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. 2021 Oct;62(8):458-470.
doi: 10.1002/em.22455. Epub 2021 Aug 16.

Elevated urinary mutagenicity among those exposed to bituminous coal combustion emissions or diesel engine exhaust

Jason Y Y Wong  1 Roel Vermeulen  2 Yufei Dai  3 Wei Hu  1 W Kyle Martin  4 Sarah H Warren  5 Hannah K Liberatore  5 Dianzhi Ren  6 Huawei Duan  3 Yong Niu  3 Jun Xu  7 Wei Fu  6 Kees Meliefste  2 Jufang Yang  6 Meng Ye  3 Xiaowei Jia  3 Tao Meng  3 Bryan A Bassig  1 H Dean Hosgood  8 Jiyeon Choi  9 Mohammad L Rahman  1 Douglas I Walker  10 Yuxin Zheng  3 Judy Mumford  5 Debra T Silverman  1 Nathaniel Rothman  1 David M DeMarini  5 Qing Lan  1
Affiliations

Elevated urinary mutagenicity among those exposed to bituminous coal combustion emissions or diesel engine exhaust

Jason Y Y Wong et al. Environ Mol Mutagen. 2021 Oct.

Abstract

Urinary mutagenicity reflects systemic exposure to complex mixtures of genotoxic/carcinogenic agents and is linked to tumor development. Coal combustion emissions (CCE) and diesel engine exhaust (DEE) are associated with cancers of the lung and other sites, but their influence on urinary mutagenicity is unclear. We investigated associations between exposure to CCE or DEE and urinary mutagenicity. In two separate cross-sectional studies of nonsmokers, organic extracts of urine were evaluated for mutagenicity levels using strain YG1041 in the Salmonella (Ames) mutagenicity assay. First, we compared levels among 10 female bituminous (smoky) coal users from Laibin, Xuanwei, China, and 10 female anthracite (smokeless) coal users. We estimated exposure-response relationships using indoor air concentrations of two carcinogens in CCE relevant to lung cancer, 5-methylchrysene (5MC), and benzo[a]pyrene (B[a]P). Second, we compared levels among 20 highly exposed male diesel factory workers and 15 unexposed male controls; we evaluated exposure-response relationships using elemental carbon (EC) as a DEE-surrogate. Age-adjusted linear regression was used to estimate associations. Laibin smoky coal users had significantly higher average urinary mutagenicity levels compared to smokeless coal users (28.4 ± 14.0 SD vs. 0.9 ± 2.8 SD rev/ml-eq, p = 2 × 10-5 ) and a significant exposure-response relationship with 5MC (p = 7 × 10-4 ). DEE-exposed workers had significantly higher urinary mutagenicity levels compared to unexposed controls (13.0 ± 10.1 SD vs. 5.6 ± 4.4 SD rev/ml-eq, p = .02) and a significant exposure-response relationship with EC (p-trend = 2 × 10-3 ). Exposure to CCE and DEE is associated with urinary mutagenicity, suggesting systemic exposure to mutagens, potentially contributing to cancer risk and development at various sites.

Keywords: Salmonella mutagenicity; coal combustion; complex mixtures; diesel exhaust; smoky coal; urinary genotoxicity biomarkers.

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Conflict of interest statement

CONFLICT OF INTEREST

The authors declare they have no actual or potential competing financial interests.

Figures

Figure 1.
Figure 1.
(Panel A) Urinary mutagenicity levels among female non-smokers who used particularly carcinogenic Laibin smoky coal or smokeless coal in the 1993 community-based cross-sectional study in Xuanwei, China. Differences between exposure groups were tested with unadjusted and age-adjusted linear regression models. Exposure-response relationships between urinary mutagenicity and air 5-methylchrysene (5MC) (Panel B) and benzo[a]pyrene (B[a]P) (Panel C). Associations were tested with unadjusted and age-adjusted linear regression models.
Figure 2.
Figure 2.
(Panel A) Urinary mutagenicity levels among male engine testing factory workers exposed to diesel engine exhaust and unexposed controls. Differences between exposure groups were tested with unadjusted and age-adjusted linear regression models. (Panel B) DEE exposure was categorized as tertiles by EC concentrations: low (6.1–39.0 μg/m3), medium (39.1–54.5 μg/m3), and high (54.6–107.7 μg/m3). (Panel C) DEE exposure as reflected by EC concentrations was analyzed continuously as geometric mean (μg/m3) corrected for background levels among the controls.
Figure 3.
Figure 3.
(Panel A) Associations between exposure to elemental carbon (EC) and urinary mutagenicity using EC categories defined by the new European Union occupational exposure limit of <50 μg/m3: unexposed controls (n = 15), <25 μg/m3 (n = 6), 25 - <50 μg/m3 (n = 6), and ≥50 μg/m3 (n = 8). (Panel B) Associations between exposure to elemental carbon (EC) and urinary mutagenicity among subjects below the new European Union occupational exposure limit of <50 μg/m3 of EC. EC concentrations were analyzed continuously as geometric mean (μg/m3) corrected for background levels among the controls.
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