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Dual Oxidase in Lung Epithelium

$391,325R01FY2009HLNIH

Children'S Hospital & Res Ctr At Oakland, Oakland CA

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Abstract

DESCRIPTION (provided by applicant): Oxidant production by the lung alveolar epithelium has been little investigated despite its potential roles in alveolar host defense and cell signaling. Our preliminary studies in a cultured human lung cell model show that hormone-induced type II cell differentiation is associated with increased expression of the NADPH oxidase isoform dual oxidase 1 (DUOX1) and its maturation factor DUOXA1. Similarly, DUOX protein expression was found to be upregulated in vivo during late gestation in human lung. We also found a strong correlation between expression of DUOX1 and the production of hydrogen peroxide and acid by alveolar cells. To date, DUOX1 is the only known mechanism to control the regulated release of oxidants by the alveolar epithelium. We hypothesize that DUOX1 and DUOXA1 are coordinately up-regulated during differentiation of alveolar type II cells, which increases oxidant and acid production by the alveolar epithelium and contributes to host defense and cellular signaling in the newborn lung. The proposed studies will define the regulated expression of DUOX1 and DUOXA1 in a unique primary cultured cell model of alveolar epithelial cells, and help clarify the function and role of DUOX1 in alveolar innate defense, redox regulation, and cellular signaling. Aim 1 seeks to determine the shared promoter and the regulated expression of DUOX1 and DUOXA1 during differentiation of human fetal lung type II cells. Aim 2 will determine the effects of expression of DUOX1 on the production of hydrogen peroxide and protons, on bacterial killing, and on alveolar epithelial function. Aim 3 will establish a controlled over-expression cell model to study the effects of Duox1 on cellular signaling, gene expression, and alveolar function. The proposed study will be a collaborative effort between two laboratories with experience in lung development/gene expression (Ballard/Gonzales) and the biophysical properties of lung epithelial cell membranes (Fischer/Illek);it will be the first study to provide information regarding regulation and function of DUOX1 in alveolar epithelial cells. This research has physiological significance related to the sterility of the alveolar air space and clinical relevance for understanding deficiencies in host defense and epithelial function in premature infants and patients with chronic lung diseases. Project Narrative Premature infants are at high risk for lung infections, an important area of public health. This research investigates a novel area of lung anti-microbial defense and will provide new information that may lead to therapeutic application.

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