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. 2009 Mar;117(3):436-41.
doi: 10.1289/ehp.0800029. Epub 2008 Sep 15.

Activated toxicity of diesel particulate extract by ultraviolet a radiation in mammalian cells: role of singlet oxygen

Lingzhi Bao  1 An XuLiping TongShaopeng ChenLingyan ZhuYe ZhaoGuoping ZhaoErkang JiangJun WangLijun Wu
Affiliations

Activated toxicity of diesel particulate extract by ultraviolet a radiation in mammalian cells: role of singlet oxygen

Lingzhi Bao et al. Environ Health Perspect. 2009 Mar.

Abstract

Background: Diesel exhaust [diesel exhaust particles (DEPs) and their extracts (DPE)] and ultraviolet A radiation (UVA) are two ubiquitous environmental factors that have been identified as essential risk factors for various benign or malignant human diseases, either alone or in combination with other agents.

Objectives: We aimed to investigate the synergistic effects of DPE and UVA at low-dose exposures in human-hamster hybrid (AL) cells and their underlying mechanisms.

Methods: We exposed exponentially growing AL cells to DPE and/or UVA radiation with or without reactive oxygen species (ROS) quenchers and then assayed the cells for survival, mutation induction, apoptosis, and micronucleus generation. In addition, using a singlet oxygen (1O2) trapping probe, 2,2,6,6-tetramethyl-4-piperidone, coupled with electron paramagnetic resonance spectroscopy, we determined the production of 1O2.

Results: Treatment of AL cells with DPE+UVA induced significant cytotoxic and genotoxic damage. In contrast, we found no significant damage in cells treated with either UVA or DPE alone at the same doses. Mutation spectra of CD59- mutants showed that treatment with DPE+UVA easily induces multilocus deletions. Sodium azide significantly inhibited both cellular and DNA damage induced by DPE+UVA treatment, whereas other ROS inhibitors had little protecting effect. Furthermore, we found a significant increase of 1O2 in the cells that received DPE+UVA treatment.

Conclusion: These findings suggest that UVA activated the genotoxicity and cytotoxicity of DPE in mammalian cells and that 1O2 played an important role in these processes.

Keywords: AL cell; UVA; cytotoxicity; diesel particulate extracts; genotoxicity; singlet oxygen.

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Figures

Figure 1
Figure 1
Effects of DPE, UVA, or DPE + UVA on surviving fraction in AL cells (mean + SD): pooled data from three independent experiments. *p < 0.01 significant between combined treated group and singly treated group.
Figure 2
Figure 2
Induction of CD59 mutant fractions per 105 survivors in AL cells (mean + SD): pooled data from three independent experiments. *p < 0.01.
Figure 3
Figure 3
Mutational spectra of CD59 mutants either of spontaneous origin or from cells exposed to DPE (20 μg/mL) + UVA (0.5 J/cm2), determined by multiplex PCR. Each line represents the spectrum for a single, independent mutant. Blank spaces indicate missing markers.
Figure 4
Figure 4
Apoptotic AL cells induced by DPE, UVA, or DPE + UVA (mean + SD): pooled data from three independent experiments. *p < 0.01.
Figure 5
Figure 5
Effects of DPE, UVA, or DPE + UVA on MN formation in AL cells (mean + SD): pooled data from three independent experiments. *p < 0.01.
Figure 6
Figure 6
Effects of ROS quenchers on DPE + UV induced survival fraction (A) and MN formation (B) in AL cells (mean + SD). Data were pooled from three independent experiments. *p < 0.01.
Figure 7
Figure 7
Detection of the increase in the 4-O-TEMPO signal in AL cells. Data were pooled from three independent experiments. (A) Three-line EPR spectra of 4-O-TEMPO signal. (B) Relative signal intensity of 4-O-TEMPO (mean + SD). *p < 0.01.
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