ROS production and gene expression in alveolar macrophages exposed to PM2.5 from Baghdad, Iraq: Seasonal trends and impact of chemical composition

ROS production and gene expression in alveolar macrophages exposed to PM2.5 from Baghdad, Iraq: Seasonal trends and impact of chemical composition

The objective of this study was to assess the impact of changes in atmospheric particulate matter (PM) composition on oxidative stress markers in an in-vitro alveolar macrophage (AM) model. Fifty-three PM2.5 samples were collected during a year-long PM sampling campaign in Baghdad, Iraq, a semi-arid...

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Bibliographic Details
Published in:The Science of the total environment Vol. 543; pp. 739 - 745
Main Authors: Hamad, Samera H., Schauer, James J., Antkiewicz, Dagmara S., Shafer, Martin M., Kadhim, Ahmed KH
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2016
Subjects:
Biological
Chemical composition
Combustion
Gene expression
Genes
Inflammation
Nickel
Particulate matter
ROS
Samples
Statistical analysis
Statistical methods
Urban aerosols
ISW, Iraq
qRT-PCR
CM
Inflammation
AM
Gene expression
PCA
DCFH-DA
OC
SF-ICP-MS
SI
Urban aerosols
Particulate matter
ROS
PAHs
Chemical composition
PM
EC
GC/MS
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Summary:The objective of this study was to assess the impact of changes in atmospheric particulate matter (PM) composition on oxidative stress markers in an in-vitro alveolar macrophage (AM) model. Fifty-three PM2.5 samples were collected during a year-long PM sampling campaign in Baghdad, Iraq, a semi-arid region of the country. Monthly composites were analyzed for chemical composition and for biological activity using in-vitro measurements of ROS production and gene expression in the AM model. Twelve genes that were differentially expressed upon PM exposure were identified and their co-associations with the composition of PM2.5 were examined. Ten of those genes were up-regulated in January and April composites; samples which also exhibited high ROS activity and relatively high PM mass concentration. ROS production was statistically correlated with total PM2.5 mass, levoglucosan (a wood burning tracer) and several trace elements of the PM (especially V and Ni, which are associated with oil combustion). The expression of several cytokine genes was found to be moderately associated with PM mass, crustal materials (indication of dusty days or dust storms) and certain metals (e.g. V, Fe and Ni) in the PM. Thus, the ROS activity association with PM2.5, may, in part, be driven by redox-active metals. The antioxidant response genes (Nqo1 and Hmox1) were moderately associated with polyaromatic hydrocarbons (PAHs) and showed a good correlation (r-Pearson of >0.7) with metals linked to vehicle-related emissions (i.e. Cu, Zn and Sb). Examining these associations in a larger sample pool (e.g. daily samples) would improve the power of the analysis and may strengthen the implication of these chemicals in the oxidative stress of biological systems, which could aid in the development of new metrics of PM toxicity. [Display omitted] •Baghdad's PM2.5 analyzed for chemical content and toxicity•Pro-inflammatory Cxcl1, Il1b, Tnfα, Ccl2 and Ccl7 were most highly upregulated.•ROS correlated with PM mass, OC, levoglucosan, sulfur, PAHs, CM and metals•Cytokine expression correlated with ROS, PM mass, CM and metals (Ni, Fe, V, Cr)•The antioxidant genes (Nqo1 and Hmox1) correlated with Cu, Zn, PAHs and hopanes
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2015.11.065