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1. Exhaled breath condensate profiles of U.S. Navy divers following prolonged hyperbaric oxygen (HBO) and nitrogen-oxygen (Nitrox) chamber exposures

Author

Fothergill, David M, Borras, Eva, McCartney, Mitchell M, Schelegle, Edward S, and Davis, Cristina E

Subjects
Engineering, Biomedical Engineering, Clinical Research, Lung, Humans, Breath Tests, Hyperbaric Oxygenation, Hyperoxia, Nitrogen, Oxygen, Cross-Over Studies, pulmonary hyperoxic stress, breath analysis, metabolomics, oxygen toxicity, Biomedical engineering
Abstract

Prolonged exposure to hyperbaric hyperoxia can lead to pulmonary oxygen toxicity (PO2tox). PO2tox is a mission limiting factor for special operations forces divers using closed-circuit rebreathing apparatus and a potential side effect for patients undergoing hyperbaric oxygen (HBO) treatment. In this study, we aim to determine if there is a specific breath profile of compounds in exhaled breath condensate (EBC) that is indicative of the early stages of pulmonary hyperoxic stress/PO2tox. Using a double-blind, randomized 'sham' controlled, cross-over design 14 U.S. Navy trained diver volunteers breathed two different gas mixtures at an ambient pressure of 2 ATA (33 fsw, 10 msw) for 6.5 h. One test gas consisted of 100% O2(HBO) and the other was a gas mixture containing 30.6% O2with the balance N2(Nitrox). The high O2stress dive (HBO) and low O2stress dive (Nitrox) were separated by at least seven days and were conducted dry and at rest inside a hyperbaric chamber. EBC samples were taken immediately before and after each dive and subsequently underwent a targeted and untargeted metabolomics analysis using liquid chromatography coupled to mass spectrometry (LC-MS). Following the HBO dive, 10 out of 14 subjects reported symptoms of the early stages of PO2tox and one subject terminated the dive early due to severe symptoms of PO2tox. No symptoms of PO2tox were reported following the nitrox dive. A partial least-squares discriminant analysis of the normalized (relative to pre-dive) untargeted data gave good classification abilities between the HBO and nitrox EBC with an AUC of 0.99 (±2%) and sensitivity and specificity of 0.93 (±10%) and 0.94 (±10%), respectively. The resulting classifications identified specific biomarkers that included human metabolites and lipids and their derivatives from different metabolic pathways that may explain metabolomic changes resulting from prolonged HBO exposure.

Published
2023

3. Comparison of nonparametric and parametric methods for time-frequency heart rate variability analysis in a rodent model of cardiovascular disease

Author

Wong, Emily M, Tablin, Fern, and Schelegle, Edward S

Subjects
Biomedical and Clinical Sciences, Medical Physiology, Engineering, Cardiovascular, Heart Disease, Algorithms, Analysis of Variance, Animals, Autonomic Nervous System, Cardiovascular Diseases, Disease Models, Animal, Electrocardiography, Fourier Analysis, Heart Rate, Male, Ozone, Rats, Rats, Inbred SHR, Regression Analysis, Statistics, Nonparametric, Telemetry, General Science & Technology
Abstract

The aim of time-varying heart rate variability spectral analysis is to detect and quantify changes in the heart rate variability spectrum components during nonstationary events. Of the methods available, the nonparametric short-time Fourier Transform and parametric time-varying autoregressive modeling are the most commonly employed. The current study (1) compares short-time Fourier Transform and autoregressive modeling methods influence on heart rate variability spectral characteristics over time and during an experimental ozone exposure in mature adult spontaneously hypertensive rats, (2) evaluates the agreement between short-time Fourier Transform and autoregressive modeling method results, and (3) describes the advantages and disadvantages of each method. Although similar trends were detected during ozone exposure, statistical comparisons identified significant differences between short-time Fourier Transform and autoregressive modeling analysis results. Significant differences were observed between methods for LF power (p ≤ 0.014); HF power (p ≤ 0.011); total power (p ≤ 0.027); and normalized HF power (p = 0.05). Furthermore, inconsistencies between exposure-related observations accentuated the lack of agreement between short-time Fourier Transform and autoregressive modeling overall. Thus, the short-time Fourier Transform and autoregressive modeling methods for time-varying heart rate variability analysis could not be considered interchangeable for evaluations with or without interventions that are known to affect cardio-autonomic activity.

Published
2020

4. The Organophosphorus Pesticide Chlorpyrifos Induces Sex-Specific Airway Hyperreactivity in Adult Rats

Author

Shaffo, Frances C, Grodzki, Ana Cristina, Schelegle, Edward S, and Lein, Pamela J

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Lung, Neurosciences, Asthma, Aetiology, 2.2 Factors relating to the physical environment, Respiratory, Acetylcholinesterase, Animals, Chlorpyrifos, Cholinesterase Inhibitors, Electric Stimulation, Female, Male, Pesticides, Rats, Sprague-Dawley, Respiratory Function Tests, Respiratory Hypersensitivity, Sex Factors, Vagus Nerve, airway hyperreactivity, asthma, chlorpyrifos, organophosphorus pesticides, rats, Toxicology, Pharmacology and pharmaceutical sciences
Abstract

Occupational and environmental exposures to organophosphorus pesticides (OPs) are associated with increased incidence of asthma and other pulmonary diseases. Although the canonical mechanism of OP neurotoxicity is inhibition of acetylcholinesterase (AChE), it was previously reported that the OP chlorpyrifos (CPF) causes airway hyperreactivity (AHR) in guinea pigs at levels that do not inhibit lung or brain AChE. The guinea pig is considered to have inherently hyperresponsive airways, thus, cross-species validation is needed to confirm relevance to humans. Additionally, sex differences in asthma incidence have been demonstrated in the human population, but whether OP-induced AHR is sex-dependent has not been systematically studied in a preclinical model. In this study, 8-week old male and female Sprague Dawley rats were administered CPF at doses causing comparable AChE inhibition in whole lung homogenate (30 mg/kg in males, 7 mg/kg in females, sc) prior to assessing pulmonary mechanics in response to electrical stimulation of the vagus nerves at 24 h, 48 h, 72 h, 7 d or 14 d post-exposure in males, and 24 h or 7 d post-exposure in females. CPF significantly potentiated vagally induced airway resistance and tissue elastance at 7 d post-exposure in males, and at 24 h and 7 d post-exposure in females. These effects occurred independent of significant AChE inhibition in cerebellum, blood, trachealis, or isolated airway, suggesting that AChE independent OP-induced airway hyperreactivity is a cross-species phenomenon. These findings have significant implications for assessing the risk posed by CPF, and potentially other OPs, to human health and safety.

Published
2018

5. Ultrafine Particulate Matter Combined With Ozone Exacerbates Lung Injury in Mature Adult Rats With Cardiovascular Disease

Author

Wong, Emily M, Walby, William F, Wilson, Dennis W, Tablin, Fern, and Schelegle, Edward S

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Climate-Related Exposures and Conditions, Lung, Aetiology, 2.1 Biological and endogenous factors, Respiratory, Good Health and Well Being, Air Pollutants, Animals, Cardiovascular Diseases, Inhalation Exposure, Lung Injury, Male, Ozone, Particle Size, Particulate Matter, Rats, Inbred SHR, Rats, Inbred WKY, polycyclic aromatic hydrocarbons, agents, histopathology, methods, inhalation toxicology, respiratory toxicology, lung, pulmonary or respiratory system, particulates, cardiovascular disease, Toxicology, Pharmacology and pharmaceutical sciences
Abstract

Particulate matter (PM) and ozone (O3) are dominant air pollutants that contribute to development and exacerbation of multiple cardiopulmonary diseases. Mature adults with cardiovascular disease (CVD) are particularly susceptible to air pollution-related cardiopulmonary morbidities and mortalities. The aim was to investigate the biologic potency of ultrafine particulate matter (UFPM) combined with O3 in the lungs of mature adult normotensive and spontaneously hypertensive (SH) Wistar-Kyoto rats. Conscious, mature adult male normal Wistar-Kyoto (NW) and SH rats were exposed to one of the following atmospheres: filtered air (FA); UFPM (∼ 250 μg/m3); O3 (1.0 ppm); or UFPM + O3 (∼ 250 μg/m3 + 1.0 ppm) combined for 6 h, followed by an 8 h FA recovery period. Lung sections were evaluated for lesions in the large airways, terminal bronchiolar/alveolar duct regions, alveolar parenchyma, and vasculature. NW and SH rats were similarly affected by the combined-pollutant exposure, displaying severe injury in both large and small airways. SH rats were particularly susceptible to O3 exposure, exhibiting increased injury scores in terminal bronchioles and epithelial degeneration in large airways. UFPM-exposure groups had minimal histologic changes. The chemical composition of UFPM was altered by the addition of O3, indicating that ozonolysis promoted compound degradation. O3 increased the biologic potency of UFPM, resulting in greater lung injury following exposure. Pathologic manifestations of CVD may confer susceptibility to air pollution by impairing normal lung defenses and responses to exposure.

Published
2018

6. Nonhuman Primate Models of Respiratory Disease: Past, Present, and Future

Author

Miller, Lisa A, Royer, Christopher M, Pinkerton, Kent E, and Schelegle, Edward S

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Lung, Immunization, Vaccine Related, Respiratory, Good Health and Well Being, Animals, Asthma, Communicable Diseases, Disease Models, Animal, Humans, Primates, Pulmonary Disease, Chronic Obstructive, Respiratory Tract Diseases, asthma, COPD, infectious disease, inhalation, lung, nonhuman primate, toxicology, Agricultural and Veterinary Sciences, Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences
Abstract

The respiratory system consists of an integrated network of organs and structures that primarily function for gas exchange. In mammals, oxygen and carbon dioxide are transmitted through a complex respiratory tract, consisting of the nasal passages, pharynx, larynx, and lung. Exposure to ambient air throughout the lifespan imposes vulnerability of the respiratory system to environmental challenges that can contribute toward development of disease. The importance of the respiratory system to human health is supported by statistics from the Centers for Disease Control and Prevention; in 2015, chronic lower respiratory diseases were the third leading cause of death in the United States. In light of the significant mortality associated with respiratory conditions that afflict all ages of the human population, this review will focus on basic and preclinical research conducted in nonhuman primate models of respiratory disease. In comparison with other laboratory animals, the nonhuman primate lung most closely resembles the human lung in structure, physiology, and mucosal immune mechanisms. Studies defining the influence of inhaled microbes, pollutants, or allergens on the nonhuman primate lung have provided insight on disease pathogenesis, with the potential for elucidation of molecular targets leading to new treatment modalities. Vaccine trials in nonhuman primates have been crucial for confirmation of safety and protective efficacy against infectious diseases of the lung in a laboratory animal model that recapitulates pathology observed in humans. In looking to the future, nonhuman primate models of respiratory diseases will continue to be instrumental for translating biomedical research for improvement of human health.

Published
2017

7. Early life allergen and air pollutant exposures alter longitudinal blood immune profiles in infant rhesus monkeys

Author

Crowley, Candace M, Fontaine, Justin H, Gerriets, Joan E, Schelegle, Edward S, Hyde, Dallas M, and Miller, Lisa A

Subjects
Biomedical and Clinical Sciences, Immunology, Lung, Pediatric, Social Determinants of Health, Aging, Health Effects of Indoor Air Pollution, Climate-Related Exposures and Conditions, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Aerosols, Air Pollutants, Allergens, Animals, Antigens, Dermatophagoides, Blood, Bronchoalveolar Lavage Fluid, Gene Expression Regulation, Inhalation Exposure, Interferon-gamma, Macaca mulatta, Male, Monocytes, Infant, Peripheral blood, cytokine, House dust mite, Ozone, Cytokine, Pharmacology and Pharmaceutical Sciences, Toxicology, Pharmacology and pharmaceutical sciences
Abstract

Early life is a critical period for the progressive establishment of immunity in response to environmental stimuli; the impact of airborne challenges on this process is not well defined. In a longitudinal fashion, we determined the effect of episodic house dust mite (HDM) aerosol and ozone inhalation, both separately and combined, on peripheral blood immune cell phenotypes and cytokine expression from 4 to 25weeks of age in an infant rhesus monkey model of childhood development. Immune profiles in peripheral blood were compared with lung lavage at 25weeks of age. Independent of exposure, peripheral blood cell counts fluctuated with chronologic age of animals, while IFNγ and IL-4 mRNA levels increased over time in a linear fashion. At 12weeks of age, total WBC, lymphocyte numbers, FoxP3 mRNA and IL-12 mRNA were dramatically reduced relative to earlier time points, but increased to a steady state with age. Exposure effects were observed for monocyte numbers, as well as CCR3, FoxP3, and IL-12 mRNA levels in peripheral blood. Significant differences in cell surface marker and cytokine expression were detected following in vitro HDM or PMA/ionomycin stimulation of PBMC isolated from animals exposed to either HDM or ozone. Lavage revealed a mixed immune phenotype of FoxP3, IFNγ and eosinophilia in association with combined HDM plus ozone exposure, which was not observed in blood. Collectively, our findings show that airborne challenges during postnatal development elicit measureable cell and cytokine changes in peripheral blood over time, but exposure-induced immune profiles are not mirrored in the lung.

Published
2017

8. Early Life Wildfire Smoke Exposure Is Associated with Immune Dysregulation and Lung Function Decrements in Adolescence.

Author

Black, Carolyn, Gerriets, Joan E, Fontaine, Justin H, Harper, Richart W, Kenyon, Nicholas J, Tablin, Fern, Schelegle, Edward S, and Miller, Lisa A

Subjects
Lung, Leukocytes, Mononuclear, Animals, Macaca mulatta, Body Weight, NF-kappa B, Ligands, Respiratory Function Tests, Linear Models, Fires, Air Pollution, Smoke, Environmental Exposure, Aging, Particle Size, California, Female, Male, Toll-Like Receptors, Particulate Matter, LPS, flagellin, infant, lung, particulate matter, wildfire, Pediatric, Genetics, Cardiorespiratory Medicine and Haematology, Respiratory System
Abstract

The long-term health effects of wildfire smoke exposure in pediatric populations are not known. The objectives of this study were to determine if early life exposure to wildfire smoke can affect parameters of immunity and airway physiology that are detectable with maturity. We studied a mixed-sex cohort of rhesus macaque monkeys that were exposed as infants to ambient wood smoke from a series of Northern California wildfires in the summer of 2008. Peripheral blood mononuclear cells (PBMCs) and pulmonary function measures were obtained when animals were approximately 3 years of age. PBMCs were cultured with either LPS or flagellin, followed by measurement of secreted IL-8 and IL-6 protein. PBMCs from a subset of female animals were also evaluated by Toll-like receptor (TLR) pathway mRNA analysis. Induction of IL-8 protein synthesis with either LPS or flagellin was significantly reduced in PBMC cultures from wildfire smoke-exposed female monkeys. In contrast, LPS- or flagellin-induced IL-6 protein synthesis was significantly reduced in PBMC cultures from wildfire smoke-exposed male monkeys. Baseline and TLR ligand-induced expression of the transcription factor, RelB, was globally modulated in PBMCs from wildfire smoke-exposed monkeys, with additional TLR pathway genes affected in a ligand-dependent manner. Wildfire smoke-exposed monkeys displayed significantly reduced inspiratory capacity, residual volume, vital capacity, functional residual capacity, and total lung capacity per unit of body weight relative to control animals. Our findings suggest that ambient wildfire smoke exposure during infancy results in sex-dependent attenuation of systemic TLR responses and reduced lung volume in adolescence.

Published
2017

9. SMAD Signaling in the Airways of Healthy Rhesus Macaques versus Rhesus Macaques with Asthma Highlights a Relationship Between Inflammation and Bone Morphogenetic Proteins

Author

Lynn, Therese M, Molloy, Emer L, Masterson, Joanne C, Glynn, Senan F, Costello, Richard W, Avdalovic, Mark V, Schelegle, Edward S, Miller, Lisa A, Hyde, Dallas M, and O’Dea, Shirley

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Lung, Asthma, Aetiology, 2.1 Biological and endogenous factors, Respiratory, Animals, Bone Morphogenetic Proteins, Bronchi, Female, Inflammation, Macaca mulatta, Mice, Mice, Inbred C3H, Signal Transduction, Smad Proteins, Trachea, BMP, asthma, airways, homeostasis, repair, Cardiorespiratory Medicine and Haematology, Respiratory System, Biochemistry and cell biology, Cardiovascular medicine and haematology
Abstract

Bone morphogenetic protein (BMP) signaling is important for correct lung morphogenesis, and there is evidence of BMP signaling reactivation in lung diseases. However, little is known about BMP signaling patterns in healthy airway homeostasis and inflammatory airway disease and during epithelial repair. In this study, a rhesus macaque (Macaca mulatta) model of allergic airway disease was used to investigate BMP signaling throughout the airways in health, disease, and regeneration. Stereologic quantification of immunofluorescent images was used to determine the expression of BMP receptor (BMPR) Ia and phosphorylated SMAD (pSMAD) 1/5/8 in the airway epithelium. A pSMAD 1/5/8 expression gradient was found along the airways of healthy juvenile rhesus macaques (n = 3, P

Published
2016

10. Persistence of serotonergic enhancement of airway response in a model of childhood asthma.

Author

Moore, Brian D, Hyde, Dallas M, Miller, Lisa A, Wong, Emily M, and Schelegle, Edward S

Subjects
Respiratory System, Animals, Macaca mulatta, Humans, Asthma, Respiratory Hypersensitivity, Disease Models, Animal, Disease Progression, Serotonin, Allergens, Antigens, Dermatophagoides, Muscle Contraction, Child, Serotonin Receptor Agonists, antigens, hyperresponsiveness, ozone, serotonin, Neurosciences, Pediatric, Lung, Climate-Related Exposures and Conditions, 2.1 Biological and endogenous factors, Aetiology, Respiratory, Cardiorespiratory Medicine and Haematology
Abstract

The persistence of airway hyperresponsiveness (AHR) and serotonergic enhancement of airway smooth muscle (ASM) contraction induced by ozone (O3) plus allergen has not been evaluated. If this mechanism persists after a prolonged recovery, it would indicate that early-life exposure to O3 plus allergen induces functional changes predisposing allergic individuals to asthma-related symptoms throughout life, even in the absence of environmental insult. A persistent serotonergic mechanism in asthma exacerbations may offer a novel therapeutic target, widening treatment options for patients with asthma. The objective of this study was to determine if previously documented AHR and serotonin-enhanced ASM contraction in allergic monkeys exposed to O3 plus house dust mite allergen (HDMA) persist after prolonged recovery. Infant rhesus monkeys sensitized to HDMA were exposed to filtered air (FA) (n = 6) or HDMA plus O3 (n = 6) for 5 months. Monkeys were then housed in a FA environment for 30 months. At 3 years, airway responsiveness was assessed. Airway rings were then harvested, and ASM contraction was evaluated using electrical field stimulation with and without exogenous serotonin and serotonin-subtype receptor antagonists. Animals exposed to O3 plus HDMA exhibited persistent AHR. Serotonin exacerbated the ASM contraction in the exposure group but not in the FA group. Serotonin subtype receptors 2, 3, and 4 appear to drive the response. Our study shows that AHR and serotonin-dependent exacerbation of cholinergic-mediated ASM contraction induced by early-life exposure to O3 plus allergen persist for at least 2.5 years and may contribute to a persistent asthma phenotype.

Published
2014

11. Analysis of Volatile Compounds in Exhaled Breath Condensate in Patients with Severe Pulmonary Arterial Hypertension

Author

Mansoor, JK, Schelegle, Edward S, Davis, Cristina E, Walby, William F, Zhao, Weixiang, Aksenov, Alexander A, Pasamontes, Alberto, Figueroa, Jennifer, and Allen, Roblee

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Clinical Research, Lung, Rare Diseases, 4.1 Discovery and preclinical testing of markers and technologies, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, Cardiovascular, Breath Tests, Gas Chromatography-Mass Spectrometry, Humans, Hypertension, Pulmonary, Least-Squares Analysis, Volatile Organic Compounds, General Science & Technology
Abstract

BackgroundAn important challenge to pulmonary arterial hypertension (PAH) diagnosis and treatment is early detection of occult pulmonary vascular pathology. Symptoms are frequently confused with other disease entities that lead to inappropriate interventions and allow for progression to advanced states of disease. There is a significant need to develop new markers for early disease detection and management of PAH.Methodolgy and findingsExhaled breath condensate (EBC) samples were compared from 30 age-matched normal healthy individuals and 27 New York Heart Association functional class III and IV idiopathic pulmonary arterial hypertenion (IPAH) patients, a subgroup of PAH. Volatile organic compounds (VOC) in EBC samples were analyzed using gas chromatography/mass spectrometry (GC/MS). Individual peaks in GC profiles were identified in both groups and correlated with pulmonary hemodynamic and clinical endpoints in the IPAH group. Additionally, GC/MS data were analyzed using autoregression followed by partial least squares regression (AR/PLSR) analysis to discriminate between the IPAH and control groups. After correcting for medicaitons, there were 62 unique compounds in the control group, 32 unique compounds in the IPAH group, and 14 in-common compounds between groups. Peak-by-peak analysis of GC profiles of IPAH group EBC samples identified 6 compounds significantly correlated with pulmonary hemodynamic variables important in IPAH diagnosis. AR/PLSR analysis of GC/MS data resulted in a distinct and identifiable metabolic signature for IPAH patients.ConclusionsThese findings indicate the utility of EBC VOC analysis to discriminate between severe IPAH and a healthy population; additionally, we identified potential novel biomarkers that correlated with IPAH pulmonary hemodynamic variables that may be important in screening for less severe forms IPAH.

Published
2014

12. Behavioral Inhibition in Rhesus Monkeys (Macaca mulatta) Is Related to the Airways Response, but Not Immune Measures, Commonly Associated with Asthma

Author

Chun, Katie, Miller, Lisa A, Schelegle, Edward S, Hyde, Dallas M, and Capitanio, John P

Subjects
Biomedical and Clinical Sciences, Immunology, Lung, Clinical Research, Asthma, Aetiology, 2.1 Biological and endogenous factors, Respiratory, Animals, Antigens, CD, Behavior, Animal, Bronchial Hyperreactivity, Bronchial Provocation Tests, Bronchoalveolar Lavage Fluid, Female, Hydrocortisone, Inhibition, Psychological, Interferon-gamma, Interleukin-10, Interleukin-12, Interleukin-4, Macaca mulatta, Male, Methacholine Chloride, Prospective Studies, T-Lymphocytes, Regulatory, General Science & Technology
Abstract

Behavioral inhibition reflects a disposition to react warily to novel situations, and has been associated with atopic diseases such as asthma. Retrospective work established the relationship between behavioral inhibition in rhesus monkeys (Macaca mulatta) and airway hyperresponsiveness, but not atopy, and the suggestion was made that behavioral inhibition might index components of asthma that are not immune-related. In the present study, we prospectively examined the relationship between behavioral inhibition and airway hyperresponsiveness, and whether hormonal and immune measures often associated with asthma were associated with behavioral inhibition and/or airway hyperresponsiveness. In a sample of 49 yearling rhesus monkeys (mean=1.25 years, n=24 behaviorally inhibited animals), we measured in vitro cytokine levels (IL-4, IL-10, IL-12, IFN-γ) in response to stimulation, as well as peripheral blood cell percentages, cortisol levels, and percentage of regulatory T-cells (CD3+CD4+CD25+FOXP3+). Airway reactivity was assessed using an inhaled methacholine challenge. Bronchoalveolar lavage was performed and the proportion of immune cells was determined. Behaviorally inhibited monkeys had airway hyperresponsiveness as indicated by the methacholine challenge (p=0.031), confirming our earlier retrospective result. Airway hyperresponsiveness was also associated with lower lymphocyte percentages in lavage fluid and marginally lower plasma cortisol concentrations. However, none of the tested measures was significantly related to both behavioral inhibition and airway hyperresponsiveness, and so could not mediate their relationship. Airway hyperresponsiveness is common to atopic and non-atopic asthma and behavioral inhibition has been related to altered autonomic activity in other studies. Our results suggest that behavioral inhibition might index an autonomically mediated reactive airway phenotype, and that a variety of stimuli (including inflammation within lung tissue that is not specifically associated with behavioral inhibition) may trigger the airways response.

Published
2013

13. Second-hand smoke increases bronchial hyperreactivity and eosinophilia in a murine model of allergic aspergillosis.

Author

Seymour, Brian WP, Schelegle, Edward S, Pinkerton, Kent E, Friebertshauser, Kathleen E, Peake, Janice L, Kurup, Viswanath P, Coffman, Robert L, and Gershwin, Laurel J

Subjects
Lung, Eosinophils, Th2 Cells, Animals, Mice, Inbred BALB C, Humans, Mice, Aspergillus fumigatus, Aspergillosis, Allergic Bronchopulmonary, Asthma, Bronchial Hyperreactivity, Eosinophilia, Immunoglobulin E, Antibodies, Antibodies, Fungal, Cytokines, Leukocyte Count, Tobacco Smoke Pollution, CD3 Complex, Tobacco, Infectious Diseases, Tobacco Smoke and Health, Aetiology, 2.1 Biological and endogenous factors, Respiratory, Immunology
Abstract

Involuntary inhalation of tobacco smoke has been shown to aggravate the allergic response. Antibodies to fungal antigens such as Aspergillus fumigatus (Af) cause an allergic lung disease in humans. This study was carried out to determine the effect of environmental tobacco smoke (ETS) on a murine model of allergic bronchopulmonary aspergillosis (ABPA). BALB/c mice were exposed to aged and diluted sidestream cigarette smoke to simulate 'second-hand smoke'. The concentration was consistent with that achieved in enclosed public areas or households where multiple people smoke. During exposure, mice were sensitized to Af antigen intranasally. Mice that were sensitized to Af antigen and exposed to ETS developed significantly greater airway hyperreactivity than did mice similarly sensitized to Af but housed in ambient air. The effective concentration of aerosolized acetylcholine needed to double pulmonary flow resistance was significantly lower in Af + ETS mice compared to the Af + AIR mice. Immunological data that supports this exacerbation of airway hyperresponsiveness being mediated by an enhanced type 1 hypersensitivity response include: eosinophilia in peripheral blood and lung sections. All Af sensitized mice produced elevated levels of IL4, IL5 and IL10 but no IFN-gamma indicating a polarized Th2 response. Thus, ETS can cause exacerbation of asthma in ABPA as demonstrated by functional airway hyperresponsiveness and elevated levels of blood eosinophilia.

Published
2003

14. Lung Gene Expression in a Rhesus Allergic Asthma Model Correlates with Physiologic Parameters of Disease and Exhibits Common and Distinct Pathways with Human Asthma and a Mouse Asthma Model

Author

Abbas, Alexander R., Jackman, Janet K., Bullens, Sherron L., Davis, Sarah M., Choy, David F., Fedorowicz, Grazyna, Tan, Martha, Truong, Bao-Tran, Gloria Meng, Y., Diehl, Lauri, Miller, Lisa A., Schelegle, Edward S., Hyde, Dallas M., Clark, Hilary F., Modrusan, Zora, Arron, Joseph R., and Wu, Lawren C.

Published
2011
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16. In vivo blockade of OX40 ligand inhibits thymic stromal lymphopoietin driven atopic inflammation

Author

Seshasayee, Dhaya, Lee, Wyne P., Zhou, Meijuan, Shu, Jean, Suto, Eric, Zhang, Juan, Diehl, Laurie, Austin, Cary D., Meng, Y. Gloria, Tan, Martha, Bullens, Sherron L., Seeber, Stefan, Fuentes, Maria E., Labrijn, Aran F., Graus, Yvo M.F., Miller, Lisa A., Schelegle, Edward S., Hyde, Dallas M., Wu, Lawren C., Hymowitz, Sarah G., and Martin, Flavius

Subjects
Asthma -- Risk factors, Asthma -- Research, Cytokines -- Health aspects, Cytokines -- Research, Tumor necrosis factor -- Health aspects, Tumor necrosis factor -- Research
Abstract

Thymic stromal lymphopoietin (TSLP) potently induces deregulation of Th2 responses, a hallmark feature of allergic inflammatory diseases such as asthma, atopic dermatitis, and allergic rhinitis. However, direct downstream in vivo mediators in the TSLP-induced atopic immune cascade have not been identified. In our current study, we have shown that OX40 ligand (OX40L) is a critical in vivo mediator of TSLP-mediated Th2 responses. Treating mice with OX40L-blocking antibodies substantially inhibited immune responses induced by TSLP in the lung and skin, including Th2 inflammatory cell infiltration, cytokine secretion, and IgE production. OX40L-blocking antibodies also inhibited antigen-driven Th2 inflammation in mouse and nonhuman primate models of asthma. This treatment resulted in both blockade of the OX40-OX40L receptor-ligand interaction and depletion of OX40L-positive cells. The use of a blocking, OX40L-specific mAb thus presents a promising strategy for the treatment of allergic diseases associated with pathologic Th2 immune responses., Introduction Studies of allergic inflammatory disease pathogenesis such as asthma have shown chronic inflammation resulting from a hyperresponse to innocuous environmental antigens. The pathophysiology of asthma includes mucus hypersecretion, bronchial [...]

Published
2007

19. Cyclic exposure to ozone alters distal airway development in infant rhesus monkeys

Author

Fanucchi, Michelle V., Plopper, Charles G., Evans, Michael J., Hyde, Dallas M., Van Winkle, Laura S., Gershwin, Laurel J., and Schelegle, Edward S.

Subjects
Respiratory tract diseases -- Risk factors, Biological sciences
Abstract

Inner city children exposed to high levels of ozone suffer from an increased prevalence of respiratory diseases. Lung development in children is a long-term process, and there is a significant period of time during development when children growing up in urban areas are exposed to oxidant air pollution. This study was designed to test whether repeating cycles of injury and repair caused by episodes of ozone exposure lead to chronic airway disease and decreased lung function by altering normal lung maturation. We evaluated postnatal lung morphogenesis and function of infant monkeys after 5 mo of episodic exposure of 0.5 parts per million ozone beginning at 1 mo of age. Nonhuman primates were chosen because their airway structure and postnatal lung development is similar to those of humans. Airway morphology and structure were evaluated at the end of the 5-too exposure period. Compared with control infants, ozone-exposed animals had four fewer nonalveolarized airway generations, hyperplastic bronchiolar epithelium, and altered smooth muscle bundle orientation in terminal and respiratory bronchioles. These results suggest that episodic exposure to environmental ozone compromises postnatal morphogenesis of tracheobronchial airways. oxidant air pollution; adverse effects; growth and development; lung

Published
2006

20. Proximal airway mucous cells of ovalbumin-sensitized and -challenged Brown Norway rats accumulate the neuropeptide calcitonin gene-related peptide

Author

Larson, Shawnessy D., Plopper, Charles G., Baker, Greg, Tarkington, Brian K., Decile, Kendra C., Pinkerton, Kent, Mansoor, James K., Hyde, Dallas M., and Schelegle, Edward S.

Subjects
Proteins -- Research, Asthma -- Research, Biological sciences
Abstract

Mucous cell hypersecretion and increased neuropeptide production play a role in the exacerbation of symptoms associated with asthma. The source J of these neuropeptides have been confined to the contributions of small afferent nerves or possibly neuroendocrine cells. We tested the hypothesis that repeated exposure to allergen would alter the sources and abundance of neuropeptides in airways. Right middle lobes from rats (8 wk old) exposed to 2.5% ovalbumin (OVA) for five episodes (30 min each) or filtered air were inflation fixed with paraformaldehyde. The lobes were dissected to expose the airway tree, permeabilized with DMSO, and incubated in antibody to rat calcitonin generelated peptide (CGRP), followed with a fluorochrome-labeled second antibody. CGRP-positive structures were imaged via confocal microscopy. Airways were later embedded in plastic and sectioned for cell identification. In animals challenged with OVA, CGRP-positive cells, not neuroendocrine or neuronal in origin (confirmed by a lack of protein gene product 9.5 signal), were recorded along the axial path. In section, this fluorescent signal was localized to granules within epithelial cells. Alcian blue/periodic acid-Schiff staining of these same sections positively identify these cells as mucous cells. Mucous cells of animals not challenged with OVA were not positive for CGRP. We conclude that episodic allergen exposure results in the accumulation of CGRP within mucous cells, creating a new source for the release of this neuropeptide within the airway. asthma; protein gene product

Published
2004

22. Atypical development of the tracheal basement membrane zone of infant rhesus monkeys exposed to ozone and allergen

Author

Evans, Michael J., Fanucchi, Michelle V., Baker, Gregory L., Van Winkle, Laura S., Pantle, Lorraine M., Nishio, Susan J., Schelegle, Edward S., Gershwin, Laurel J., Miller, Lisa A., Hyde, Dallas M., Sannes, Philip L., and Plopper, Charles G.

Subjects
Fibroblasts -- Research, Airways -- Research, Biological sciences
Abstract

Development of the basement membrane zone (BMZ) occurs postnatally in the rhesus monkey. The purpose of this study was to determine whether house dust mite allergen (HDMA) plus ozone altered this process. Rhesus monkeys were exposed to a regimen of HDMA and/or ozone or filtered air for 6 mo. To detect structural changes in the BMZ, we measured immunoreactivity of collagen I. To detect functional changes in the BMZ, we measured perlecan and fibroblast growth factor-2 (FGF-2). We also measured components of the FGF-2 ternary signaling complex [fibroblast growth factor receptor-1 (FGFR-1) and syndecan-4]. The width of the BMZ was irregular in the ozone groups, suggesting atypical development of the BMZ. Perlecan was also absent from the BMZ. In the absence of perlecan, FGF-2 was not bound to the BMZ. However, FGF-2 immunoreactivity was present in basal cells, the lateral intercellular space (LIS), and attenuated fibroblasts. FGFR-1 immunoreactivity was downregulated, and syndecan-4 immunoreactivity was upregulated in the basal cells. This suggests that FGF-2 in basal cells and LIS may be bound to the syndecan-4. We conclude that ozone and HDMA plus ozone effected incorporation of perlecan into the BMZ, resulting in atypical development of the BMZ. These changes are associated with specific alterations in the regulation of FGF-2, FGFR-1, and syndecan-4 in the airway epithelial-mesenchyreal trophic unit, which may be associated with the developmental problems of lungs associated with exposure to ozone. perlecan; fibroblast growth factor-2; fibroblast growth factor receptor-1; syndecan-4; epithelial-mesenchymal trophic unit

Published
2003

39. Repeated episodes of ozone inhalation amplifies the effects of allergen sensitization and inhalation on airway immune and structural development in Rhesus monkeys

Author

Schelegle, Edward S, Miller, Lisa A, Gershwin, Laurel J, Fanucchi, Michelle V, Van Winkle, Laura S, Gerriets, Joan E, Walby, William F, Mitchell, Valerie, Tarkington, Brian K, Wong, Viviana J, Baker, Gregory L, Pantle, Lorraine M, Joad, Jesse P, Pinkerton, Kent E, Wu, Reen, Evans, Michael J, Hyde, Dallas M, and Plopper, Charles G

Published
2003
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