Omega-3 fatty acids intake and oxylipins production in response to short-term ambient air pollution exposure in healthy adults

Rationale: Exposure to air pollution is associated with adverse health effects through systemic inflammation and oxidative stress. One mechanism of beneficial effects of omega-3 polyunsaturated fatty acids (n-3 FA) is mediated via their inflammation resolution process by generating bioactive lipid mediators known as oxylipins.   Objective: This study examined the association between n-3 FA-derived bioactive oxylipins and short-term exposure to ambient air pollution in healthy adults.   Methods: Fifteen healthy adults were enrolled into either high or low n-3 groups based on n-3 FA intake and the participants underwent 4-5 blood collections for lipidomic profile of 55 oxylipins. Associations between ambient ozone, nitrogen dioxide (NO2), and fine particulate matter (PM2.5) levels and plasma oxylipins were assessed using mixed-effects models stratified by fatty acids levels. Results: Average concentrations of ozone (40.8±11.1 ppb), NO2 (5.3±3.8 ppb), and PM2.5 (10.2±4.1 µg/m3) were below national ambient air quality standards during the study period. Compared to the low n-3 group exposed to ozone and PM2.5, high n-3 group had significant reduction in arachidonic acids (AA) derived pro-inflammatory oxylipins produced by lipoxygenase (LOX). For instance, 12 HETE was negatively associated with ozone levels [for an IQR increase in ozone, -58.1% (95% CI:-96.8, -19.4) vs. 14.5% (95% CI:-33, 62)] and PM2.5 concentrations [for an IQR increase in PM2.5, -29.6% (95% CI:-49.1, -10.1) vs. 28.5% (95% CI:-3.8, 60.9)] at lag4 in the high n-3 group while the association was null in the low n-3 group. In contrast, high n-3 group exposed to ozone and PM2.5 had significant increases in EPA and DHA derived pro-resolving oxylipins produced by LOX and cytochrome p450 (CYP) and soluble epoxide hydrolase (sEH) compared to the low n-3 group. Conclusions: We observed negative associations between short-term ambient air pollutants and pro-inflammatory oxylipins in the high n-3 groups, while the associations between short-term ambient air pollutants and pro-resolving oxylipins were positive in the high n-3 groups, suggesting that n-3 derived lipid mediators may mediate the inflammation resolution process in response to low levels of ambient air pollution in healthy adults.

Impact/Purpose

This study examined the association between omega-3 FA-derived bioactive oxylipins and short-term exposure to ambient air pollution in healthy adults. We observed negative associations between short-term ambient air pollutants and pro-inflammatory oxylipins in the high omega-3 groups, while the associations between short-term ambient air pollutants and pro-resolving oxylipins were positive in the high omega-3 groups, suggesting that omega-3 derived lipid mediators may mediate the inflammation resolution process in response to low levels of ambient air pollution in healthy adults.

Citation

Tong, H., S. Zhang, H. Chen, AND J. Samet. Omega-3 fatty acids intake and oxylipins production in response to short-term ambient air pollution exposure in healthy adults. AHA Scientific Sessions 2023, Philadelphia, PA, November 11 - 13, 2023.