Existing metabolomic clocks exhibit deficiencies in capturing the heterogeneous aging rates among individuals with the same chronological age. Yet, the modifiable and non-modifiable factors in metabolomic aging have not been systematically studied. Here, a new aging measure-MetaboAgeMort-is developed using metabolomic profiles from 239,291 UK Biobank participants for 10-year all-cause mortality prediction. The MetaboAgeMort showed significant associations with all-cause mortality, cause-specific mortality, and diverse incident diseases. Adding MetaboAgeMort to a conventional risk factors model improved the predictive ability of 10-year mortality. A total of 99 modifiable factors across seven categories are identified for MetaboAgeMort. Among these, 16 factors representing pulmonary function, body composition, socioeconomic status, dietary quality, smoking status, alcohol intake, and disease status showed quantitatively stronger associations. The genetic analyses revealed 99 genomic risk loci and 271 genes associated with MetaboAgeMort. The tissue-enrichment analysis showed significant enrichment in liver. While the external validation of the MetaboAgeMort is required, this study illuminates heterogeneous metabolomic aging across the same age, providing avenues for identifying high-risk individuals, developing anti-aging therapies, and personalizing interventions, thus promoting healthy aging and longevity.
© 2024 The Author(s). Advanced Science published by Wiley‐VCH GmbH.
Overview publication
Title | A Novel Metabolomic Aging Clock Predicting Health Outcomes and Its Genetic and Modifiable Factors. |
Date | September 27th, 2024 |
Issue name | Advanced science (Weinheim, Baden-Wurttemberg, Germany) |
Issue number | :e2406670 |
DOI | 10.1002/advs.202406670 |
PubMed | 39331845 |
Authors | |
Keywords | aging, biological age, genetic determinant, metabolomic, modifiable factor, mortality |
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