Asthma is the most common chronic disease of children. The etiology is not clear, but recent studies suggest that traffic-related particulate air pollution may contribute to the occurrence of childhood asthma and asthma- related bronchitic symptoms. Respirable particulate matter (PM) produces oxidative stress and acute inflammatory and allergic affects characteristic of asthma, but there has been little study of how these effects may lead chronically to the development of disease. A better understanding of which specific PM-induced biological effects result in asthma could lead to targeted clinical interventions and to new prevention strategies focused on the biological activity of PM. We propose a new approach to population studies of complex mixtures of air pollution that will assess exposure based on the in vitro effects of PM on key biological pathways and examine the relationship to the development of chronic disease. These pathways include inflammation, characterized by PM-induced cytokines (IL-8, GM-CSF, and IL-12), allergy (IgE response and release of histamine) and oxidative stress (reactive oxygen species production, GST activity and Phase II enzyme induction). We will also investigate genetic susceptibility based on the change in PM-induced biological activity in cells expressing GSTM1 and in cells with GSTM1 expression reduced using siRNA. We selected this gene as a prototype for our research approach because it has a common null genotype that increases the risk of asthma associated with oxidant PM exposure. We will use the in vitro toxicological assays to predict the risk of asthma and assess susceptibility associated with GSTM1 genotype. Our ongoing prospective cohort study of air pollution, genetics and respiratory disease among 3372 children in the southern California Children's Health Study provides an opportunity to use the new approach to evaluate whether: 1) asthma incidence and bronchitic exacerbation are associated with the in vitro ability of PM to induce pro- oxidant, inflammatory and allergic effects;and 2) susceptibility to health effects of PM-induced biological activity is influenced by in vitro GSTM1 expression and by participants'GSTM1 genotype. The in vitro biological responses to PM less than 2.5 5m in aerodynamic diameter will be measured along with gaseous oxidant co-pollutants (NOx and ozone) at community monitors, schools and a sample of homes in each of the eight study communities. Results will be integrated in the analyses using an innovative hierarchical modeling strategy to predict variation in particle biological activity related to traffic within communities and across study communities representing the range of ambient PM exposure in southern California. Each biological exposure index, which will be specific for study participants'GSTM1 genotype, will be assigned to the entire cohort and will be used to predict asthma and bronchitic symptoms. The study has the potential to fill important gaps in our understanding of the role of particulate air pollution in the development of childhood respiratory disease.

Public Health Relevance

This new approach to exposure assessment has the potential to provide better estimates of asthma risk and susceptibility due to exposure to particulate air pollution. This information will be useful for risk assessment and could lead to new regulatory and monitoring approaches for controlling the health hazards of air pollution.

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Research Project (R01)
Project #
5R01ES016535-04
Application #
8092713
Study Section
Infectious Diseases, Reproductive Health, Asthma and Pulmonary Conditions Study Section (IRAP)
Program Officer
Gray, Kimberly A
Project Start
2008-09-10
Project End
2014-06-30
Budget Start
2011-07-01
Budget End
2014-06-30
Support Year
4
Fiscal Year
2011
Total Cost
$449,109
Indirect Cost
Name
University of Southern California
Department
Public Health & Prev Medicine
Type
Schools of Medicine
DUNS #
072933393
City
Los Angeles
State
CA
Country
United States
Zip Code
90089
Urman, Robert; Eckel, Sandrah; Deng, Huiyu et al. (2018) RISK EFFECTS OF NEAR-ROADWAY POLLUTANTS AND ASTHMA STATUS ON BRONCHITIC SYMPTOMS IN CHILDREN. Environ Epidemiol 2:
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McConnell, Rob; Shen, Ernest; Gilliland, Frank D et al. (2015) A longitudinal cohort study of body mass index and childhood exposure to secondhand tobacco smoke and air pollution: the Southern California Children's Health Study. Environ Health Perspect 123:360-6
Urman, Robert; McConnell, Rob; Islam, Talat et al. (2014) Associations of children's lung function with ambient air pollution: joint effects of regional and near-roadway pollutants. Thorax 69:540-7
Brandt, Sylvia; Perez, Laura; Künzli, Nino et al. (2014) Cost of near-roadway and regional air pollution-attributable childhood asthma in Los Angeles County. J Allergy Clin Immunol 134:1028-35
Volk, Heather E; Kerin, Tara; Lurmann, Fred et al. (2014) Autism spectrum disorder: interaction of air pollution with the MET receptor tyrosine kinase gene. Epidemiology 25:44-7
Urman, Robert; Gauderman, James; Fruin, Scott et al. (2014) Determinants of the Spatial Distributions of Elemental Carbon and Particulate Matter in Eight Southern Californian Communities. Atmos Environ (1994) 86:84-92

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