Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions

BACKGROUND: Ship engine emissions are important with regard to lung and cardiovascular diseases especially in coastal regions worldwide. Known cellular responses to combustion particles include oxidative stress and inflammatory signalling. OBJECTIVES: To provide a molecular link between the chemical...

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Autores principales: Oeder, Sebastian, Kanashova, Tamara, Sippula, Olli, Sapcariu, Sean C., Streibel, Thorsten, Arteaga-Salas, Jose Manuel, Passig, Johannes, Dilger, Marco, Paur, Hanns-Rudolf, Schlager, Christoph, Mülhopt, Sonja, Diabaté, Silvia, Weiss, Carsten, Stengel, Benjamin, Rabe, Rom, Harndorf, Horst, Torvela, Tiina, Jokiniemi, Jorma K., Hirvonen, Maija-Riitta, Schmidt-Weber, Carsten, Traidl-Hoffmann, Claudia, BéruBé, Kelly A., Wlodarczyk, Anna J., Prytherch, Zoë, Michalke, Bernhard, Krebs, Tobias, Prévôt, André S. H., Kelbg, Michael, Tiggesbäumker, Josef, Karg, Erwin, Jakobi, Gert, Scholtes, Sorana, Schnelle-Kreis, Jürgen, Lintelmann, Jutta, Matuschek, Georg, Sklorz, Martin, Klingbeil, Sophie, Orasche, Jürgen, Richthammer, Patrick, Müller, Laarnie, Elsasser, Michael, Reda, Ahmed, Gröger, Thomas, Weggler, Benedikt, Schwemer, Theo, Czech, Hendryk, Rüger, Christopher P., Abbaszade, Gülcin, Radischat, Christian, Hiller, Karsten, Buters, Jeroen T. M., Dittmar, Gunnar, Zimmermann, Ralf
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4454644/
https://www.ncbi.nlm.nih.gov/pubmed/26039251
http://dx.doi.org/10.1371/journal.pone.0126536
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author Oeder, Sebastian
Kanashova, Tamara
Sippula, Olli
Sapcariu, Sean C.
Streibel, Thorsten
Arteaga-Salas, Jose Manuel
Passig, Johannes
Dilger, Marco
Paur, Hanns-Rudolf
Schlager, Christoph
Mülhopt, Sonja
Diabaté, Silvia
Weiss, Carsten
Stengel, Benjamin
Rabe, Rom
Harndorf, Horst
Torvela, Tiina
Jokiniemi, Jorma K.
Hirvonen, Maija-Riitta
Schmidt-Weber, Carsten
Traidl-Hoffmann, Claudia
BéruBé, Kelly A.
Wlodarczyk, Anna J.
Prytherch, Zoë
Michalke, Bernhard
Krebs, Tobias
Prévôt, André S. H.
Kelbg, Michael
Tiggesbäumker, Josef
Karg, Erwin
Jakobi, Gert
Scholtes, Sorana
Schnelle-Kreis, Jürgen
Lintelmann, Jutta
Matuschek, Georg
Sklorz, Martin
Klingbeil, Sophie
Orasche, Jürgen
Richthammer, Patrick
Müller, Laarnie
Elsasser, Michael
Reda, Ahmed
Gröger, Thomas
Weggler, Benedikt
Schwemer, Theo
Czech, Hendryk
Rüger, Christopher P.
Abbaszade, Gülcin
Radischat, Christian
Hiller, Karsten
Buters, Jeroen T. M.
Dittmar, Gunnar
Zimmermann, Ralf
author_facet Oeder, Sebastian
Kanashova, Tamara
Sippula, Olli
Sapcariu, Sean C.
Streibel, Thorsten
Arteaga-Salas, Jose Manuel
Passig, Johannes
Dilger, Marco
Paur, Hanns-Rudolf
Schlager, Christoph
Mülhopt, Sonja
Diabaté, Silvia
Weiss, Carsten
Stengel, Benjamin
Rabe, Rom
Harndorf, Horst
Torvela, Tiina
Jokiniemi, Jorma K.
Hirvonen, Maija-Riitta
Schmidt-Weber, Carsten
Traidl-Hoffmann, Claudia
BéruBé, Kelly A.
Wlodarczyk, Anna J.
Prytherch, Zoë
Michalke, Bernhard
Krebs, Tobias
Prévôt, André S. H.
Kelbg, Michael
Tiggesbäumker, Josef
Karg, Erwin
Jakobi, Gert
Scholtes, Sorana
Schnelle-Kreis, Jürgen
Lintelmann, Jutta
Matuschek, Georg
Sklorz, Martin
Klingbeil, Sophie
Orasche, Jürgen
Richthammer, Patrick
Müller, Laarnie
Elsasser, Michael
Reda, Ahmed
Gröger, Thomas
Weggler, Benedikt
Schwemer, Theo
Czech, Hendryk
Rüger, Christopher P.
Abbaszade, Gülcin
Radischat, Christian
Hiller, Karsten
Buters, Jeroen T. M.
Dittmar, Gunnar
Zimmermann, Ralf
author_sort Oeder, Sebastian
collection PubMed
description BACKGROUND: Ship engine emissions are important with regard to lung and cardiovascular diseases especially in coastal regions worldwide. Known cellular responses to combustion particles include oxidative stress and inflammatory signalling. OBJECTIVES: To provide a molecular link between the chemical and physical characteristics of ship emission particles and the cellular responses they elicit and to identify potentially harmful fractions in shipping emission aerosols. METHODS: Through an air-liquid interface exposure system, we exposed human lung cells under realistic in vitro conditions to exhaust fumes from a ship engine running on either common heavy fuel oil (HFO) or cleaner-burning diesel fuel (DF). Advanced chemical analyses of the exhaust aerosols were combined with transcriptional, proteomic and metabolomic profiling including isotope labelling methods to characterise the lung cell responses. RESULTS: The HFO emissions contained high concentrations of toxic compounds such as metals and polycyclic aromatic hydrocarbon, and were higher in particle mass. These compounds were lower in DF emissions, which in turn had higher concentrations of elemental carbon (“soot”). Common cellular reactions included cellular stress responses and endocytosis. Reactions to HFO emissions were dominated by oxidative stress and inflammatory responses, whereas DF emissions induced generally a broader biological response than HFO emissions and affected essential cellular pathways such as energy metabolism, protein synthesis, and chromatin modification. CONCLUSIONS: Despite a lower content of known toxic compounds, combustion particles from the clean shipping fuel DF influenced several essential pathways of lung cell metabolism more strongly than particles from the unrefined fuel HFO. This might be attributable to a higher soot content in DF. Thus the role of diesel soot, which is a known carcinogen in acute air pollution-induced health effects should be further investigated. For the use of HFO and DF we recommend a reduction of carbonaceous soot in the ship emissions by implementation of filtration devices.
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spelling pubmed-44546442015-06-09 Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions Oeder, Sebastian Kanashova, Tamara Sippula, Olli Sapcariu, Sean C. Streibel, Thorsten Arteaga-Salas, Jose Manuel Passig, Johannes Dilger, Marco Paur, Hanns-Rudolf Schlager, Christoph Mülhopt, Sonja Diabaté, Silvia Weiss, Carsten Stengel, Benjamin Rabe, Rom Harndorf, Horst Torvela, Tiina Jokiniemi, Jorma K. Hirvonen, Maija-Riitta Schmidt-Weber, Carsten Traidl-Hoffmann, Claudia BéruBé, Kelly A. Wlodarczyk, Anna J. Prytherch, Zoë Michalke, Bernhard Krebs, Tobias Prévôt, André S. H. Kelbg, Michael Tiggesbäumker, Josef Karg, Erwin Jakobi, Gert Scholtes, Sorana Schnelle-Kreis, Jürgen Lintelmann, Jutta Matuschek, Georg Sklorz, Martin Klingbeil, Sophie Orasche, Jürgen Richthammer, Patrick Müller, Laarnie Elsasser, Michael Reda, Ahmed Gröger, Thomas Weggler, Benedikt Schwemer, Theo Czech, Hendryk Rüger, Christopher P. Abbaszade, Gülcin Radischat, Christian Hiller, Karsten Buters, Jeroen T. M. Dittmar, Gunnar Zimmermann, Ralf PLoS One Research Article BACKGROUND: Ship engine emissions are important with regard to lung and cardiovascular diseases especially in coastal regions worldwide. Known cellular responses to combustion particles include oxidative stress and inflammatory signalling. OBJECTIVES: To provide a molecular link between the chemical and physical characteristics of ship emission particles and the cellular responses they elicit and to identify potentially harmful fractions in shipping emission aerosols. METHODS: Through an air-liquid interface exposure system, we exposed human lung cells under realistic in vitro conditions to exhaust fumes from a ship engine running on either common heavy fuel oil (HFO) or cleaner-burning diesel fuel (DF). Advanced chemical analyses of the exhaust aerosols were combined with transcriptional, proteomic and metabolomic profiling including isotope labelling methods to characterise the lung cell responses. RESULTS: The HFO emissions contained high concentrations of toxic compounds such as metals and polycyclic aromatic hydrocarbon, and were higher in particle mass. These compounds were lower in DF emissions, which in turn had higher concentrations of elemental carbon (“soot”). Common cellular reactions included cellular stress responses and endocytosis. Reactions to HFO emissions were dominated by oxidative stress and inflammatory responses, whereas DF emissions induced generally a broader biological response than HFO emissions and affected essential cellular pathways such as energy metabolism, protein synthesis, and chromatin modification. CONCLUSIONS: Despite a lower content of known toxic compounds, combustion particles from the clean shipping fuel DF influenced several essential pathways of lung cell metabolism more strongly than particles from the unrefined fuel HFO. This might be attributable to a higher soot content in DF. Thus the role of diesel soot, which is a known carcinogen in acute air pollution-induced health effects should be further investigated. For the use of HFO and DF we recommend a reduction of carbonaceous soot in the ship emissions by implementation of filtration devices. Public Library of Science 2015-06-03 /pmc/articles/PMC4454644/ /pubmed/26039251 http://dx.doi.org/10.1371/journal.pone.0126536 Text en © 2015 Oeder et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Oeder, Sebastian
Kanashova, Tamara
Sippula, Olli
Sapcariu, Sean C.
Streibel, Thorsten
Arteaga-Salas, Jose Manuel
Passig, Johannes
Dilger, Marco
Paur, Hanns-Rudolf
Schlager, Christoph
Mülhopt, Sonja
Diabaté, Silvia
Weiss, Carsten
Stengel, Benjamin
Rabe, Rom
Harndorf, Horst
Torvela, Tiina
Jokiniemi, Jorma K.
Hirvonen, Maija-Riitta
Schmidt-Weber, Carsten
Traidl-Hoffmann, Claudia
BéruBé, Kelly A.
Wlodarczyk, Anna J.
Prytherch, Zoë
Michalke, Bernhard
Krebs, Tobias
Prévôt, André S. H.
Kelbg, Michael
Tiggesbäumker, Josef
Karg, Erwin
Jakobi, Gert
Scholtes, Sorana
Schnelle-Kreis, Jürgen
Lintelmann, Jutta
Matuschek, Georg
Sklorz, Martin
Klingbeil, Sophie
Orasche, Jürgen
Richthammer, Patrick
Müller, Laarnie
Elsasser, Michael
Reda, Ahmed
Gröger, Thomas
Weggler, Benedikt
Schwemer, Theo
Czech, Hendryk
Rüger, Christopher P.
Abbaszade, Gülcin
Radischat, Christian
Hiller, Karsten
Buters, Jeroen T. M.
Dittmar, Gunnar
Zimmermann, Ralf
Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions
title Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions
title_full Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions
title_fullStr Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions
title_full_unstemmed Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions
title_short Particulate Matter from Both Heavy Fuel Oil and Diesel Fuel Shipping Emissions Show Strong Biological Effects on Human Lung Cells at Realistic and Comparable In Vitro Exposure Conditions
title_sort particulate matter from both heavy fuel oil and diesel fuel shipping emissions show strong biological effects on human lung cells at realistic and comparable in vitro exposure conditions
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4454644/
https://www.ncbi.nlm.nih.gov/pubmed/26039251
http://dx.doi.org/10.1371/journal.pone.0126536
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