DNA binding of polycyclic aromatic hydrocarbons in a human bronchial epithelial cell line treated with diesel and gasoline particulate extracts and benzo[a]pyrene

Pohjola, Sanna K.; Lappi, Maija; Honkanen, Markku; Rantanen, Leena; Savela, Kirsti

doi:10.1093/mutage/geg021

Cited by 30 publications

(28 citation statements)

References 40 publications

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“…In particular, PM1 was responsible for approximately 80% of the observed effects at various 239 sampling localities (Novak et al, 2014), and the fine particles generally showed higher mutagenicity 240 (Claxton et al, 2004;Claxton and Woodall, 2007b;Lemos et al, 2012). The gas phase mutagenicity was very 241 low and often indeterminable, with the exception of particular sampling sites such as industrial sites (Du 242 Four et al, 2005) and exhaust emissions from gasoline-and diesel-powered passengers cars (Pohjola et al, 2003a;Pohjola et al, 2003b). The contribution of the gas phase with respect to the particulate phase seems 244 to be higher during summer and related to the major PAHs content (Du Four et al, 2004;Kennedy et al, 245 2010).…”

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confidence: 99%

Aero-dispersed mutagenicity attributed to particulate and semi volatile phase in an urban environment

Traversi¹,

Festa²,

Pignata³

et al. 2015

Chemosphere

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When citing, please refer to the published version.Link to this full text: http://hdl.handle.net/2318/150871 32PM induced TA98 > PM induced TA98+S9 >> non-particle induced YG1021 > non-particle induced TA98 > 33 non-particle induced TA98+S9. The multivariate regression is significant when we consider air pollution and 34 meteorological indicators and chemical conditions as predictors. 36 HIGHLIGHTS 37Both chemicals and meteo-chemical parameters can influence the mutagenicity of air pollution. 38The gas phase and particulate phase mutagenicity can be different and affected by season. 39The gas phase accounted for only 1% of the observed mutagenicity. 40The particulate mutagenicity is approximately 5-fold higher during winter. 41The contribution of the nitro-derived compounds seems to be crucial. 43 Introduction 44Air pollution is one of the most important worldwide health concerns (WHO-Europe, 2013 48European citizens are deeply concerned about the impact of air pollution and that more than 70% of the 49European population is worried that air pollution and air quality is worsening over time (EU, 2013 69(1 Group) (Loomis et al., 2013). 70Many mutagenic and genotoxic compounds are present in air pollution, and the effects are widely known 71 and reviewed (de Kok et al., 2006; Claxton and Woodall, 2007a;Valavanidis et al., 2008; DeMarini, 2013). 72The finest air pollution fractions, PM10 (particles with a diameter of less than 10 µm) and PM2. 90Vapor-particle partitioning of mutagens can be quantified using the gas-particle-partitioning coefficient for 91 each compound. This coefficient is influenced by both the adsorption and absorption processes and is 96The aim of this work is to assess the mutagenicity of particulate and not-particulate air pollution and to ; thus, the pressure on the territory that is associated with human 108 activity is very high (ISTAT, 2012 115The TSP were collected on glass fibre filters, and the polyurethane foam (PUF) cartridge was placed in series 116 after the glass fibre filter. The volatile compounds, which were not trapped on the filter, were retained in 117 the PUF cartridge. 118The sampling flow was electronically controlled to be 250 L/min. Each sampling duration was controlled by 119 a timer that was accurate to ± 15 min over a 48-hour sampling period. The exact flow rate was calculated 120 daily and corrected for variations in atmospheric pressure and actual differential pressure across the filter. 121The filters were conditioned for 48 h and were weighed using an analytical balance (± 10 µg) before and 168 Gravimetric analysis 169The descriptive analysis of the collected data is shown in 192The higher mutagenicity of the winter particles was confirmed also adjusting the data for particles mass 193 unit (Figure 3), highlighting the worse quality of the particles-in terms of mutagen presence -and not only 194 the higher level of aero-dispersed pollution for each volume unit. 195Among the chemicals variability we observed a not so great changeability during the year for P...

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confidence: 99%

Aero-dispersed mutagenicity attributed to particulate and semi volatile phase in an urban environment

Traversi¹,

Festa²,

Pignata³

et al. 2015

Chemosphere

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“…1-NP, one of the most abundant polycyclic aromatic hydrocarbons, is a product of incomplete diesel and gasoline combustion (1,29,30). There are two known pathways by which 1-NP is metabolized: nitro reduction (Scheme 1) and C-hydroxylation.…”

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Mechanistic Studies of the Bypass of a Bulky Single-base Lesion Catalyzed by a Y-family DNA Polymerase

Sherrer

Brown

Pack

et al. 2009

Journal of Biological Chemistry

104

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1-Nitropyrene, the most abundant nitro polycyclic aromatic hydrocarbon in diesel emissions, has been found to react with DNA to form predominantly N-(deoxyguanosin-8-yl)-1-aminopyrene (dG AP ). This bulky adduct has been shown to induce genetic mutations, which may implicate Y-family DNA polymerases in its bypass in vivo. To establish a kinetic mechanism for the bypass of such a prototype single-base lesion, we employed pre-steady-state kinetic methods to investigate individual nucleotide incorporations upstream, opposite, and downstream from a site-specifically placed dG AP lesion catalyzed by Sulfolobus solfataricus DNA polymerase IV (Dpo4), a model Y-family DNA polymerase. Dpo4 was able to bypass dG AP but paused strongly at two sites: opposite the lesion and immediately downstream from the lesion. Both nucleotide incorporation efficiency and fidelity decreased significantly at the pause sites, especially during extension of the bypass product. Interestingly, a 4-fold tighter binding affinity of damaged DNA to Dpo4 promoted catalysis through putative interactions between the active site residues of Dpo4 and 1-aminopyrene moiety at the first pause site. In the presence of a DNA trap, the kinetics of nucleotide incorporation at these sites was biphasic in which a small, fast phase preceded a larger, slow phase. In contrast, only a large, fast phase was observed during nucleotide incorporation at non-pause sites. Our kinetic studies support a general kinetic mechanism for lesion bypass catalyzed by numerous DNA polymerases.Environmental pollutants have been shown to impact human health at the molecular level. One detrimental route is the modification of genomic DNA and nucleotides (1). If DNA lesions are not recognized and removed by the cellular DNA repair machinery, they will stall replicative DNA polymerases (2-8).To rescue DNA replication, cells employ lesion bypass DNA polymerases to traverse unrepaired lesions. Most of these enzymes belong to the Y-family of DNA polymerases. The Y-family enzymes possess relatively flexible and solvent-accessible active sites to accommodate bulky DNA lesions (9, 10). However, Y-family DNA polymerases catalyze DNA synthesis over undamaged DNA with low fidelity and poor processivity (6, 10 -12). The Y-family DNA polymerases have been identified in all three domains of life, e.g. four in humans (DNA polymerases , , , and Rev1), two in Escherichia coli (DNA polymerases IV and V), and one in Sulfolobus solfataricus (Dpo4). Because Dpo4 can be expressed in E. coli and purified with a high yield, it has been extensively studied in vitro as a prototype Y-family enzyme. Dpo4 catalyzes DNA synthesis on an undamaged DNA template with a fidelity of one error per 1,000 -10,000 nucleotide incorporations based on presteady-state kinetic analysis from 37 to 56°C (13-15). Dpo4 is capable of bypassing a myriad of DNA lesions including apurinic/apyrimidinic (abasic) sites (16 -19), 8-oxo-7,8-dihydro-2Ј-deoxyguanosine (20, 21), 1,N 2 -etheno(⑀)guanosine (22), cis-syn thymine-thymine dimer (23-...

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“…This is in keeping with the ability of the quinones to participate in redox cycling reactions after cellular uptake, while PAHs need to be enzymatically converted to oxy-derivatives before being rendered functionally active [32,33]. Previously published studies demonstrating that environmental polycyclic aromatic hydrocarbons, including DEP extracts, are capable of inducing cytochrome P450 1A1 and 1B1 expression in human macrophages and bronchial epithelial cells supports this notion [1,34,35]. While evidence has been provided that this is also true in BEAS-2B cells, the same needs to be demonstrated for RAW 264.7 cells.…”

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confidence: 56%

Use of a fluorescent phosphoprotein dye to characterize oxidative stress-induced signaling pathway components in macrophage and epithelial cultures exposed to diesel exhaust particle chemicals

Wang

Xiao

et al. 2005

Electrophoresis

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A large body of evidence has shown that exposure to ambient particulate matter (PM) leads to asthma exacerbation through an excitation of allergic inflammation. Utilizing diesel exhaust particles (DEPs) as a model air pollutant, we and others have demonstrated that PM contains redox-active chemicals that generate inflammation through an oxidative stress mechanism. Recently, the strengths of proteomics have enabled us to demonstrate that organic DEP extracts induce a hierarchical expression pattern of oxidative stress-induced proteins in macrophages and epithelial cells. As a further extension of this work, we now employ a new phosphosensor fluorescent dye, Pro-Q Diamond, to elucidate the induction of phosphoproteins and intracellular signaling cascades that may play a role in DEP-induced inflammation. We demonstrate that DEPs induced the phosphorylation of several phosphoproteins that belong to a number of signaling pathways as well as other oxidative stress pathways. In combination with cytokine array, phosphoproteome analysis using Pro-Q Diamond allowed us to characterize the aromatic and polar chemicals of DEPs that are involved in the activation of three different mitogen-activated protein (MAP) kinase signaling pathways.

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DNA binding of polycyclic aromatic hydrocarbons in a human bronchial epithelial cell line treated with diesel and gasoline particulate extracts and benzo[a]pyrene

Cited by 30 publications

References 40 publications

Aero-dispersed mutagenicity attributed to particulate and semi volatile phase in an urban environment

Aero-dispersed mutagenicity attributed to particulate and semi volatile phase in an urban environment

Mechanistic Studies of the Bypass of a Bulky Single-base Lesion Catalyzed by a Y-family DNA Polymerase

Use of a fluorescent phosphoprotein dye to characterize oxidative stress-induced signaling pathway components in macrophage and epithelial cultures exposed to diesel exhaust particle chemicals

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