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Transition metals in particulate matter (PM) are hypothesized to have enhanced toxicity based on their oxidative potential (OP). The acellular dithiothreitol (DTT) assay is widely used to measure the OP of PM and its chemical components. In our prior study, we showed that the DTT assay (pH 7.4, 0.1 M phosphate buffer, 37 °C) provides favorable thermodynamic conditions for precipitation of multiple metals present in PM. This study utilizes multiple techniques to characterize the precipitation of aqueous metals present at low concentrations in the DTT assay. Metal precipitation was identified using laser particle light scattering analysis, direct chemical measurement of aqueous metal removal, and microscopic imaging. Experiments were run with aqueous metals from individual metal salts and a well-characterized urban PM standard (NIST SRM-1648a, Urban Particulate Matter). Our results demonstrated rapid precipitation of metals in the DTT assay. Metal precipitation was independent of DTT but dependent on metal concentration. Metal removal in the chemically complex urban PM samples exceeded the thermodynamic predictions and removal seen in single metal salt experiments, suggesting co-precipitation and/or adsorption may have occurred. These results have broad implications for other acellular assays that study PM metals using phosphate buffer, and subsequently, the PM toxicity inferred from these assays.
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Spatiotemporal variability in the oxidative potential of ambient fine particulate matter in the Midwestern United States
Abstract. We assessed the oxidative potential (OP) of both water-soluble andmethanol-soluble fractions of ambient fine particulate matter (PM2.5)in the Midwestern United States. A large set of PM2.5 samples (N=241) was collected from five sites set up in different environments, i.e.,urban, rural, and roadside, in Illinois, Indiana, and Missouri during May 2018–May 2019. Five acellular OP endpoints, including the consumption rate ofascorbic acid and glutathione in a surrogate lung fluid (SLF) (OPAA andOPGSH, respectively), dithiothreitol (DTT) depletion rate (OPDTT),and ⚫OH generation rate in SLF and DTT (OPOH−SLF andOPOH−DTT, respectively), were measured for all PM2.5 samples.PM2.5 mass concentrations in the Midwestern US as obtained from thesesamples were spatially homogeneously distributed, while most OP endpointsshowed significant spatiotemporal heterogeneity. Seasonally, higheractivities occurred in summer for most OP endpoints for both water- andmethanol-soluble extracts. Spatially, the roadside site showed the highestactivities for most OP endpoints in the water-soluble extracts, while onlyoccasional peaks were observed at urban sites in the methanol-soluble OP.Most OP endpoints showed similar spatiotemporal trends between mass- andvolume-normalized activities across different sites and seasons. Comparisonsbetween two solvents (i.e., water and methanol) showed that methanol-solubleOP generally had higher activity levels than corresponding water-soluble OP.Site-to-site comparisons of OP showed stronger correlations formethanol-soluble OP compared to water-soluble OP, indicating a betterextraction of water-insoluble redox-active compounds from various emissionsources into methanol. We found a weak correlation and inconsistent slopevalues between PM2.5 mass and most OP endpoints. Moreover, thepoor to moderate intercorrelations among different OP endpoints indicatedifferent mechanisms of OP represented by these endpoints and thusdemonstrate the rationale for analyzing multiple acellular endpoints for abetter and more comprehensive assessment of OP.
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- Award ID(s):
- 1847237
- PAR ID:
- 10326656
- Date Published:
- Journal Name:
- Atmospheric Chemistry and Physics
- Volume:
- 21
- Issue:
- 21
- ISSN:
- 1680-7324
- Page Range / eLocation ID:
- 16363 to 16386
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.5194/acp-21-16363-2021
