AI Article Synopsis
- The study investigates how air pollution impacts chronic respiratory disease (CRD) risk by analyzing metabolomic data from over 171,000 participants without COPD or asthma.
- Researchers found that higher exposure to particulate matter and nitrogen oxides correlated with increased CRD incidence, identifying specific metabolites linked to these pollutants.
- The results suggest that certain metabolic processes, specifically inflammatory and erythrocyte-related pathways, mediate the effects of air pollution on CRD risk.
Article Abstract
Background: Although evidence has documented the associations of ambient air pollution with chronic respiratory diseases (CRDs) and lung function, the underlying metabolic mechanisms remain largely unclear.
Research Question: How does the metabolomic signature for air pollution relate to CRD risk, respiratory symptoms, and lung function?
Study Design And Methods: We retrieved 171,132 participants free of COPD and asthma at baseline from the UK Biobank, who had data on air pollution and metabolomics. Exposures to air pollutants (particulate matter with diameter ≤ 2.5 μm [PM], particulate matter with a diameter ≤ 10 μm, nitrogen oxide [NO], and NO) were assessed for 4 years before baseline considering residential address histories. We used 10-fold cross-validation elastic net regression to identify air pollution-associated metabolites. Multivariable Cox models were used to assess the associations between metabolomic signatures and CRD risk. Mediation and pathway analysis were conducted to explore the metabolic mechanism underlying the associations.
Results: During a median follow-up of 12.51 years, 8,951 and 5,980 incident COPD and asthma cases were recorded. In multivariable Cox regressions, air pollution was positively associated with CRD risk (eg, hazard ratio per interquartile range increment in PM, 1.09; 95% CI, 1.06-1.13). We identified 103, 86, 85, and 90 metabolites in response to PM, particulate matter with a diameter ≤ 10 μm, NO, and NO exposure, respectively. The metabolomic signatures showed significant associations with CRD risk (hazard ratio per SD increment in PM metabolomic signature, 1.11; 95% CI, 1.09-1.14). Mediation analysis showed that peripheral inflammatory and erythrocyte-related markers mediated the effects of metabolomic signatures on CRD risk. We identified 14 and 12 perturbed metabolic pathways (energy metabolism and amino acid metabolism pathways, etc) for PM and NO metabolomic signatures.
Interpretation: Our study identifies metabolomic signatures for air pollution exposure. The metabolomic signatures showed significant associations with CRD risk, and inflammatory- and erythrocyte-related markers partly mediated the metabolomic signatures-CRD links.
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| http://dx.doi.org/10.1016/j.chest.2024.06.3809 | DOI Listing |
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