Abstract

Nitrogen dioxide (NO2) is a toxic free radical gas and a major air pollutant. Importantly, NO2 can also be formed in lung as a result of metabolism of nitric oxide. NO2 causes acute injury, but also is critical to the aggravation of asthma in children. Currently, the molecular targets and pathways, by which NO2 induces acute lung injury are unknown. The central hypothesis of this proposal is that NO2 causes apoptosis in lung epithelial cells following activation of c-Jun-N-terminal kinases (JNK), the JNK substrate, c-Jun and the downstream induction of Fas ligand. This hypothesis will be tested in four specific aims that utilize both cell culture models as well as mouse inhalation studies. In the first Specific Aim, we will determine the activation of JNK, c-Jun-apoptosis in rodent lung epithelial cells and normal human bronchiolar epithelial cells exposed to NO2, We will use dominant negative constructs to block the JNK pathway to determine whether this blocks apoptosis in lung epithelial cells exposed to NO2.
In Specific Aim #2 we will determine whether the activity of c-Jun as a transcription factor is required for NO2- induced apoptosis in vitro.
In Specific Aim #3, we will utilize mice containing a mutated c-jun gene that cannot be activated by JNK. In these mice and their wild type counterparts, we will determine patterns of acute lung damage, apoptosis, fibrosis and alterations in pulmonary function after exposure to NO2.
In Specific Aim #4, we will create a transgenic mouse that expresses a dominant negative Fas construct selectively in bronchiolar epithelium in order to confirm the causality of Fas-induced apoptosis within bronchiolar epithelium of mice exposed to NO2. The combined strategies of cell culture models and transgenic animals will allow elucidation of the mechanisms by which NO2 initiates pulmonary damage. Understanding of molecular targets and pathways of injury after exposure to NO2 will provide strategies for intervention that may benefit large populations, including patients with asthma.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Exploratory Grants (P20)
Project #
5P20RR015557-03
Application #
6652323
Study Section
Special Emphasis Panel (ZRR1)
Project Start
2002-09-01
Project End
2003-08-31
Budget Start
Budget End
Support Year
3
Fiscal Year
2002
Total Cost
Indirect Cost

  Institution

Name
University of Vermont & St Agric College
Department
Type
DUNS #
066811191
City
Burlington
State
VT
Country
United States
Zip Code
05405

  Publications

Szalayova, Gabriela; Ogrodnik, Aleksandra; Spencer, Brianna et al. (2016) Human breast cancer biopsies induce eosinophil recruitment and enhance adjacent cancer cell proliferation. Breast Cancer Res Treat 157:461-74
Cruz, Fernanda F; Borg, Zachary D; Goodwin, Meagan et al. (2016) CD11b+ and Sca-1+ Cells Exert the Main Beneficial Effects of Systemically Administered Bone Marrow-Derived Mononuclear Cells in a Murine Model of Mixed Th2/Th17 Allergic Airway Inflammation. Stem Cells Transl Med 5:488-99
Ather, Jennifer L; Burgess, Edward J; Hoyt, Laura R et al. (2016) Uricase Inhibits Nitrogen Dioxide-Promoted Allergic Sensitization to Inhaled Ovalbumin Independent of Uric Acid Catabolism. J Immunol 197:1720-32
Cruz, Fernanda F; Borg, Zachary D; Goodwin, Meagan et al. (2015) Systemic Administration of Human Bone Marrow-Derived Mesenchymal Stromal Cell Extracellular Vesicles Ameliorates Aspergillus Hyphal Extract-Induced Allergic Airway Inflammation in Immunocompetent Mice. Stem Cells Transl Med 4:1302-16
Menon, Prema R; Stapleton, Renee D; McVeigh, Ursula et al. (2015) Telemedicine as a tool to provide family conferences and palliative care consultations in critically ill patients at rural health care institutions: a pilot study. Am J Hosp Palliat Care 32:448-53
Kasahara, David I; Ninin, Fernanda M C; Wurmbrand, Alison P et al. (2015) Abrogation of airway hyperresponsiveness but not inflammation by rho kinase insufficiency. Clin Exp Allergy 45:457-70
Lathrop, M J; Sage, E K; Macura, S L et al. (2015) Antitumor effects of TRAIL-expressing mesenchymal stromal cells in a mouse xenograft model of human mesothelioma. Cancer Gene Ther 22:44-54
Dixon, Anne E; Gerald, Lynn B (2015) Promoting weight loss in asthma. Respirology 20:179-80
Cruz, Fernanda F; Borg, Zachary D; Goodwin, Meagan et al. (2015) Freshly thawed and continuously cultured human bone marrow-derived mesenchymal stromal cells comparably ameliorate allergic airways inflammation in immunocompetent mice. Stem Cells Transl Med 4:615-24
Lathrop, Melissa J; Brooks, Elice M; Bonenfant, Nick R et al. (2014) Mesenchymal stromal cells mediate Aspergillus hyphal extract-induced allergic airway inflammation by inhibition of the Th17 signaling pathway. Stem Cells Transl Med 3:194-205

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