Integrating Unknown Metabolites to Optimize a Metabolomic Distress Score for Psychological Distress in Older Women
Yiwen Zhu, Raji Balasubramanian, Julián Ávila-Pacheco, Clary Clish, Jie Yao, Jerome Rotter, Laura Kubzansky, Susan Hankinson

TL;DR
This study improves a metabolomic score for psychological distress in older women by incorporating previously unknown metabolites, enhancing its predictive power for cardiometabolic risk.
Contribution
The study introduces a revised metabolomic distress score (rMDS) that includes newly identified and uncharacterized metabolites linked to psychological distress.
Findings
A revised metabolomic distress score (rMDS) was developed using 67 known and unknown metabolites, showing stronger associations with distress than the original score.
14 metabolite features were robustly associated with distress across all cohorts, with 26 new annotations identified, including cholesteryl esters and zeaxanthin.
The rMDS outperformed the original MDS in predicting distress in the Nurses’ Health Study cohort.
Abstract
Chronic distress, including depression and anxiety, contributes significantly to cardiometabolic risk in aging populations, with metabolic alterations acting as a key pathway. We previously developed a metabolomic distress score (MDS) using 20 identified metabolites in older White women, which predicted cardiometabolic risk in aging cohorts. Here, we expand this approach by identifying metabolomic features not yet characterized that are associated with distress and derive a revised score incorporating these features (rMDS). Assays were conducted at the Broad Institute using nontargeted liquid chromatography-mass spectrometry methods. We performed agnostic analyses assessing associations between distress and up to 5539 unannotated features among older White women from three cohorts: Nurses’ Health Study (N = 540, mean age=64), Women’s Health Initiative Observational Cohort (N = 1107;…
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Taxonomy
TopicsMetabolomics and Mass Spectrometry Studies · Cardiovascular Health and Risk Factors · Medicinal Plants and Bioactive Compounds
