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Heterogeneous Oxidation Products of Fine Particulate Isoprene Epoxydiol-Derived Methyltetrol Sulfates Increase Oxidative Stress and Inflammatory Gene Responses in Human Lung Cells.

Faria KhanYuzhi ChenHadley J HartwellJin YanYing-Hsuan LinAnastasia FreedmanZhenfa ZhangYue ZhangAndrew T LambeBarbara J TurpinAvram GoldAndrew P AultShoufa HanRebecca C FryJason D Surratt
Published in: Chemical research in toxicology (2023)
Hydroxyl radical ( · OH)-initiated oxidation of isoprene, the most abundant nonmethane hydrocarbon in the atmosphere, is responsible for substantial amounts of secondary organic aerosol (SOA) within ambient fine particles. Fine particulate 2-methyltetrol sulfate diastereoisomers (2-MTSs) are abundant SOA products formed via acid-catalyzed multiphase chemistry of isoprene-derived epoxydiols with inorganic sulfate aerosols under low-nitric oxide conditions. We recently demonstrated that heterogeneous · OH oxidation of particulate 2-MTSs leads to the particle-phase formation of multifunctional organosulfates (OSs). However, it remains uncertain if atmospheric chemical aging of particulate 2-MTSs induces toxic effects within human lung cells. We show that inhibitory concentration-50 (IC 50 ) values decreased from exposure to fine particulate 2-MTSs that were heterogeneously aged for 0 to 22 days by · OH, indicating increased particulate toxicity in BEAS-2B lung cells. Lung cells further exhibited concentration-dependent modulation of oxidative stress- and inflammatory-related gene expression. Principal component analysis was carried out on the chemical mixtures and revealed positive correlations between exposure to aged multifunctional OSs and altered expression of targeted genes. Exposure to particulate 2-MTSs alone was associated with an altered expression of antireactive oxygen species (ROS)-related genes ( NQO-1, SOD-2, and CAT ) indicative of a response to ROS in the cells. Increased aging of particulate 2-MTSs by · OH exposure was associated with an increased expression of glutathione pathway-related genes ( GCLM and GCLC ) and an anti-inflammatory gene ( IL-10 ).
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