Sex-Specific Plasma Metabolomic Signatures in COPD Reveal Creatine, Purine/Urate, and Bile-Acid Axes
Carme Casadevall, César Jessé Enríquez-Rodríguez, Alexandra Eliassaf, Ady Castro-Acosta, Rosa Faner, José Luis López-Campos, Eduard Monsó, Sergi Pascual-Guàrdia, Ramon Camps-Ubach, Borja G. Cosío, Alvar Agustí, Ori Shalev, Joaquim Gea

TL;DR
The study finds sex-specific metabolic differences in COPD patients, highlighting creatine, purine/urate, and bile-acid pathways.
Contribution
It identifies novel sex-specific plasma metabolomic signatures in COPD, revealing distinct metabolic axes influenced by sex.
Findings
COPD patients showed decreased levels of nine metabolites compared to controls.
Sex-specific differences in COPD include higher urate in men and altered creatine and bile-acid pathways.
Metabolic patterns suggest systemic remodeling and sex-influenced heterogeneity in COPD.
Abstract
Metabolomic studies in COPD reveal systemic metabolic perturbations, yet sex is often treated as a covariate rather than a biological driver. We aimed to identify plasma metabolites differentiating COPD from controls and to define sex-specific metabolic signatures in both groups. Methods: In this controlled observational study (BIOMEPOC cohort), untargeted plasma metabolomics was performed by LC-MS/MS. Differential abundance was tested across four contrasts (COPD vs. controls; men vs. women within controls; men vs. women within COPD; sex-by-disease interaction) with a false discovery rate (FDR) correction. Because smoking history differed between COPD and controls, a post hoc ever-smokers analysis was conducted. Results: COPD differed from controls in nine metabolites (all decreased): DL-stachydrine, 3-methyl-L-histidine, fructose, pipecolinic and nipecotic acids, 5-nitro-o-toluidine,…
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Taxonomy
TopicsChronic Obstructive Pulmonary Disease (COPD) Research · Metabolomics and Mass Spectrometry Studies · Advanced Chemical Sensor Technologies
