Your search keyword '"Øvrevik J"' showing total 38 results

1. Differential NF-κB and MAPK activation underlies fluoride- and TPA-mediated CXCL8 (IL-8) induction in lung epithelial cells

Author

Refsnes M, Skul, T, Låg M, Schwarze PE, and Øvrevik J

Subjects

Pathology, RB1-214, Therapeutics. Pharmacology, RM1-950

Abstract

Magne Refsnes, Tonje Skuland, Marit Låg, Per E Schwarze, Johan Øvrevik Department of Air Pollution and Noise, Division of Environmental Medicine, Norwegian Institute of Public Health, Oslo, Norway Abstract: Different toxic agents have a varying potential to induce the production of the proinflammatory chemokine, CXCL8 (interleukin [IL]-8), in lung cells. A critical question is which mechanisms determine the magnitude and persistence of the CXCL8 responses to different stimuli. To approach this, we compared the potential of the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), and sodium fluoride (NaF) to induce CXCL8 responses in A549 cells, with emphasis on the importance of nuclear factor kappa B (NF-κB)- and mitogen-activated protein kinase (MAPK) signaling. Notably, TPA induced a greater release of CXCL8 than did NaF. Furthermore, TPA induced a strong, rapid, but transient upregulation of CXCL8 messenger (m)RNA, whereas NaF induced a weaker, more delayed, but persistent upregulation. With respect to signaling, TPA led to an early, strong, and relatively transient extracellular signal-regulated kinase (ERK)1/2 phosphorylation, and a less marked and even more transient phosphorylation of c-jun-N-terminal kinases (JNK1/2) and p38. In contrast, NaF elicited a lower, but relatively sustained increase in phosphorylation of ERK1/2, and a marked phosphorylation of p38 and JNK1/2, with the JNK1/2 response as most transient. Only ERK1/2 inhibition affected the TPA response, whereas inhibition of all the three MAPK cascades reduced NaF-induced CXCL8 release. TPA also induced an early, marked phosphorylation/translocation of p65 (NF-κB), whereas NaF induced slower, less pronounced effects on p65. The CXCL8 responses by TPA and NaF were reduced by p65-siRNA. In conclusion, all MAPK cascades were involved in NaF-induced CXCL8 release, whereas only ERK1/2 activation was involved in response to TPA. Furthermore, NF-κB activation appeared to be indispensable for CXCL8 induction. The early response, magnitude, and persistency of MAPK and NF-κB signaling seemed to be critical determinants for the potential to induce CXCL8. These findings underscore that a strong, rapid, and relatively transient activation of ERK1/2 in combination with NF-kB may be sufficient for a strong induction of CXCL8, which may exceed the effects of a more moderate ERK1/2 activation in combination with activation of p38, JNK1/2, and NF-κB. Keywords: TPA, sodium fluoride, CXCL8, MAPK, NF-κB, A549 cells

Published

2014

2. Mechanisms linked to differences in the mutagenic potential of 1,3-dinitropyrene and 1,8-dinitropyrene

Author

Holme, J.A., Nyvold, H.E., Tat, V., Arlt, V.M., Bhargava, A., Gutzkow, K.B., Solhaug, A., Låg, M., Becher, R., Schwarze, P.E., Ask, K., Ekeren, L., and Øvrevik, J.

Published

2014

3. Mineral Particles of Varying Composition Induce Differential Chemokine Release from Epithelial Lung Cells: Importance of Physico-chemical Characteristics

Author

Øvrevik, J., Myran, T., Refsnes, M., Låg, M., Becher, R., Hetland, R. B., and Schwarze, P. E.

Published

2005

4. The effects of 1st and 2nd generation biodiesel exhaust exposure on hematological and biochemical blood indices of Fisher344 male rats – The FuelHealth project

Author

Dziendzikowska, K., primary, Gajewska, M., additional, Wilczak, J., additional, Mruk, R., additional, Oczkowski, M., additional, Żyła, E., additional, Królikowski, T., additional, Stachoń, M., additional, Øvrevik, J., additional, Myhre, O., additional, Kruszewski, M., additional, Wojewódzka, M., additional, Lankoff, A., additional, and Gromadzka-Ostrowska, J., additional

Published

2018

5. Physico-chemical properties and biological effects of diesel and biomass particles

Author

Longhin, E, Gualtieri, M, Capasso, L, Bengalli, R, Mollerup, S, Holme, J, Øvrevik, J, Casadei, S, Di Benedetto, C, Parenti, P, Camatini, M, LONGHIN, ELEONORA MARTA, GUALTIERI, MAURIZIO, CAPASSO, LAURA, BENGALLI, ROSSELLA DANIELA, PARENTI, PAOLO, CAMATINI, MARINA CARLA, Longhin, E, Gualtieri, M, Capasso, L, Bengalli, R, Mollerup, S, Holme, J, Øvrevik, J, Casadei, S, Di Benedetto, C, Parenti, P, Camatini, M, LONGHIN, ELEONORA MARTA, GUALTIERI, MAURIZIO, CAPASSO, LAURA, BENGALLI, ROSSELLA DANIELA, PARENTI, PAOLO, and CAMATINI, MARINA CARLA

Abstract

Diesel combustion and solid biomass burning are the major sources of ultrafine particles (UFP) in urbanized areas. Cardiovascular and pulmonary diseases, including lung cancer, are possible outcomes of combustion particles exposure, but differences in particles properties seem to influence their biological effects. Here the physico-chemical properties and biological effects of diesel and biomass particles, produced under controlled laboratory conditions, have been characterized. Diesel UFP were sampled from a Euro 4 light duty vehicle without DPF fuelled by commercial diesel and run over a chassis dyno. Biomass UFP were collected from a modern automatic 25 kW boiler propelled by prime quality spruce pellet. Transmission electron microscopy (TEM) and scanning electron microscopy (SEM) images of both diesel and biomass samples showed aggregates of soot particles, but in biomass samples ash particles were also present. Chemical characterization showed that metals and PAHs total content was higher in diesel samples compared to biomass ones. Human bronchial epithelial (HBEC3) cells were exposed to particles for up to 2 weeks. Changes in the expression of genes involved in xenobiotic metabolism were observed after exposure to both UFP already after 24 h. However, only diesel particles modulated the expression of genes involved in inflammation, oxidative stress and epithelial-to-mesenchymal transition (EMT), increased the release of inflammatory mediators and caused phenotypical alterations, mostly after two weeks of exposure. These results show that diesel UFP affected cellular processes involved in lung and cardiovascular diseases and cancer. Biomass particles exerted low biological activity compared to diesel UFP. This evidence emphasizes that the study of different emission sources contribution to ambient PM toxicity may have a fundamental role in the development of more effective strategies for air quality improvement.

Published

2016

6. Inflammation-Related Effects of Diesel Engine Exhaust Particles: Studies on Lung Cells In Vitro

Author

Schwarze, P. E., Totlandsdal, A. I., Låg, M., Refsnes, M., Holme, J. A., and Øvrevik, J.

Subjects

Article Subject, respiratory system, complex mixtures

Abstract

Diesel exhaust and its particles (DEP) have been under scrutiny for health effects in humans. In the development of these effects inflammation is regarded as a key process. Overall, in vitro studies report similar DEP-induced changes in markers of inflammation, including cytokines and chemokines, as studies in vivo. In vitro studies suggest that soluble extracts of DEP have the greatest impact on the expression and release of proinflammatory markers. Main DEP mediators of effects have still not been identified and are difficult to find, as fuel and engine technology developments lead to continuously altered characteristics of emissions. Involved mechanisms remain somewhat unclear. DEP extracts appear to comprise components that are able to activate various membrane and cytosolic receptors. Through interactions with receptors, ion channels, and phosphorylation enzymes, molecules in the particle extract will trigger various cell signaling pathways that may lead to the release of inflammatory markers directly or indirectly by causing cell death. In vitro studies represent a fast and convenient system which may have implications for technology development. Furthermore, knowledge regarding how particles elicit their effects may contribute to understanding of DEP-induced health effects in vivo, with possible implications for identifying susceptible groups of people and effect biomarkers.

Published

2013

7. Importance of Components and Sources for Health Effects of Particulate Air Pollution

Author

Schwarze, P. E., Totlandsdal, A. I., Holme, J. A., Låg, M., Refsnes, M., Øvrevik, J., Sandberg, W. J., Bølling, A. K., Schwarze, P. E., Totlandsdal, A. I., Holme, J. A., Låg, M., Refsnes, M., Øvrevik, J., Sandberg, W. J., and Bølling, A. K.

Published

2010

8. Differences in cytotoxicity versus pro-inflammatory potency of different PM fractions in human epithelial lung cells

Author

Gualtieri, M, Øvrevik, J, Holme, J, Perrone, M, Bolzacchini, E, Schwarze, P, Camatini, M, GUALTIERI, MAURIZIO, PERRONE, MARIA GRAZIA, BOLZACCHINI, EZIO, CAMATINI, MARINA CARLA, Holme, JA, Schwarze, PE, Gualtieri, M, Øvrevik, J, Holme, J, Perrone, M, Bolzacchini, E, Schwarze, P, Camatini, M, GUALTIERI, MAURIZIO, PERRONE, MARIA GRAZIA, BOLZACCHINI, EZIO, CAMATINI, MARINA CARLA, Holme, JA, and Schwarze, PE

Abstract

Air pollution in Milan causes health concern due to the high concentrations of particulate matter (PM10 and PM2.5). The aim of this study was to investigate possible seasonal differences in PM10 and PM2.5 chemical composition and their biological effects on pro-inflammatory cytokine release and cytotoxicity. The PM was sampled during winter and summer seasons. The winter PMs had higher levels of PAHs than the summer samples which contained a greater amount of mineral dust elements. The PM toxicity was tested in the human pulmonary epithelial cell lines BEAS-2B and A549. The winter PMs were more cytotoxic than summer samples, whereas the summer PM10 exhibited a higher pro-inflammatory potential, as measured by ELISA. This inflammatory potential seemed partly due to biological components such as bacterial lipopolysaccharides (LPS), as evaluated by the use of Polymixin B. Interestingly, in the BEAS-2B cells the winter PM2.5 reduced proliferation due to a mitotic delay/arrest, while no such effects were observed in the A549 cells. These results underline that the in vitro responsiveness to PM may be cell line dependent and suggest that the PM different properties may trigger different endpoints such as inflammation, perturbation of cell cycle and cell death.

Published

2010

9. Inflammation-Related Effects of Diesel Engine Exhaust Particles: Studies on Lung CellsIn Vitro

Author

Schwarze, P. E., primary, Totlandsdal, A. I., additional, Låg, M., additional, Refsnes, M., additional, Holme, J. A., additional, and Øvrevik, J., additional

Published

2013

10. Stone Particle-induced Interleukin-6 and -8 Release Involves Activation of MAP Kinases and Tyrosine Kinases.

Author

ØVREVIK, J., LÅG, M., HETLAND, R. B., SCHWARZE, P. E., and REFSNES, M.

Subjects

INTERLEUKIN-6, PROTEIN-tyrosine kinases, MYLONITE, CYTOKINES, INFLAMMATION

Abstract

PM10 fractions of four different stone particles used in road pavement (mylonite, gabbro, basalt and feldspar) were shown to induce a significant increase in interleukin-6 and -8 release from A549 cells. Inhibition of MAP kinases p38 and ERK, as well as inhibition of tyrosine kinases, resulted in inhibition of mylonite-induced cytokine release. Preliminary results with the three most potent particles tested, supports the inhibition pattern shown with mylonite. [ABSTRACT FROM AUTHOR]

Published

2002

11. Different particle determinants induce apoptosis and cytokine release in primary alveolar macrophage cultures

Author

Schwarze Per E, Sundfør Idunn, Øvrevik Johan, Hetland Ragna B, Refsnes Magne, and Låg Marit

Subjects

Toxicology. Poisons, RA1190-1270, Industrial hygiene. Industrial welfare, HD7260-7780.8

Abstract

Abstract Background Particles are known to induce both cytokine release (MIP-2, TNF-α), a reduction in cell viability and an increased apoptosis in alveolar macrophages. To examine whether these responses are triggered by the same particle determinants, alveolar macrophages were exposed in vitro to mineral particles of different physical-chemical properties. Results The crystalline particles of the different stone types mylonite, gabbro, basalt, feldspar, quartz, hornfels and fine grain syenite porphyr (porphyr), with a relatively equal size distribution (≤ 10 μm), but different chemical/mineral composition, all induced low and relatively similar levels of apoptosis. In contrast, mylonite and gabbro induced a marked MIP-2 response compared to the other particles. For particles of smaller size, quartz (≤ 2 μm) seemed to induce a somewhat stronger apoptotic response than even smaller quartz (≤ 0.5 μm) and larger quartz (≤ 10 μm) in relation to surface area, and was more potent than hornfels and porphyr (≤ 2 μm). The reduction in cell viability induced by quartz of the different sizes was roughly similar when adjusted to surface area. With respect to cytokines, the release was more marked after exposure to quartz ≤ 0.5 μm than to quartz ≤ 2 μm and ≤ 10 μm. Furthermore, hornfels (≤ 2 μm) was more potent than the corresponding hornfels (≤ 10 μm) and quartz (≤ 2 μm) to induce cytokine responses. Pre-treatment of hornfels and quartz particles ≤ 2 μm with aluminium lactate, to diminish the surface reactivity, did significantly reduce the MIP-2 response to hornfels. In contrast, the apoptotic responses to the particles were not affected. Conclusion These results indicate that different determinants of mineral/stone particles are critical for inducing cytokine responses, reduction in cell viability and apoptosis in alveolar macrophages. The data suggest that the particle surface reactivity was critical for cytokine responses, but contributed less to cell death for the types of particles tested. The size-dependent variations, specially in cytokine release, seem not to be explained only by particle surface area.

Published

2006

12. Physico-chemical properties and biological effects of diesel and biomass particles

Author

C. Di Benedetto, Eleonora Longhin, Marina Camatini, Steen Mollerup, Rossella Bengalli, Jørn A. Holme, Johan Øvrevik, S. Casadei, Laura Capasso, Maurizio Gualtieri, Paolo Parenti, Longhin, E, Gualtieri, M, Capasso, L, Bengalli, R, Mollerup, S, Holme, J, Øvrevik, J, Casadei, S, Di Benedetto, C, Parenti, P, and Camatini, M

Subjects

0301 basic medicine, Fossil Fuels, Health, Toxicology and Mutagenesis, Diesel combustion, 010501 environmental sciences, Toxicology, Combustion, 01 natural sciences, Bioma, Ultrafine particle, Biomass, Polycyclic Aromatic Hydrocarbons, Soot particles, Biomass burning, Lung, Cells, Cultured, Vehicle Emissions, Air Pollutants, Chemistry, General Medicine, respiratory system, BIO/10 - BIOCHIMICA, Pollution, Metals, Environmental chemistry, Chemical characterization, Respiratory Mucosa, In vitro toxicology, complex mixtures, Xenobiotics, Heating, 03 medical and health sciences, Diesel fuel, Soot, Pellet, Humans, Diesel, Particle Size, BIO/06 - ANATOMIA COMPARATA E CITOLOGIA, 0105 earth and related environmental sciences, Inflammation, Diesel particulate filter, Environmental Exposure, Health, Toxicology and Mutagenesi, Oxidative Stress, 030104 developmental biology, Biofuels, Particulate Matter

Abstract

Diesel combustion and solid biomass burning are the major sources of ultrafine particles (UFP) in urbanized areas. Cardiovascular and pulmonary diseases, including lung cancer, are possible outcomes of combustion particles exposure, but differences in particles properties seem to influence their biological effects. Here the physico-chemical properties and biological effects of diesel and biomass particles, produced under controlled laboratory conditions, have been characterized. Diesel UFP were sampled from a Euro 4 light duty vehicle without DPF fuelled by commercial diesel and run over a chassis dyno. Biomass UFP were collected from a modern automatic 25 kW boiler propelled by prime quality spruce pellet. Transmission electron microscopy (TEM) and scanning electron microscopy (SEM) images of both diesel and biomass samples showed aggregates of soot particles, but in biomass samples ash particles were also present. Chemical characterization showed that metals and PAHs total content was higher in diesel samples compared to biomass ones. Human bronchial epithelial (HBEC3) cells were exposed to particles for up to 2 weeks. Changes in the expression of genes involved in xenobiotic metabolism were observed after exposure to both UFP already after 24 h. However, only diesel particles modulated the expression of genes involved in inflammation, oxidative stress and epithelial-to-mesenchymal transition (EMT), increased the release of inflammatory mediators and caused phenotypical alterations, mostly after two weeks of exposure. These results show that diesel UFP affected cellular processes involved in lung and cardiovascular diseases and cancer. Biomass particles exerted low biological activity compared to diesel UFP. This evidence emphasizes that the study of different emission sources contribution to ambient PM toxicity may have a fundamental role in the development of more effective strategies for air quality improvement.

Published

2016

13. Role of different mechanisms in pro-inflammatory responses triggered by traffic-derived particulate matter in human bronchiolar epithelial cells.

Author

Refsnes M, Skuland T, Jørgensen R, Sæter-Grytting V, Snilsberg B, Øvrevik J, Holme JA, and Låg M

Subjects

Humans, Reactive Oxygen Species metabolism, Tumor Necrosis Factor-alpha metabolism, Cyclooxygenase 2, Cytochrome P-450 CYP1A1 genetics, Plasminogen Activator Inhibitor 2 metabolism, Plasminogen Activator Inhibitor 2 pharmacology, Cytokines metabolism, Epithelial Cells, Vehicle Emissions toxicity, Particulate Matter toxicity, Air Pollutants toxicity, Air Pollutants metabolism

Abstract

Background: Traffic-derived particles are important contributors to the adverse health effects of ambient particulate matter (PM). In Nordic countries, mineral particles from road pavement and diesel exhaust particles (DEP) are important constituents of traffic-derived PM. In the present study we compared the pro-inflammatory responses of mineral particles and DEP to PM from two road tunnels, and examined the mechanisms involved., Methods: The pro-inflammatory potential of 100 µg/mL coarse (PM 10-2.5 ), fine (PM 2.5-0.18) and ultrafine PM (PM 0.18 ) sampled in two road tunnels paved with different stone materials was assessed in human bronchial epithelial cells (HBEC3-KT), and compared to DEP and particles derived from the respective stone materials. Release of pro-inflammatory cytokines (CXCL8, IL-1α, IL-1β) was measured by ELISA, while the expression of genes related to inflammation (COX2, CXCL8, IL-1α, IL-1β, TNF-α), redox responses (HO-1) and metabolism (CYP1A1, CYP1B1, PAI-2) was determined by qPCR. The roles of the aryl hydrocarbon receptor (AhR) and reactive oxygen species (ROS) were examined by treatment with the AhR-inhibitor CH223191 and the anti-oxidant N-acetyl cysteine (NAC)., Results: Road tunnel PM caused time-dependent increases in expression of CXCL8, COX2, IL-1α, IL-1β, TNF-α, COX2, PAI-2, CYP1A1, CYP1B1 and HO-1, with fine PM as more potent than coarse PM at early time-points. The stone particle samples and DEP induced lower cytokine release than all size-fractionated PM samples for one tunnel, and versus fine PM for the other tunnel. CH223191 partially reduced release and expression of IL-1α and CXCL8, and expression of COX2, for fine and coarse PM, depending on tunnel, response and time-point. Whereas expression of CYP1A1 was markedly reduced by CH223191, HO-1 expression was not affected. NAC reduced the release and expression of IL-1α and CXCL8, and COX2 expression, but augmented expression of CYP1A1 and HO-1., Conclusions: The results indicate that the pro-inflammatory responses of road tunnel PM in HBEC3-KT cells are not attributed to the mineral particles or DEP alone. The pro-inflammatory responses seem to involve AhR-dependent mechanisms, suggesting a role for organic constituents. ROS-mediated mechanisms were also involved, probably through AhR-independent pathways. DEP may be a contributor to the AhR-dependent responses, although other sources may be of importance., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

14. Dietary Intervention with Blackcurrant Pomace Protects Rats from Testicular Oxidative Stress Induced by Exposition to Biodiesel Exhaust.

Author

Oczkowski M, Wilczak J, Dziendzikowska K, Øvrevik J, Myhre O, Lankoff A, Kruszewski M, and Gromadzka-Ostrowska J

Abstract

The exposure to diesel exhaust emissions (DEE) contributes to negative health outcomes and premature mortality. At the same time, the health effects of the exposure to biodiesel exhaust emission are still in scientific debate. The aim of presented study was to investigate in an animal study the effects of exposure to DEE from two types of biodiesel fuels, 1st generation B7 biodiesel containing 7% of fatty acid methyl esters (FAME) or 2nd generation biodiesel (SHB20) containing 7% of FAME and 13% of hydrotreated vegetable oil (HVO), on the oxidative stress in testes and possible protective effects of dietary intervention with blackcurrant pomace (BC). Adult Fisher344/DuCrl rats were exposed by inhalation (6 h/day, 5 days/week for 4 weeks) to 2% of DEE from B7 or SHB20 fuel mixed with air. The animals from B7 ( n = 14) and SHB20 ( n = 14) groups subjected to filtered by a diesel particulate filter (DPF) or unfiltered DEE were maintained on standard feed. The rats from B7+BC ( n = 12) or SHB20+BC ( n = 12), exposed to DEE in the same way, were fed with feed supplemented containing 2% (m/m) of BC. The exposure to exhaust emissions from 1st and 2nd generation biodiesel resulted in induction of oxidative stress in the testes. Higher concentration of the oxidative stress markers thiobarbituric acid-reactive substances (TBARS), lipid hydroperoxides (LOOHs), 25-dihydroxycholesterols (25(OH)2Ch), and 7-ketocholesterol (7-KCh) level), as well as decreased level of antioxidant defense systems such as reduced glutathione (GSH), GSH/GSSG ratio, and increased level of oxidized glutathione (GSSG)) were found. Dietary intervention reduced the concentration of TBARS, 7-KCh, LOOHs, and the GSSG level, and elevated the GSH level in testes. In conclusion, DEE-induced oxidative stress in the testes was related to the biodiesel feedstock and the application of DPF. The SHB20 DEE without DPF technology exerted the most pronounced toxic effects. Dietary intervention with BC in rats exposed to DEE reduced oxidative stress in testes and improved antioxidative defense parameters, however the redox balance in the testes was not completely restored.

Published

2022

15. The importance of mineralogical composition for the cytotoxic and pro-inflammatory effects of mineral dust.

Author

Grytting VS, Refsnes M, Låg M, Erichsen E, Røhr TS, Snilsberg B, White RA, and Øvrevik J

Subjects

Cytokines, Epithelial Cells, Humans, Inflammation chemically induced, Minerals toxicity, Dust analysis, Quartz toxicity

Abstract

Background: Respirable mineral particles represent a potential health hazard in occupational settings and ambient air. Previous studies show that mineral particles may induce cytotoxicity and inflammatory reactions in vitro and in vivo and that the potency varies between samples of different composition. However, the reason for these differences is largely unknown and the impact of mineralogical composition on the biological effects of mineral dust remains to be determined., Methods: We have assessed the cytotoxic and pro-inflammatory effects of ten mineral particle samples of different composition in human bronchial epithelial cells (HBEC3-KT) and THP-1-derived macrophages, as well as their membranolytic properties in erythrocytes. Moreover, the results were compiled with the results of recently published experiments on the effects of stone particle exposure and analysed using linear regression models to elucidate which mineral components contribute most to the toxicity of mineral dust., Results: While all mineral particle samples were more cytotoxic to HBEC3-KT cells than THP-1 macrophages, biotite and quartz were among the most cytotoxic in both cell models. In HBEC3-KT cells, biotite and quartz also appeared to be the most potent inducers of pro-inflammatory cytokines, while the quartz, Ca-feldspar, Na-feldspar and biotite samples were the most potent in THP-1 macrophages. All particle samples except quartz induced low levels of membranolysis. The regression analyses revealed associations between particle bioactivity and the content of quartz, muscovite, plagioclase, biotite, anorthite, albite, microcline, calcite, chlorite, orthopyroxene, actinolite and epidote, depending on the cell model and endpoint. However, muscovite was the only mineral consistently associated with increased cytotoxicity and cytokine release in both cell models., Conclusions: The present study provides further evidence that mineral particles may induce cytotoxicity and inflammation in cells of the human airways and that particle samples of different mineralogical composition differ in potency. The results show that quartz, while being among the most potent samples, does not fully predict the toxicity of mineral dust, highlighting the importance of other particle constituents. Moreover, the results indicate that the phyllosilicates muscovite and biotite may be more potent than other minerals assessed in the study, suggesting that this group of sheet-like minerals may warrant further attention., (© 2022. The Author(s).)

Published

2022

16. Road tunnel-derived coarse, fine and ultrafine particulate matter: physical and chemical characterization and pro-inflammatory responses in human bronchial epithelial cells.

Author

Skuland T, Grytting VS, Låg M, Jørgensen RB, Snilsberg B, Leseman DLAC, Kubátová A, Emond J, Cassee FR, Holme JA, Øvrevik J, and Refsnes M

Subjects

Carbon, Cytokines, Humans, Seasons, Epithelial Cells, Particulate Matter toxicity

Abstract

Background: Traffic particulate matter (PM) comprises a mixture of particles from fuel combustion and wear of road pavement, tires and brakes. In countries with low winter temperatures the relative contribution of mineral-rich PM from road abrasion may be especially high due to use of studded tires during winter season. The aim of the present study was to sample and characterize size-fractioned PM from two road tunnels paved with different stone materials in the asphalt, and to compare the pro-inflammatory potential of these fractions in human bronchial epithelial cells (HBEC3-KT) in relation to physicochemical characteristics., Methods: The road tunnel PM was collected with a vacuum pump and a high-volume cascade impactor sampler. PM was sampled during winter, both during humid and dry road surface conditions, and before and after cleaning the tunnels. Samples were analysed for hydrodynamic size distribution, content of elemental carbon (EC), organic carbon (OC) and endotoxin, and the capacity for acellular generation of reactive oxygen species. Cytotoxicity and pro-inflammatory responses were assessed in HBEC3-KT cells after exposure to coarse (2.5-10 μm), fine (0.18-2.5 μm) and ultrafine PM (≤ 0.18 μm), as well as particles from the respective stone materials used in the pavement., Results: The pro-inflammatory potency of the PM samples varied between road tunnels and size fractions, but showed more marked responses than for the stone materials used in asphalt of the respective tunnels. In particular, fine samples showed significant increases as low as 25 µg/mL (2.6 µg/cm 2 ) and were more potent than coarse samples, while ultrafine samples showed more variable responses between tunnels, sampling conditions and endpoints. The most marked responses were observed for fine PM sampled during humid road surface conditions. Linear correlation analysis showed that particle-induced cytokine responses were correlated to OC levels, while no correlations were observed for other PM characteristics., Conclusions: The pro-inflammatory potential of fine road tunnel PM sampled during winter season was high compared to coarse PM. The differences between the PM-induced cytokine responses were not related to stone materials in the asphalt. However, the ratio of OC to total PM mass was associated with the pro-inflammatory potential., (© 2022. The Author(s).)

Published

2022

17. Short-term exposure to stone minerals used in asphalt affect lung function and promote pulmonary inflammation among healthy adults.

Author

Moazami TN, Hilt B, Sørås K, Svendsen KVH, Dahlman HJ, Refsnes M, Låg M, Øvrevik J, and Jørgensen RB

Subjects

Cross-Over Studies, Humans, Hydrocarbons, Lung, Young Adult, Pneumonia, Quartz toxicity

Abstract

Objective: Stone minerals are a partially ignored environmental challenge but a significant contributor to urban air pollution. We examined if short-term exposure to two stone minerals - quartz diorite and rhomb porphyry - commonly used in asphalt pavement would affect lung function, promote pulmonary inflammation, and affect bronchial reactivity differently., Methods: Our randomized crossover study included 24 healthy, non-smoking young adults exposed to the stone minerals quartz diorite, rhomb porphyry, and control dust (lactose). Exposure occurred in an exposure chamber, in three separate 4-hour exposure sessions. Fractional exhaled nitric oxide (FeNO) and lung function were monitored before exposure, then immediately following exposure, and 4 and 24 hours after exposure. In addition, methacholine was administered 4 hours following exposure, and exhaled breath condensate (EBC) was collected before exposure, then immediately and 4 hours after exposure. EBC was analyzed for pH, thiobarbituric acid reactive substances (TBARS), intercellular adhesion molecule 1 (ICAM-1), interleukin-6 (IL-6), IL-10, P-Selectin, surfactant protein D (SP-D), and tumor necrosis factor-α (TNF-α)., Results: Our results showed significantly elevated concentrations of FeNO after exposure to quartz diorite compared to rhomb porphyry, suggesting that quartz diorite is more likely to trigger pulmonary inflammation after short-term exposure. Moreover, short-term exposure to rhomb porphyry was associated with a modest but statistically significant decline in forced vital capacity (FVC) compared to quartz diorite., Conclusion: These results emphasize that using stone material in asphalt road construction should be reconsidered as it may affect lung inflammation and lung function in exposed subjects.

Published

2022

18. The pro-inflammatory effects of combined exposure to diesel exhaust particles and mineral particles in human bronchial epithelial cells.

Author

Grytting VS, Chand P, Låg M, Øvrevik J, and Refsnes M

Subjects

Cytokines genetics, Cytokines metabolism, Epithelial Cells, Humans, Inflammation chemically induced, Inflammation metabolism, Minerals metabolism, Minerals pharmacology, Particulate Matter toxicity, Cytochrome P-450 CYP1A1 genetics, Vehicle Emissions toxicity

Abstract

Background: People are exposed to ambient particulate matter (PM) from multiple sources simultaneously in both environmental and occupational settings. However, combinatory effects of particles from different sources have received little attention in experimental studies. In the present study, the pro-inflammatory effects of combined exposure to diesel exhaust particles (DEP) and mineral particles, two common PM constituents, were explored in human lung epithelial cells., Methods: Particle-induced secretion of pro-inflammatory cytokines (CXCL8 and IL-1β) and changes in expression of genes related to inflammation (CXCL8, IL-1α, IL-1β and COX-2), redox responses (HO-1) and xenobiotic metabolism (CYP1A1 and CYP1B1) were assessed in human bronchial epithelial cells (HBEC3-KT) after combined exposure to different samples of DEP and mineral particles. Combined exposure was also conducted using lipophilic organic extracts of DEP to assess the contribution of soluble organic chemicals. Moreover, the role of the aryl hydrocarbon receptor (AhR) pathway was assessed using an AhR-specific inhibitor (CH223191)., Results: Combined exposure to DEP and mineral particles induced increases in pro-inflammatory cytokines and expression of genes related to inflammation and redox responses in HBEC3-KT cells that were greater than either particle sample alone. Moreover, robust increases in the expression of CYP1A1 and CYP1B1 were observed. The effects were most pronounced after combined exposure to α-quartz and DEP from an older fossil diesel, but enhanced responses were also observed using DEP generated from a modern biodiesel blend and several stone particle samples of mixed mineral composition. Moreover, the effect of combined exposure on cytokine secretion could also be induced by lipophilic organic extracts of DEP. Pre-incubation with an AhR-specific inhibitor reduced the particle-induced cytokine responses, suggesting that the effects were at least partially dependent on AhR., Conclusions: Exposure to DEP and mineral particles in combination induces enhanced pro-inflammatory responses in human bronchial epithelial cells compared with exposure to the individual particle samples. The effects are partly mediated through an AhR-dependent pathway and lipophilic organic chemicals in DEP appear to play a central role. These possible combinatory effects between different sources and components of PM warrant further attention and should also be considered when assessing measures to reduce PM-induced health effects., (© 2022. The Author(s).)

Published

2022

19. A human relevant mixture of persistent organic pollutants induces reactive oxygen species formation in isolated human leucocytes: Involvement of the β2-adrenergic receptor.

Author

Berntsen HF, Bodin J, Øvrevik J, Berntsen CF, Østby GC, Brinchmann BC, Ropstad E, and Myhre O

Subjects

Female, Humans, Milk, Human, Reactive Oxygen Species, Signal Transduction, Environmental Pollutants toxicity, Persistent Organic Pollutants

Abstract

Exposure to chlorinated (Cl), brominated (Br) and perfluoroalkyl acid (PFAA) persistent organic pollutants (POPs) is associated with immunotoxicity and other adverse effects in humans and animals. Previous studies on POPs have mainly focused on single chemicals, while studies on complex mixtures are limited. Using DCF and luminol assays we examined effects on ROS generation in isolated human neutrophils, monocytes and lymphocytes, after in vitro exposure to a total mixture and sub-mixtures of 29 persistent compounds (Cl, Br, and PFAA). The mixtures were based on compounds prominent in blood, breast milk, and/or food. All mixture combinations induced ROS production in one or several of the cell models, and in some cases even at concentrations corresponding to human blood levels (compound range 1 pM - 16 nM). Whilst some interactions were detected (assessed using a mixed linear model), halogenated subgroups mainly acted additively. Mechanistic studies in neutrophils at 500× human levels (0.5 nM - 8 µM) indicated similar mechanisms of action for the Cl, PFAA, the combined PFAA + Cl and total (PFAA + Br + Cl) mixtures, and ROS responses appeared to involve β2-adrenergic receptor (β2AR) and Ca 2+ signalling, as well as activation of NADPH oxidases. In line with this, the total mixture also increased cyclic AMP at levels comparable with the non-selective βAR agonist, isoproterenol. Although the detailed mechanisms involved in these responses remain to be elucidated, our data show that POP mixtures at concentrations found in human blood, may trigger stress responses in circulating immune cells. Mixtures of POPs, further seemed to interfere with adrenergic pathways, indicating a novel role of βARs in POP-induced effects., (Copyright © 2021 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2022

20. Respirable stone particles differ in their ability to induce cytotoxicity and pro-inflammatory responses in cell models of the human airways.

Author

Grytting VS, Refsnes M, Øvrevik J, Halle MS, Schönenberger J, van der Lelij R, Snilsberg B, Skuland T, Blom R, and Låg M

Subjects

Caspase 1, Cytokines, Humans, Interleukin-1beta, NLR Family, Pyrin Domain-Containing 3 Protein, Quartz toxicity, Inflammasomes, Macrophages, Particulate Matter toxicity

Abstract

Background: Respirable stone- and mineral particles may be a major constituent in occupational and ambient air pollution and represent a possible health hazard. However, with exception of quartz and asbestos, little is known about the toxic properties of mineral particles. In the present study, the pro-inflammatory and cytotoxic responses to six stone particle samples of different composition and with diameter below 10 μm were assessed in human bronchial epithelial cells (HBEC3-KT), THP-1 macrophages and a HBEC3-KT/THP-1 co-culture. Moreover, particle-induced lysis of human erythrocytes was assessed to determine the ability of the particles to lyse biological membranes. Finally, the role of the NLRP3 inflammasome was assessed using a NLRP3-specific inhibitor and detection of ASC oligomers and cleaved caspase-1 and IL-1β. A reference sample of pure α-quartz was included for comparison., Results: Several stone particle samples induced a concentration-dependent increase in cytotoxicity and secretion of the pro-inflammatory cytokines CXCL8, IL-1α, IL-1β and TNFα. In HBEC3-KT, quartzite and anorthosite were the most cytotoxic stone particle samples and induced the highest levels of cytokines. Quartzite and anorthosite were also the most cytotoxic samples in THP-1 macrophages, while anorthosite and hornfels induced the highest cytokine responses. In comparison, few significant differences between particle samples were detected in the co-culture. Adjusting responses for differences in surface area concentrations did not fully account for the differences between particle samples. Moreover, the stone particles had low hemolytic potential, indicating that the effects were not driven by membrane lysis. Pre-incubation with a NLRP3-specific inhibitor reduced stone particle-induced cytokine responses in THP-1 macrophages, but not in HBEC3-KT cells, suggesting that the effects are mediated through different mechanisms in epithelial cells and macrophages. Particle exposure also induced an increase in ASC oligomers and cleaved caspase-1 and IL-1β in THP-1 macrophages, confirming the involvement of the NLRP3 inflammasome., Conclusions: The present study indicates that stone particles induce cytotoxicity and pro-inflammatory responses in human bronchial epithelial cells and macrophages, acting through NLRP3-independent and -dependent mechanisms, respectively. Moreover, some particle samples induced cytotoxicity and cytokine release to a similar or greater extent than α-quartz. Thus, these minerals warrant further attention in future research.

Published

2021

21. Can air pollution increase the risk of COVID-19?

Author

Holme JA, Låg M, Øvrevik J, and Golestani K

Subjects

Humans, Risk Factors, Air Pollution adverse effects, COVID-19 epidemiology

Published

2020

22. Potential role of polycyclic aromatic hydrocarbons in air pollution-induced non-malignant respiratory diseases.

Author

Låg M, Øvrevik J, Refsnes M, and Holme JA

Subjects

Adolescent, Adult, Age Factors, Aged, Animals, Child, Child, Preschool, Environmental Monitoring, Female, Humans, Lung metabolism, Lung pathology, Lung physiopathology, Lung Diseases metabolism, Lung Diseases pathology, Lung Diseases physiopathology, Male, Middle Aged, Prognosis, Risk Assessment, Risk Factors, Young Adult, Air Pollutants adverse effects, Air Pollution adverse effects, Inhalation Exposure adverse effects, Lung drug effects, Lung Diseases epidemiology, Polycyclic Aromatic Hydrocarbons adverse effects

Abstract

Epidemiological studies have found strong associations between air pollution and respiratory effects including development and/or exacerbation of asthma and chronic obstructive pulmonary disease (COPD) as well as increased occurrence of respiratory infections and lung cancer. It has become increasingly clear that also polycyclic aromatic hydrocarbons (PAHs) may affect processes linked to non-malignant diseases in the airways. The aim of the present paper was to review epidemiological studies on associations between gas phase and particle-bound PAHs in ambient air and non-malignant respiratory diseases or closely related physiological processes, to assess whether PAH-exposure may explain some of the effects associated with air pollution. Based on experimental in vivo and in vitro studies, we also explore possible mechanisms for how different PAHs may contribute to such events. Epidemiological studies show strongest evidence for an association between PAHs and asthma development and respiratory function in children. This is supported by studies on prenatal and postnatal exposure. Exposure to PAHs in adults seems to be linked to respiratory functions, exacerbation of asthma and increased morbidity/mortality of obstructive lung diseases. However, available studies are few and weak. Notably, the PAHs measured in plasma/urine also represent other exposure routes than inhalation. Furthermore, the role of PAHs measured in air is difficult to disentangle from that of other air pollution components originating from combustion processes. Experimental studies show that PAHs may trigger various processes linked to non-malignant respiratory diseases. Physiological- and pathological responses include redox imbalance, oxidative stress, inflammation both from the innate and adaptive immune systems, smooth muscle constriction, epithelial- and endothelial dysfunction and dysregulated lung development. Such biological responses may at the molecular level be initiated by PAH-binding to the aryl hydrocarbon receptor (AhR), but possibly also through interactions with beta-adrenergic receptors. In addition, reactive PAH metabolites or reactive oxygen species (ROS) may interfere directly with ion transporters and enzymes involved in signal transduction. Overall, the reviewed literature shows that respiratory effects of PAH-exposure in ambient air may extend beyond lung cancer. The relative importance of the specific PAHs ability to induce disease may differ between the biological endpoint in question.

Published

2020

23. Pro-inflammatory effects of crystalline- and nano-sized non-crystalline silica particles in a 3D alveolar model.

Author

Skuland T, Låg M, Gutleb AC, Brinchmann BC, Serchi T, Øvrevik J, Holme JA, and Refsnes M

Subjects

A549 Cells, Alveolar Epithelial Cells immunology, Coculture Techniques, Cytokines genetics, Dose-Response Relationship, Drug, Gene Expression immunology, Humans, Interleukin-1alpha genetics, Interleukin-1alpha metabolism, Interleukin-1beta genetics, Interleukin-1beta metabolism, Macrophages, Alveolar immunology, Models, Biological, Particle Size, Quartz toxicity, THP-1 Cells, Alveolar Epithelial Cells drug effects, Cytokines metabolism, Gene Expression drug effects, Macrophages, Alveolar drug effects, Nanoparticles toxicity, Silicon Dioxide toxicity

Abstract

Background: Silica nanoparticles (SiNPs) are among the most widely manufactured and used nanoparticles. Concerns about potential health effects of SiNPs have therefore risen. Using a 3D tri-culture model of the alveolar lung barrier we examined effects of exposure to SiNPs (Si10) and crystalline silica (quartz; Min-U-Sil) in the apical compartment consisting of human alveolar epithelial A549 cells and THP-1-derived macrophages, as well as in the basolateral compartment with Ea.hy926 endothelial cells. Inflammation-related responses were measured by ELISA and gene expression., Results: Exposure to both Si10 and Min-U-Sil induced gene expression and release of CXCL8, interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α), interleukin-1α (IL-1α) and interleukin-1β (IL-1β) in a concentration-dependent manner. Cytokine/chemokine expression and protein levels were highest in the apical compartment. Si10 and Min-U-Sil also induced expression of adhesion molecules ICAM-1 and E-selectin in the apical compartment. In the basolateral endothelial compartment we observed marked, but postponed effects on expression of all these genes, but only at the highest particle concentrations. Geneexpressions of heme oxygenase-1 (HO-1) and the metalloproteases (MMP-1 and MMP-9) were less affected. The IL-1 receptor antagonist (IL-1RA), markedly reduced effects of Si10 and Min-U-Sil exposures on gene expression of cytokines and adhesion molecules, as well as cytokine-release in both compartments., Conclusions: Si10 and Min-U-Sil induced gene expression and release of pro-inflammatory cytokines/adhesion molecules at both the epithelial/macrophage and endothelial side of a 3D tri-culture. Responses in the basolateral endothelial cells were only induced at high concentrations, and seemed to be mediated by IL-1α/β released from the apical epithelial cells and macrophages.

Published

2020

24. Oxidative Potential Versus Biological Effects: A Review on the Relevance of Cell-Free/Abiotic Assays as Predictors of Toxicity from Airborne Particulate Matter.

Author

Øvrevik J

Subjects

Air Pollutants, Air Pollution, Animals, Biological Assay, Biomarkers, Disease Susceptibility, Humans, Particle Size, Particulate Matter chemistry, Oxidation-Reduction drug effects, Oxidative Stress drug effects, Particulate Matter toxicity

Abstract

Background and Objectives : The oxidative potential (OP) of particulate matter (PM) in cell-free/abiotic systems have been suggested as a possible measure of their biological reactivity and a relevant exposure metric for ambient air PM in epidemiological studies. The present review examined whether the OP of particles correlate with their biological effects, to determine the relevance of these cell-free assays as predictors of particle toxicity. Methods : PubMed, Google Scholar and Web of Science databases were searched to identify relevant studies published up to May 2019. The main inclusion criteria used for the selection of studies were that they should contain (1) multiple PM types or samples, (2) assessment of oxidative potential in cell-free systems and (3) assessment of biological effects in cells, animals or humans. Results : In total, 50 independent studies were identified assessing both OP and biological effects of ambient air PM or combustion particles such as diesel exhaust and wood smoke particles: 32 in vitro or in vivo studies exploring effects in cells or animals, and 18 clinical or epidemiological studies exploring effects in humans. Of these, 29 studies assessed the association between OP and biological effects by statistical analysis: 10 studies reported that at least one OP measure was statistically significantly associated with all endpoints examined, 12 studies reported that at least one OP measure was significantly associated with at least one effect outcome, while seven studies reported no significant correlation/association between any OP measures and any biological effects. The overall assessment revealed considerable variability in reported association between individual OP assays and specific outcomes, but evidence of positive association between intracellular ROS, oxidative damage and antioxidant response in vitro, and between OP assessed by the dithiothreitol (DDT) assay and asthma/wheeze in humans. There was little support for consistent association between OP and any other outcome assessed, either due to repeated lack of statistical association, variability in reported findings or limited numbers of available studies. Conclusions : Current assays for OP in cell-free/abiotic systems appear to have limited value in predicting PM toxicity. Clarifying the underlying causes may be important for further advancement in the field.

Published

2019

25. Potential role of polycyclic aromatic hydrocarbons as mediators of cardiovascular effects from combustion particles.

Author

Holme JA, Brinchmann BC, Refsnes M, Låg M, and Øvrevik J

Subjects

Animals, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Cardiovascular Diseases chemically induced, Humans, Receptors, Aryl Hydrocarbon metabolism, Risk Factors, Air Pollutants adverse effects, Cardiovascular Diseases epidemiology, Polycyclic Aromatic Hydrocarbons adverse effects, Receptors, Aryl Hydrocarbon genetics, Vehicle Emissions

Abstract

Air pollution is the most important environmental risk factor for disease and premature death, and exposure to combustion particles from vehicles is a major contributor. Human epidemiological studies combined with experimental studies strongly suggest that exposure to combustion particles may enhance the risk of cardiovascular disease (CVD), including atherosclerosis, hypertension, thrombosis and myocardial infarction.In this review we hypothesize that adhered organic chemicals like polycyclic aromatic hydrocarbons (PAHs), contribute to development or exacerbation of CVD from combustion particles exposure. We summarize present knowledge from existing human epidemiological and clinical studies as well as experimental studies in animals and relevant in vitro studies. The available evidence suggests that organic compounds attached to these particles are significant triggers of CVD. Furthermore, their effects seem to be mediated at least in part by the aryl hydrocarbon receptor (AhR). The mechanisms include AhR-induced changes in gene expression as well as formation of reactive oxygen species (ROS) and/or reactive electrophilic metabolites. This is in accordance with a role of PAHs, as they seem to be the major chemical group on combustion particles, which bind AhR and/or is metabolically activated by CYP-enzymes. In some experimental models however, it seems as PAHs may induce an inflammatory atherosclerotic plaque phenotype irrespective of DNA- and/or AhR-ligand binding properties. Thus, various components and several signalling mechanisms/pathways are likely involved in CVD induced by combustion particles.We still need to expand our knowledge about the role of PAHs in CVD and in particular the relative importance of the different PAH species. This warrants further studies as enhanced knowledge on this issue may amend risk assessment of CVD caused by combustion particles and selection of efficient measures to reduce the health effects of particular matters (PM).

Published

2019

26. Lung effects of 7- and 28-day inhalation exposure of rats to emissions from 1st and 2nd generation biodiesel fuels with and without particle filter - The FuelHealth project.

Author

Magnusson P, Dziendzikowska K, Oczkowski M, Øvrevik J, Eide DM, Brunborg G, Gutzkow KB, Instanes C, Gajewska M, Wilczak J, Sapierzynski R, Kamola D, Królikowski T, Kruszewski M, Lankoff A, Mruk R, Duale N, Gromadzka-Ostrowska J, and Myhre O

Subjects

Administration, Inhalation, Animals, Bronchoalveolar Lavage Fluid, Cytokines metabolism, Lung cytology, Lung metabolism, Lung pathology, Male, Rats, Inbred F344, Air Pollutants toxicity, Biofuels, Lung drug effects, Particulate Matter toxicity, Vehicle Emissions toxicity

Abstract

Increased use of 1st and 2nd generation biofuels raises concerns about health effects of new emissions. We analyzed cellular and molecular lung effects in Fisher 344 rats exposed to diesel engine exhaust emissions (DEE) from a Euro 5-classified diesel engine running on B7: petrodiesel fuel containing 7% fatty acid methyl esters (FAME), or SHB20 (synthetic hydrocarbon biofuel): petrodiesel fuel containing 7% FAME and 13% hydrogenated vegetable oil. The Fisher 344 rats were exposed for 7 consecutive days (6 h/day) or 28 days (6 h/day, 5 days/week), both with and without diesel particle filter (DPF) treatment of the exhaust in whole body exposure chambers (n = 7/treatment). Histological analysis and analysis of cytokines and immune cell numbers in bronchoalveolar lavage fluid (BALF) did not reveal adverse pulmonary effects after exposure to DEE from B7 or SHB20 fuel. Significantly different gene expression levels for B7 compared to SHB20 indicate disturbed redox signaling (Cat, Hmox1), beta-adrenergic signaling (Adrb2) and xenobiotic metabolism (Cyp1a1). Exhaust filtration induced higher expression of redox genes (Cat, Gpx2) and the chemokine gene Cxcl7 compared to non-filtered exhaust. Exposure time (7 versus 28 days) also resulted in different patterns of lung gene expression. No genotoxic effects in the lungs were observed. Overall, exposure to B7 or SHB20 emissions suggests only minor effects in the lungs., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

27. Pro-Inflammatory Responses in Human Bronchial Epithelial Cells Induced by Spores and Hyphal Fragments of Common Damp Indoor Molds.

Author

Øya E, Becher R, Ekeren L, Afanou AKJ, Øvrevik J, and Holme JA

Subjects

Air Pollution, Indoor adverse effects, Cell Line, Cytokines immunology, Humans, Toll-Like Receptor 2 immunology, X-Rays, Aspergillus, Epithelial Cells immunology, Hyphae radiation effects, Penicillium, Spores, Fungal radiation effects, Stachybotrys

Abstract

Damp indoor environments contaminated with different mold species may contribute to the development and exacerbation of respiratory illnesses. Human bronchial epithelial BEAS-2B cells were exposed to X-ray treated spores and hyphal fragments from pure cultures of Aspergillus fumigatus , Penicillum chrysogenum , Aspergillus versicolor and Stachybotrys chartarum . Hyphal fragments of A. fumigatus and P. chrysogenum induced expression and release of the pro-inflammatory cytokine interleukin (IL)-6 and the chemokine IL-8, while none of the other hyphal preparations had effects. Hyphal fragments from A. fumigatus and P. chrysogenum also increased the expression of IL-1α, IL-1β and tumor necrosis factor (TNF)-α, but these cytokines were not released. X-ray treated spores had little or no inflammatory potential. Attenuating Toll-like receptor (TLR)-2 by blocking antibodies strongly reduced the A. fumigatus and P. chrysogenum hyphae-induced IL-6 and IL-8 release, whereas TLR4 antagonist treatment was without effects. Untreated A. fumigatus spores formed hyphae and triggered expression of pro-inflammatory genes with similarities to the effects of hyphal fragments. In conclusion, while X-ray treated spores induced no pro-inflammatory responses, hyphal fragments of A. fumigatus and P. chrysogenum enhanced a TLR2-dependent expression and release of IL-6 and IL-8.

Published

2019

28. Lipophilic components of diesel exhaust particles induce pro-inflammatory responses in human endothelial cells through AhR dependent pathway(s).

Author

Brinchmann BC, Skuland T, Rambøl MH, Szoke K, Brinchmann JE, Gutleb AC, Moschini E, Kubátová A, Kukowski K, Le Ferrec E, Lagadic-Gossmann D, Schwarze PE, Låg M, Refsnes M, Øvrevik J, and Holme JA

Subjects

Cyclooxygenase 2 genetics, Cytokines genetics, Endothelial Cells metabolism, Gene Expression drug effects, Humans, Inflammation, Matrix Metalloproteinase 1 genetics, Microvessels drug effects, Microvessels immunology, Microvessels metabolism, Nanoparticles chemistry, Polycyclic Aromatic Hydrocarbons chemistry, Signal Transduction, Endothelial Cells drug effects, Endothelial Cells immunology, Nanoparticles toxicity, Polycyclic Aromatic Hydrocarbons toxicity, Receptors, Aryl Hydrocarbon metabolism, Vehicle Emissions toxicity

Abstract

Background: Exposure to traffic-derived particulate matter (PM), such as diesel exhaust particles (DEP), is a leading environmental cause of cardiovascular disease (CVD), and may contribute to endothelial dysfunction and development of atherosclerosis. It is still debated how DEP and other inhaled PM can contribute to CVD. However, organic chemicals (OC) adhered to the particle surface, are considered central to many of the biological effects. In the present study, we have explored the ability of OC from DEP to reach the endothelium and trigger pro-inflammatory reactions, a central step on the path to atherosclerosis., Results: Exposure-relevant concentrations of DEP (0.12 μg/cm 2 ) applied on the epithelial side of an alveolar 3D tri-culture, rapidly induced pro-inflammatory and aryl hydrocarbon receptor (AhR)-regulated genes in the basolateral endothelial cells. These effects seem to be due to soluble lipophilic constituents rather than particle translocation. Extractable organic material of DEP (DEP-EOM) was next fractionated with increasing polarity, chemically characterized, and examined for direct effects on pro-inflammatory and AhR-regulated genes in human microvascular endothelial (HMEC-1) cells and primary human endothelial cells (PHEC) from four healthy donors. Exposure-relevant concentrations of lipophilic DEP-EOM (0.15 μg/cm 2 ) induced low to moderate increases in IL-1α, IL-1β, COX2 and MMP-1 gene expression, and the MMP-1 secretion was increased. By contrast, the more polar EOM had negligible effects, even at higher concentrations. Use of pharmacological inhibitors indicated that AhR and protease-activated receptor-2 (PAR-2) were central in regulation of EOM-induced gene expression. Some effects also seemed to be attributed to redox-responses, at least at the highest exposure concentrations tested. Although the most lipophilic EOM, that contained the majority of PAHs and aliphatics, had the clearest low-concentration effects, there was no straight-forward link between chemical composition and biological effects., Conclusion: Lipophilic and semi-lipophilic chemicals seemed to detach from DEP, translocate through alveolar epithelial cells and trigger pro-inflammatory reactions in endothelial cells at exposure-relevant concentrations. These effects appeared to be triggered by AhR agonists, and involve PAR-2 signaling.

Published

2018

29. Lipophilic Chemicals from Diesel Exhaust Particles Trigger Calcium Response in Human Endothelial Cells via Aryl Hydrocarbon Receptor Non-Genomic Signalling.

Author

Brinchmann BC, Le Ferrec E, Podechard N, Lagadic-Gossmann D, Shoji KF, Penna A, Kukowski K, Kubátová A, Holme JA, and Øvrevik J

Subjects

Air Pollutants chemistry, Air Pollutants toxicity, Atherosclerosis chemically induced, Atherosclerosis physiopathology, Calcium chemistry, Calcium metabolism, Calcium Signaling drug effects, Endothelial Cells pathology, Humans, Endothelial Cells drug effects, Polycyclic Aromatic Hydrocarbons toxicity, Receptors, Aryl Hydrocarbon chemistry, Vehicle Emissions toxicity

Abstract

Exposure to diesel exhaust particles (DEPs) affects endothelial function and may contribute to the development of atherosclerosis and vasomotor dysfunction. As intracellular calcium concentration [Ca 2+ ] i is considered important in myoendothelial signalling, we explored the effects of extractable organic matter from DEPs (DEP-EOM) on [Ca 2+ ] i and membrane microstructure in endothelial cells. DEP-EOM of increasing polarity was obtained by pressurized sequential extraction of DEPs with n -hexane ( n -Hex-EOM), dichloromethane (DCM-EOM), methanol, and water. Chemical analysis revealed that the majority of organic matter was extracted by the n -Hex- and DCM-EOM, with polycyclic aromatic hydrocarbons primarily occurring in n -Hex-EOM. The concentration of calcium was measured in human microvascular endothelial cells (HMEC-1) using micro-spectrofluorometry. The lipophilic n -Hex-EOM and DCM-EOM, but not the more polar methanol- and water-soluble extracts, induced rapid [Ca 2+ ] i increases in HMEC-1. n -Hex-EOM triggered [Ca 2+ ] i increase from intracellular stores, followed by extracellular calcium influx consistent with store operated calcium entry (SOCE). By contrast, the less lipophilic DCM-EOM triggered [Ca 2+ ] i increase via extracellular influx alone, resembling receptor operated calcium entry (ROCE). Both extracts increased [Ca 2+ ] i via aryl hydrocarbon receptor (AhR) non-genomic signalling, verified by pharmacological inhibition and RNA-interference. Moreover, DCM-EOM appeared to induce an AhR-dependent reduction in the global plasma membrane order, as visualized by confocal fluorescence microscopy. DCM-EOM-triggered [Ca 2+ ] i increase and membrane alterations were attenuated by the membrane stabilizing lipid cholesterol. In conclusion, lipophilic constituents of DEPs extracted by n -hexane and DCM seem to induce rapid AhR-dependent [Ca 2+ ] i increase in HMEC-1 endothelial cells, possibly involving both ROCE and SOCE-mediated mechanisms. The semi-lipophilic fraction extracted by DCM also caused an AhR-dependent reduction in global membrane order, which appeared to be connected to the [Ca 2+ ] i increase.

Published

2018

30. Diagnosis, monitoring and prevention of exposure-related non-communicable diseases in the living and working environment: DiMoPEx-project is designed to determine the impacts of environmental exposure on human health.

Author

Budnik LT, Adam B, Albin M, Banelli B, Baur X, Belpoggi F, Bolognesi C, Broberg K, Gustavsson P, Göen T, Fischer A, Jarosinska D, Manservisi F, O'Kennedy R, Øvrevik J, Paunovic E, Ritz B, Scheepers PTJ, Schlünssen V, Schwarzenbach H, Schwarze PE, Sheils O, Sigsgaard T, Van Damme K, and Casteleyn L

Abstract

The WHO has ranked environmental hazardous exposures in the living and working environment among the top risk factors for chronic disease mortality. Worldwide, about 40 million people die each year from noncommunicable diseases (NCDs) including cancer, diabetes, and chronic cardiovascular, neurological and lung diseases. The exposure to ambient pollution in the living and working environment is exacerbated by individual susceptibilities and lifestyle-driven factors to produce complex and complicated NCD etiologies. Research addressing the links between environmental exposure and disease prevalence is key for prevention of the pandemic increase in NCD morbidity and mortality. However, the long latency, the chronic course of some diseases and the necessity to address cumulative exposures over very long periods does mean that it is often difficult to identify causal environmental exposures. EU-funded COST Action DiMoPEx is developing new concepts for a better understanding of health-environment (including gene-environment) interactions in the etiology of NCDs. The overarching idea is to teach and train scientists and physicians to learn how to include efficient and valid exposure assessments in their research and in their clinical practice in current and future cooperative projects. DiMoPEx partners have identified some of the emerging research needs, which include the lack of evidence-based exposure data and the need for human-equivalent animal models mirroring human lifespan and low-dose cumulative exposures. Utilizing an interdisciplinary approach incorporating seven working groups, DiMoPEx will focus on aspects of air pollution with particulate matter including dust and fibers and on exposure to low doses of solvents and sensitizing agents. Biomarkers of early exposure and their associated effects as indicators of disease-derived information will be tested and standardized within individual projects. Risks arising from some NCDs, like pneumoconioses, cancers and allergies, are predictable and preventable. Consequently, preventative action could lead to decreasing disease morbidity and mortality for many of the NCDs that are of major public concern. DiMoPEx plans to catalyze and stimulate interaction of scientists with policy-makers in attacking these exposure-related diseases., Competing Interests: Not applicableConsent for the replication of figures previously published in other publications exists (the authors own the copyright).The authors report no conflicts of interest in this work. Disclosure: The manuscript presents the views of the authors and not necessarily the opinions of organizations they represent. DJ and EP are staff members of the World Health Organization (WHO) Regional Office for Europe. The authors alone are responsible for the views expressed in this publication and they do not necessarily represent the decision or stated policy of the World Health Organization.Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Published

2018

31. Do Carpets Impair Indoor Air Quality and Cause Adverse Health Outcomes: A Review.

Author

Becher R, Øvrevik J, Schwarze PE, Nilsen S, Hongslo JK, and Bakke JV

Subjects

Allergens, Dust, Humans, Hypersensitivity, Schools, Air Pollution, Indoor adverse effects, Asthma etiology, Floors and Floorcoverings

Abstract

Several earlier studies have shown the presence of more dust and allergens in carpets compared with non-carpeted floors. At the same time, adverse effects of carpeted floors on perceived indoor air quality as well as worsening of symptoms in individuals with asthma and allergies were reported. Avoiding extensive carpet use in offices, schools, kindergartens and bedrooms has therefore been recommended by several health authorities. More recently, carpet producers have argued that former assessments were obsolete and that modern rugs are unproblematic, even for those with asthma and allergies. To investigate whether the recommendation to be cautious with the use of carpets is still valid, or whether there are new data supporting that carpet flooring do not present a problem for indoor air quality and health, we have reviewed the literature on this matter. We have not found updated peer reviewed evidence that carpeted floor is unproblematic for the indoor environment. On the contrary, also more recent data support that carpets may act as a repository for pollutants which may become resuspended upon activity in the carpeted area. Also, the use of carpets is still linked to perception of reduced indoor air quality as well as adverse health effects as previously reported. To our knowledge, there are no publications that report on deposition of pollutants and adverse health outcomes associated with modern rugs. However, due to the three-dimensional structure of carpets, any carpet will to some extent act like a sink. Thus, continued caution should still be exercised when considering the use of wall-to-wall carpeted floors in schools, kindergartens and offices, as well as in children's bedrooms unless special needs indicate that carpets are preferable., Competing Interests: The authors declare no conflict of interest.

Published

2018

32. Dampness and Moisture Problems in Norwegian Homes.

Author

Becher R, Høie AH, Bakke JV, Holøs SB, and Øvrevik J

Subjects

Humans, Humidity, Norway, Respiratory Tract Diseases, Risk, Surveys and Questionnaires, Air Pollution, Indoor, Fungi, Housing

Abstract

The occurrence of dampness and mold in the indoor environment is associated with respiratory-related disease outcomes. Thus, it is pertinent to know the magnitude of such indoor environment problems to be able to estimate the potential health impact in the population. In the present study, the moisture damage in 10,112 Norwegian dwellings was recorded based on building inspection reports. The levels of moisture damage were graded based on a condition class (CC), where CC0 is immaculate and CC1 acceptable (actions not required), while CC2 and CC3 indicate increased levels of damage that requires action. Of the 10,112 dwellings investigated, 3125 had verified moisture or mold damage. This amounts to 31% of the surveyed dwellings. Of these, 27% had CC2 as the worst grade, whereas 4% had CC3 as the worst grade level. The room types and building structures most prone to moisture damage were (in rank order) crawl spaces, basements, un-insulated attics, cooling rooms, and bathrooms. The high proportion of homes with moisture damage indicate a possible risk for respiratory diseases in a relatively large number of individuals, even if only the more extensive moisture damages and those located in rooms where occupants spend the majority of their time would have a significant influence on adverse health effects., Competing Interests: The authors declare no conflict of interest.

Published

2017

33. Proinflammatory effects of diesel exhaust particles from moderate blend concentrations of 1st and 2nd generation biodiesel in BEAS-2B bronchial epithelial cells-The FuelHealth project.

Author

Skuland TS, Refsnes M, Magnusson P, Oczkowski M, Gromadzka-Ostrowska J, Kruszewski M, Mruk R, Myhre O, Lankoff A, and Øvrevik J

Subjects

Bronchi cytology, Cell Line, Cytochrome P-450 CYP1A1 genetics, Epithelial Cells drug effects, Epithelial Cells metabolism, Gene Expression drug effects, Heme Oxygenase-1 genetics, Humans, Interleukin-6 genetics, Interleukin-8 genetics, Air Pollutants toxicity, Biofuels, Particulate Matter toxicity, Vehicle Emissions toxicity

Abstract

Biodiesel fuel fuels are introduced at an increasing extent as a more carbon-neutral alternative to reduce CO 2 -emissions, compared to conventional diesel fuel. In the present study we have investigated the impact of increasing the use of 1st generation fatty acid methyl ester (FAME) biodiesel from current 7% blend (B7) to 20% blend (B20), or by increasing the biodiesel content by adding 2nd generation hydrotreated vegetable oil (HVO) based biodiesel (SHB; Synthetic Hydrocarbon Biofuel) on toxicity of diesel exhaust particles (DEP) in an in vitro system. Human bronchial epithelial BEAS-2B cells were exposed for 4 and 20h to DEP from B7, B20 and SHB at different concentrations, and examined for effects on gene expression of interleukin 6 (IL-6), CXCL8 (IL-8), CYP1A1 and heme oxygenase-1 (HO-1). The results show that both B20 and SHB were more potent inducers of IL-6 expression compared to B7. Only B20 induced statistically significant increases in CXCL8 expression. By comparison the rank order of potency to induce CYP1A1 was SHB>B7>B20. No statistically significant difference were observed form HO-1 expression, suggesting that the differences in cytokine responses were not due to oxidative stress. The results show that even moderate increases in biodiesel blends, from 7% to 20%, may increase the proinflammatory potential of emitted DEP in BEAS-2B cells. This effect was observed for both addition of 1st generation FAME and 2nd generation HVO biodiesel., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

34. Physico-chemical properties and biological effects of diesel and biomass particles.

Author

Longhin E, Gualtieri M, Capasso L, Bengalli R, Mollerup S, Holme JA, Øvrevik J, Casadei S, Di Benedetto C, Parenti P, and Camatini M

Subjects

Biomass, Cells, Cultured, Environmental Exposure adverse effects, Environmental Exposure analysis, Heating methods, Humans, Inflammation etiology, Inflammation genetics, Inflammation metabolism, Lung cytology, Lung drug effects, Lung metabolism, Oxidative Stress drug effects, Oxidative Stress genetics, Particle Size, Particulate Matter adverse effects, Particulate Matter chemistry, Respiratory Mucosa cytology, Respiratory Mucosa metabolism, Soot adverse effects, Vehicle Emissions analysis, Xenobiotics metabolism, Air Pollutants adverse effects, Air Pollutants analysis, Biofuels, Fossil Fuels, Metals adverse effects, Metals analysis, Polycyclic Aromatic Hydrocarbons adverse effects, Polycyclic Aromatic Hydrocarbons analysis, Respiratory Mucosa drug effects, Soot chemistry

Abstract

Diesel combustion and solid biomass burning are the major sources of ultrafine particles (UFP) in urbanized areas. Cardiovascular and pulmonary diseases, including lung cancer, are possible outcomes of combustion particles exposure, but differences in particles properties seem to influence their biological effects. Here the physico-chemical properties and biological effects of diesel and biomass particles, produced under controlled laboratory conditions, have been characterized. Diesel UFP were sampled from a Euro 4 light duty vehicle without DPF fuelled by commercial diesel and run over a chassis dyno. Biomass UFP were collected from a modern automatic 25 kW boiler propelled by prime quality spruce pellet. Transmission electron microscopy (TEM) and scanning electron microscopy (SEM) images of both diesel and biomass samples showed aggregates of soot particles, but in biomass samples ash particles were also present. Chemical characterization showed that metals and PAHs total content was higher in diesel samples compared to biomass ones. Human bronchial epithelial (HBEC3) cells were exposed to particles for up to 2 weeks. Changes in the expression of genes involved in xenobiotic metabolism were observed after exposure to both UFP already after 24 h. However, only diesel particles modulated the expression of genes involved in inflammation, oxidative stress and epithelial-to-mesenchymal transition (EMT), increased the release of inflammatory mediators and caused phenotypical alterations, mostly after two weeks of exposure. These results show that diesel UFP affected cellular processes involved in lung and cardiovascular diseases and cancer. Biomass particles exerted low biological activity compared to diesel UFP. This evidence emphasizes that the study of different emission sources contribution to ambient PM toxicity may have a fundamental role in the development of more effective strategies for air quality improvement., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

35. Activation of Proinflammatory Responses in Cells of the Airway Mucosa by Particulate Matter: Oxidant- and Non-Oxidant-Mediated Triggering Mechanisms.

Author

Øvrevik J, Refsnes M, Låg M, Holme JA, and Schwarze PE

Subjects

Animals, Humans, Inflammation chemically induced, Inflammation genetics, Inflammation metabolism, Inflammation pathology, Mucous Membrane drug effects, Mucous Membrane metabolism, Mucous Membrane pathology, Particulate Matter metabolism, Respiratory System pathology, Oxidants metabolism, Particulate Matter toxicity, Respiratory System drug effects, Respiratory System metabolism

Abstract

Inflammation is considered to play a central role in a diverse range of disease outcomes associated with exposure to various types of inhalable particulates. The initial mechanisms through which particles trigger cellular responses leading to activation of inflammatory responses are crucial to clarify in order to understand what physico-chemical characteristics govern the inflammogenic activity of particulate matter and why some particles are more harmful than others. Recent research suggests that molecular triggering mechanisms involved in activation of proinflammatory genes and onset of inflammatory reactions by particles or soluble particle components can be categorized into direct formation of reactive oxygen species (ROS) with subsequent oxidative stress, interaction with the lipid layer of cellular membranes, activation of cell surface receptors, and direct interactions with intracellular molecular targets. The present review focuses on the immediate effects and responses in cells exposed to particles and central down-stream signaling mechanisms involved in regulation of proinflammatory genes, with special emphasis on the role of oxidant and non-oxidant triggering mechanisms. Importantly, ROS act as a central second-messenger in a variety of signaling pathways. Even non-oxidant mediated triggering mechanisms are therefore also likely to activate downstream redox-regulated events.

Published

2015

36. AhR and Arnt differentially regulate NF-κB signaling and chemokine responses in human bronchial epithelial cells.

Author

Øvrevik J, Låg M, Lecureur V, Gilot D, Lagadic-Gossmann D, Refsnes M, Schwarze PE, Skuland T, Becher R, and Holme JA

Subjects

Air Pollutants pharmacology, Benzoflavones pharmacology, Cell Line, Tumor, Epithelial Cells drug effects, Humans, Phosphorylation, Poly I-C pharmacology, Pyrenes pharmacology, Receptors, Aryl Hydrocarbon antagonists & inhibitors, Serine metabolism, Signal Transduction, Tumor Necrosis Factor-alpha metabolism, Aryl Hydrocarbon Receptor Nuclear Translocator metabolism, Bronchi cytology, Chemokine CCL5 metabolism, Epithelial Cells metabolism, Interleukin-8 metabolism, NF-kappa B metabolism, Receptors, Aryl Hydrocarbon metabolism

Abstract

Background: The aryl hydrocarbon receptor (AhR) has gradually emerged as a regulator of inflammation in the lung and other tissues. AhR may interact with the p65-subunit of the nuclear factor (NF)-κB transcription factors, but reported outcomes of AhR/NF-κB-interactions are conflicting. Some studies suggest that AhR possess pro-inflammatory activities while others suggest that AhR may be anti-inflammatory. The present study explored the impact of AhR and its binding partner AhR nuclear translocator (Arnt) on p65-activation and two differentially regulated chemokines, CXCL8 (IL-8) and CCL5 (RANTES), in human bronchial epithelial cells (BEAS-2B)., Results: Cells were exposed to CXCL8- and CCL5-inducing chemicals, 1-nitropyrene (1-NP) and 1-aminopyrene (1-AP) respectively, or the synthetic double-stranded RNA analogue, polyinosinic-polycytidylic acid (Poly I:C) which induced both chemokines. Only CXCL8, and not CCL5, appeared to be p65-dependent. Yet, constitutively active unligated AhR suppressed both CXCL8 and CCL5, as shown by siRNA knock-down and the AhR antagonist α-naphthoflavone. Moreover, AhR suppressed activation of p65 by TNF-α and Poly I:C as assessed by luciferase-assay and p65-phosphorylation at serine 536, without affecting basal p65-activity. In contrast, Arnt suppressed only CXCL8, but did not prevent the p65-activation directly. However, Arnt suppressed expression of the NF-κB-subunit RelB which is under transcriptional regulation by p65. Furthermore, AhR-ligands alone at high concentrations induced a moderate CXCL8-response, without affecting CCL5, but suppressed both CXCL8 and CCL5-responses by Poly I:C., Conclusion: AhR and Arnt may differentially and independently regulate chemokine-responses induced by both inhaled pollutants and pulmonary infections. Constitutively active, unligated AhR suppressed the activation of p65, while Arnt may possibly interfere with the action of activated p65. Moreover, ligand-activated AhR suppressed CXCL8 and CCL5 responses by other agents, but AhR ligands alone induced CXCL8 responses when given at sufficiently high concentrations, thus underscoring the duality of AhR in regulation of inflammation. We propose that AhR-signaling may be a weak activator of p65-signaling that suppresses p65-activity induced by strong activators of NF-κB, but that its anti-inflammatory properties also are due to interference with additional pathways.

Published

2014

37. Differential chemokine induction by 1-nitropyrene and 1-aminopyrene in bronchial epithelial cells: importance of the TACE/TGF-α/EGFR-pathway.

Author

Øvrevik J, Holme JA, Låg M, Schwarze PE, and Refsnes M

Subjects

ADAM Proteins metabolism, ADAM17 Protein, Bronchi drug effects, Cells, Cultured, Enzyme Inhibitors pharmacology, Epithelial Cells metabolism, ErbB Receptors metabolism, Humans, Imidazoles pharmacology, Interleukin-8 metabolism, Pyridines pharmacology, Signal Transduction drug effects, Transforming Growth Factor alpha metabolism, Bronchi cytology, Chemokines metabolism, Epithelial Cells drug effects, Pyrenes toxicity

Abstract

1-nitropyrene (1-NP), a common PAH in diesel exhaust, and its amine metabolite 1-aminopyrene (1-AP) induce distinctly different chemokine-responses in bronchial epithelial cells (BEAS-2B) characterized by increases in CXCL8 and CCL5, respectively. Tumor necrosis factor-α converting enzyme (TACE), which cleaves membrane-bound transforming growth factor (TGF)-α, activating the epidermal growth factor receptor (EGFR), may regulate pro-inflammatory responses induced by a variety of endogenous and exogenous agents. The present results suggest that CXCL8, but not CCL5 responses in 1-NP- or 1-AP-exposed cells required TACE/TGF-α/EGFR-signaling. The findings strengthen the notion that TACE/TGF-α/EGFR-signaling is central in epithelial CXCL8-regulation upon exposure to multiple airborne pollutants., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

38. Different particle determinants induce apoptosis and cytokine release in primary alveolar macrophage cultures.

Author

Refsnes M, Hetland RB, Øvrevik J, Sundfør I, Schwarze PE, and Låg M

Abstract

Background: Particles are known to induce both cytokine release (MIP-2, TNF-alpha), a reduction in cell viability and an increased apoptosis in alveolar macrophages. To examine whether these responses are triggered by the same particle determinants, alveolar macrophages were exposed in vitro to mineral particles of different physical-chemical properties., Results: The crystalline particles of the different stone types mylonite, gabbro, basalt, feldspar, quartz, hornfels and fine grain syenite porphyr (porphyr), with a relatively equal size distribution (< or = 10 microm), but different chemical/mineral composition, all induced low and relatively similar levels of apoptosis. In contrast, mylonite and gabbro induced a marked MIP-2 response compared to the other particles. For particles of smaller size, quartz (< or = 2 microm) seemed to induce a somewhat stronger apoptotic response than even smaller quartz (< or = 0.5 microm) and larger quartz (< or = 10 microm) in relation to surface area, and was more potent than hornfels and porphyr (< or = 2 microm). The reduction in cell viability induced by quartz of the different sizes was roughly similar when adjusted to surface area. With respect to cytokines, the release was more marked after exposure to quartz < or = 0.5 microm than to quartz < or = 2 microm and < or = 10 microm. Furthermore, hornfels (< or = 2 microm) was more potent than the corresponding hornfels (< or = 10 microm) and quartz (< or = 2 microm) to induce cytokine responses. Pre-treatment of hornfels and quartz particles < or = 2 microm with aluminium lactate, to diminish the surface reactivity, did significantly reduce the MIP-2 response to hornfels. In contrast, the apoptotic responses to the particles were not affected., Conclusion: These results indicate that different determinants of mineral/stone particles are critical for inducing cytokine responses, reduction in cell viability and apoptosis in alveolar macrophages. The data suggest that the particle surface reactivity was critical for cytokine responses, but contributed less to cell death for the types of particles tested. The size-dependent variations, specially in cytokine release, seem not to be explained only by particle surface area.

Published

2006