Charles G. Plopper scite author profile

To establish whether allergic asthma could be induced experimentally in a nonhuman primate using a common human allergen, three female rhesus monkeys (Macaca mulatta) were sensitized with house dust mite (Dermatophagoides farinae) allergen (HDMA) by subcutaneous injection, followed by four intranasal sensitizations, and exposure to allergen aerosol 3 hours per day, 3 days per week for up to 13 weeks. Before aerosol challenge, all three monkeys skin-tested positive for HDMA. During aerosol challenge with HDMA, sensitized monkeys exhibited cough and rapid shallow breathing and increased airway resistance, which was reversed by albuterol aerosol treatment. Compared to nonsensitized monkeys, there was a fourfold reduction in the dose of histamine aerosol necessary to produce a 150% increase in airway resistance in sensitized monkeys. After aerosol challenge, serum levels of histamine were elevated in sensitized monkeys. Sensitized monkeys exhibited increased levels of HDMA-specific IgE in serum, numbers of eosinophils and exfoliated cells within lavage, and elevated CD25 expression on circulating CD4(+) lymphocytes. Intrapulmonary bronchi of sensitized monkeys had focal mucus cell hyperplasia, interstitial infiltrates of eosinophils, and thickening of the basement membrane zone. We conclude that a model of allergic asthma can be induced in rhesus monkeys using a protocol consisting of subcutaneous injection, intranasal instillation, and aerosol challenge with HDMA.

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Cellular response in naphthalene-induced Clara cell injury and bronchiolar epithelial repair in mice

Winkle

Buckpitt

Nishio

et al. 1995

American Journal of Physiology-Lung Cellular and Molecular Phys

120

137

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Clara cells, progenitors for bronchiolar epithelium, are also primary targets for metabolically activated pulmonary cytotoxicants and have an abundance of the cytochrome P-450 monooxygenases required for xenobiotic metabolism. To define the repair pattern after massive Clara cell injury, mice were treated with naphthalene, and lungs evaluated 1-14 days postinjury (DPI). Clara cells of terminal bronchioles were vacuolated and swollen 1 DPI, exfoliated 2 DPI, and resembled controls at 14 DPI. The volume fraction of vacuolated cells was highest 1 and 2 DPI and minimal at 5-7 DPI. The volume fraction of normal nonciliated cells decreased 40% at 1 DPI. Cell proliferation increased within epithelium and interstitium at 1 DPI, was maximal at 2 DPI, and at all other time points was similar to baseline levels. Expression of Clara cell differentiation markers was barely detectable in terminal bronchiolar epithelium at 1 and 2 DPI, clearly detectable at 4 DPI, and gradually returned to control levels at 5-14 DPI. We conclude that bronchiolar epithelial repair after naphthalene injury involves distinct phases of proliferation and differentiation, proliferation of cells that are not differentiated Clara cells, and interaction of multiple cell types including nontarget cells.

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Cellular and Molecular Characteristics of Basal Cells in Airway Epithelium

Evans¹,

Winkle²,

Fanucchi³

et al. 2001

151

133

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Basal cells exist as a separate layer of cells covering most of the airway basal lamina. In this central position, they can interact with columnar epithelium, neurons, basement membrane, and the underlying mesenchymal cells. In addition, they interact with inflammatory cells, lymphocytes and dendritic cells. These interactions take place in the lateral intercellular space between basal cells. In this central position basal cells become a very important part of the epithelial-mesenchymal trophic unit of larger airways. In this review it is shown that basal cells may function as progenitor cells of airway epithelium and have a role in attachment of columnar epithelium with the basement membrane. They also have the potential to function in regulation of neurogenic inflammation, the inflammatory response, transepithelial water movement, oxidant defense of the tissue and formation of the lateral intercellular space. Other characteristics of basal cells were not clearly associated with a particular function. The functions for basal cells listed attempt to explain the presence of recently identified molecules in basal cells of airway epithelium. It should be pointed out that specific studies have not been carried out which test the relationship between the molecular functions we describe in this review and the basal cell in airway epithelium.

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The Attenuated Fibroblast Sheath of the Respiratory Tract Epithelial–Mesenchymal Trophic Unit

Evans

Winkle

Fanucchi

et al. 1999

Am J Respir Cell Mol Biol

162

127

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Murine models of asthma

Kips¹,

Anderson²,

Fredberg³

et al. 2003

Eur Respir J

183

123

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In vivo animal models can offer valuable information on several aspects of asthma pathogenesis and treatment. The mouse is increasingly used in these models, mainly because this species allows for the application in vivo of a broad range of immunological tools, including gene deletion technology. Mice, therefore, seem particularly useful to further elucidate factors influencing the response to inhaled allergens. Examples include: the role of immunoregulatory mechanisms that protect against T-helper cell type 2 cell development; the trafficking of T-cells; and the contribution of the innate immunity. However, as for other animal species, murine models also have limitations. Mice do not spontaneously develop asthma and no model mimics the entire asthma phenotype. Instead, mice should be used to model specific traits of the human disease. The present task force report draws attention to specific aspects of lung structure and function that need to be borne in mind when developing such models and interpreting the results. In particular, efforts should be made to develop models that mimic the lung function changes characteristic of asthma as closely as possible. A large section of this report is therefore devoted to an overview of airway function and its measurement in mice.

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