Physiological and inflammatory responses in an anthropomorphically relevant model of acute diesel exhaust particle exposure are sex and dose-dependent

Context: Diesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists for a sex-influenced dose-response relationship between acute PM exposure and respiratory health, similar data are lacking for DEP. Further,...

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Published in	Inhalation toxicology Vol. 23; no. 14; pp. 906 - 917
Main Authors	Boylen, Catherine E., Sly, Peter D., Zosky, Graeme R., Larcombe, Alexander N.
Format	Journal Article
Language	English
Published	England Informa Healthcare 01.12.2011 Taylor & Francis
Subjects	acute exposure Air Pollutants - toxicity Animals Bronchoalveolar Lavage Fluid - chemistry Bronchoalveolar Lavage Fluid - cytology Carbon - analysis Cell Count Chemokine CCL2 - metabolism Chemokine CXCL2 - metabolism Diesel exhaust particles Dose-Response Relationship, Drug elemental carbon Female lung function Macrophages, Alveolar - drug effects Macrophages, Alveolar - metabolism Male Mice Mice, Inbred BALB C mouse Neutrophils - drug effects Neutrophils - metabolism Particulate Matter - toxicity Pneumonia - chemically induced Pneumonia - metabolism Pneumonia - physiopathology pulmonary inflammation Sex Factors Vehicle Emissions - toxicity
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ISSN	0895-8378 1091-7691 1091-7691
DOI	10.3109/08958378.2011.625454

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Abstract	Context: Diesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists for a sex-influenced dose-response relationship between acute PM exposure and respiratory health, similar data are lacking for DEP. Further, experimental evidence showing deleterious effects on respiratory health due to acute DEP exposure is sparse. Objective: To establish and characterize a mouse model of acute DEP exposure, comparing male and female mice and assessing the kinetics of the elemental carbon content of alveolar macrophages (AMs) to relate our model to human exposure. Materials and Methods: Adult BALB/c mice were intranasally inoculated with 0 (control), 10, 30 or 100 µg DEP in saline. Bronchoalveolar lavage cellular inflammation and cytokine levels were assessed 3, 6, 12, 24, 48 and 168 hours post exposure. Elemental carbon uptake by AMs was additionally assessed at 336 and 672 hours post DEP exposure. Thoracic gas volume and lung mechanics were measured 6 and 24 hours post exposure. Results: DEP resulted in dose-dependent cellular inflammation and cytokine production in both sexes. Males and females responded differently with females having more severe and prolonged neutrophilia, monocyte chemoattractant protein-1 and developing greater abnormalities in lung function. The sexual dimorphism in response was not related to the capacity of AMs to phagocytise DEP. Conclusions: Our mouse model of acute diesel exhaust particle exposure shows a dose dependency and sexual dimorphism in response. Quantification of elemental carbon in AMs allows for comparison of the results of our study with human studies.
AbstractList	Context: Diesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists for a sex-influenced dose-response relationship between acute PM exposure and respiratory health, similar data are lacking for DEP. Further, experimental evidence showing deleterious effects on respiratory health due to acute DEP exposure is sparse. Objective: To establish and characterize a mouse model of acute DEP exposure, comparing male and female mice and assessing the kinetics of the elemental carbon content of alveolar macrophages (AMs) to relate our model to human exposure. Materials and Methods: Adult BALB/c mice were intranasally inoculated with 0 (control), 10, 30 or 100 µg DEP in saline. Bronchoalveolar lavage cellular inflammation and cytokine levels were assessed 3, 6, 12, 24, 48 and 168 hours post exposure. Elemental carbon uptake by AMs was additionally assessed at 336 and 672 hours post DEP exposure. Thoracic gas volume and lung mechanics were measured 6 and 24 hours post exposure. Results: DEP resulted in dose-dependent cellular inflammation and cytokine production in both sexes. Males and females responded differently with females having more severe and prolonged neutrophilia, monocyte chemoattractant protein-1 and developing greater abnormalities in lung function. The sexual dimorphism in response was not related to the capacity of AMs to phagocytise DEP. Conclusions: Our mouse model of acute diesel exhaust particle exposure shows a dose dependency and sexual dimorphism in response. Quantification of elemental carbon in AMs allows for comparison of the results of our study with human studies. Diesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists for a sex-influenced dose-response relationship between acute PM exposure and respiratory health, similar data are lacking for DEP. Further, experimental evidence showing deleterious effects on respiratory health due to acute DEP exposure is sparse. To establish and characterize a mouse model of acute DEP exposure, comparing male and female mice and assessing the kinetics of the elemental carbon content of alveolar macrophages (AMs) to relate our model to human exposure. Adult BALB/c mice were intranasally inoculated with 0 (control), 10, 30 or 100 µg DEP in saline. Bronchoalveolar lavage cellular inflammation and cytokine levels were assessed 3, 6, 12, 24, 48 and 168 hours post exposure. Elemental carbon uptake by AMs was additionally assessed at 336 and 672 hours post DEP exposure. Thoracic gas volume and lung mechanics were measured 6 and 24 hours post exposure. DEP resulted in dose-dependent cellular inflammation and cytokine production in both sexes. Males and females responded differently with females having more severe and prolonged neutrophilia, monocyte chemoattractant protein-1 and developing greater abnormalities in lung function. The sexual dimorphism in response was not related to the capacity of AMs to phagocytise DEP. Our mouse model of acute diesel exhaust particle exposure shows a dose dependency and sexual dimorphism in response. Quantification of elemental carbon in AMs allows for comparison of the results of our study with human studies. Diesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists for a sex-influenced dose-response relationship between acute PM exposure and respiratory health, similar data are lacking for DEP. Further, experimental evidence showing deleterious effects on respiratory health due to acute DEP exposure is sparse.CONTEXTDiesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists for a sex-influenced dose-response relationship between acute PM exposure and respiratory health, similar data are lacking for DEP. Further, experimental evidence showing deleterious effects on respiratory health due to acute DEP exposure is sparse.To establish and characterize a mouse model of acute DEP exposure, comparing male and female mice and assessing the kinetics of the elemental carbon content of alveolar macrophages (AMs) to relate our model to human exposure.OBJECTIVETo establish and characterize a mouse model of acute DEP exposure, comparing male and female mice and assessing the kinetics of the elemental carbon content of alveolar macrophages (AMs) to relate our model to human exposure.Adult BALB/c mice were intranasally inoculated with 0 (control), 10, 30 or 100 µg DEP in saline. Bronchoalveolar lavage cellular inflammation and cytokine levels were assessed 3, 6, 12, 24, 48 and 168 hours post exposure. Elemental carbon uptake by AMs was additionally assessed at 336 and 672 hours post DEP exposure. Thoracic gas volume and lung mechanics were measured 6 and 24 hours post exposure.MATERIALS AND METHODSAdult BALB/c mice were intranasally inoculated with 0 (control), 10, 30 or 100 µg DEP in saline. Bronchoalveolar lavage cellular inflammation and cytokine levels were assessed 3, 6, 12, 24, 48 and 168 hours post exposure. Elemental carbon uptake by AMs was additionally assessed at 336 and 672 hours post DEP exposure. Thoracic gas volume and lung mechanics were measured 6 and 24 hours post exposure.DEP resulted in dose-dependent cellular inflammation and cytokine production in both sexes. Males and females responded differently with females having more severe and prolonged neutrophilia, monocyte chemoattractant protein-1 and developing greater abnormalities in lung function. The sexual dimorphism in response was not related to the capacity of AMs to phagocytise DEP.RESULTSDEP resulted in dose-dependent cellular inflammation and cytokine production in both sexes. Males and females responded differently with females having more severe and prolonged neutrophilia, monocyte chemoattractant protein-1 and developing greater abnormalities in lung function. The sexual dimorphism in response was not related to the capacity of AMs to phagocytise DEP.Our mouse model of acute diesel exhaust particle exposure shows a dose dependency and sexual dimorphism in response. Quantification of elemental carbon in AMs allows for comparison of the results of our study with human studies.CONCLUSIONSOur mouse model of acute diesel exhaust particle exposure shows a dose dependency and sexual dimorphism in response. Quantification of elemental carbon in AMs allows for comparison of the results of our study with human studies.
Author	Larcombe, Alexander N. Sly, Peter D. Zosky, Graeme R. Boylen, Catherine E.
Author_xml	– sequence: 1 givenname: Catherine E. surname: Boylen fullname: Boylen, Catherine E. email: alexanderl@ichr.uwa.edu.au, alexanderl@ichr.uwa.edu.au organization: Division of Clinical Sciences, Telethon Institute for Child Health Research, Centre for Child Health Research, University of Western Australia – sequence: 2 givenname: Peter D. surname: Sly fullname: Sly, Peter D. email: alexanderl@ichr.uwa.edu.au, alexanderl@ichr.uwa.edu.au organization: 1Division of Clinical Sciences, Telethon Institute for Child Health Research, Centre for Child Health Research, University of Western Australia, West Perth, WA, Australia – sequence: 3 givenname: Graeme R. surname: Zosky fullname: Zosky, Graeme R. email: alexanderl@ichr.uwa.edu.au, alexanderl@ichr.uwa.edu.au organization: Division of Clinical Sciences, Telethon Institute for Child Health Research, Centre for Child Health Research, University of Western Australia – sequence: 4 givenname: Alexander N. surname: Larcombe fullname: Larcombe, Alexander N. email: alexanderl@ichr.uwa.edu.au, alexanderl@ichr.uwa.edu.au organization: Division of Clinical Sciences, Telethon Institute for Child Health Research, Centre for Child Health Research, University of Western Australia
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/22122304$$D View this record in MEDLINE/PubMed
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Snippet	Context: Diesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists... Diesel exhaust particles (DEP) are an important contributor to suspended particulate matter (PM) in urban areas. While epidemiological evidence exists for a...
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SubjectTerms	acute exposure Air Pollutants - toxicity Animals Bronchoalveolar Lavage Fluid - chemistry Bronchoalveolar Lavage Fluid - cytology Carbon - analysis Cell Count Chemokine CCL2 - metabolism Chemokine CXCL2 - metabolism Diesel exhaust particles Dose-Response Relationship, Drug elemental carbon Female lung function Macrophages, Alveolar - drug effects Macrophages, Alveolar - metabolism Male Mice Mice, Inbred BALB C mouse Neutrophils - drug effects Neutrophils - metabolism Particulate Matter - toxicity Pneumonia - chemically induced Pneumonia - metabolism Pneumonia - physiopathology pulmonary inflammation Sex Factors Vehicle Emissions - toxicity
Title	Physiological and inflammatory responses in an anthropomorphically relevant model of acute diesel exhaust particle exposure are sex and dose-dependent
URI	https://www.tandfonline.com/doi/abs/10.3109/08958378.2011.625454 https://www.ncbi.nlm.nih.gov/pubmed/22122304 https://www.proquest.com/docview/907036881
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