Literature DB >> 16439801

Airborne particulate matter inhibits alveolar fluid reabsorption in mice via oxidant generation.

Gökhan M Mutlu1, Colleen Snyder, Amy Bellmeyer, Helena Wang, Keenan Hawkins, Saul Soberanes, Lynn C Welch, Andrew J Ghio, Navdeep S Chandel, David Kamp, Jacob I Sznajder, G R Scott Budinger.   

Abstract

Ambient particulate matter is increasingly recognized as a significant contributor to human cardiopulmonary morbidity and mortality in the United States and worldwide. We sought to determine whether exposure to ambient particulate matter would alter alveolar fluid clearance in mice. Mice were exposed to a range of doses of a well-characterized particulate matter collected from the ambient air in Düsseldorf, Germany through a single intratracheal instillation, and alveolar fluid clearance and measurements of lung injury were made. Exposure to even very low doses of particulate matter (10 microg) resulted in a significant reduction in alveolar fluid clearance that was maximal 24 h after the exposure, with complete resolution after 7 d. This was paralleled by a decrease in lung Na,K-ATPase activity. To investigate the mechanism of this effect, we measured plasma membrane Na,K-ATPase abundance in A549 cells and Na,K-ATPase activity in primary rat alveolar type II cells after exposure to particulate matter in the presence or absence of the combined superoxide dismutase and catalase mimetic EUK-134 (5 microM). Membrane but not total protein abundance of the Na,K-ATPase was decreased after exposure to particulate matter, as was Na,K-ATPase activity. This decrease was prevented by the combined superoxide dismutase/catalase mimetic EUK-134. The intratracheal instillation of particulate matter results in alveolar epithelial injury and decreased alveolar fluid clearance, conceivably due to downregulation of the Na,K-ATPase.

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Year:  2006        PMID: 16439801      PMCID: PMC2644228          DOI: 10.1165/rcmb.2005-0329OC

Source DB:  PubMed          Journal:  Am J Respir Cell Mol Biol        ISSN: 1044-1549            Impact factor:   6.914


  34 in total

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3.  Extension of life-span with superoxide dismutase/catalase mimetics.

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  19 in total

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2.  Na,K-ATPase is a target of cigarette smoke and reduced expression predicts poor patient outcome of smokers with lung cancer.

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5.  Biocompatible nanoscale dispersion of single-walled carbon nanotubes minimizes in vivo pulmonary toxicity.

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9.  Mitochondrial complex III-generated oxidants activate ASK1 and JNK to induce alveolar epithelial cell death following exposure to particulate matter air pollution.

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10.  Effect of ventilation pressure on alveolar fluid clearance and beta-agonist responses in mice.

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