabetes mellitus, cancer, dementia, and chronic obstructive pulmonary disease), and all-cause mortality. Seven-fold cross-validated Pearson's r between metabolomic age models and CA ranged between 0.47 and 0.65 in the training cohort set (mean absolute error: 8–9 years). Metabolomic age models, adjusted for CA, were associated with C-reactive protein, and inversely associated with glomerular filtration rate. Positively associated risk factors included obesity, diabetes, smoking, and physical inactivity. In UK Biobank, correlations of metabolomic age with CA were modest (r = 0.29–0.33), yet all metabolomic model scores predicted mortality (hazard ratios of 1.01 to 1.06/metabolomic age year) and CVD, after adjustment for CA. While metabolomic age models were only moderately associated with CA in an independent population, they provided additional prediction of morbidity and mortality over CA itself, suggesting their wider applicability.
KW - aging
KW - biological age
KW - cohort study
KW - metabolome
KW - metabolomics
KW - molecular epidemiology
KW - mortality
KW - NMR
KW - population aging
UR - http://www.scopus.com/inward/record.url?scp=85191012484&partnerID=8YFLogxK
U2 - 10.1111/acel.14164
DO - 10.1111/acel.14164
M3 - Article
C2 - 38637937
SN - 1474-9718
JO - Aging cell
JF - Aging cell
ER -