Generation of Glycolaldehyde from Guinea Pig Airway Epithelial Monolayers Exposed to Nitrogen Dioxide and Its Effect on Sodium Pump Activity

Generation of Glycolaldehyde from Guinea Pig Airway Epithelial Monolayers Exposed to Nitrogen Dioxide and Its Effect on Sodium Pump Activity

Pulmonary injury from nitrogen dioxide ( NO2) may in part be related to the generation of aldehydic compounds, which bind with cellular proteins and subsequently impair or inhibit cell function. We examined the generation of aldehydes from guinea pig tracheobronchial epithelial (GPTE) cell monolayer...

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Bibliographic Details
Published in:Environmental health perspectives Vol. 104; no. 8; pp. 852 - 856
Main Authors: Robison, Timothy W., Zhou, Huanfang, Kim, Kwang-Jin
Format: Journal Article
Language:English
Published: National Institute of Environmental Health Sciences. National Institutes of Health. Department of Health, Education and Welfare 01-08-1996
Subjects:
Aldehydes
Chemical hazards
Dioxides
Epithelial cells
Free radicals
Lipids
Nitrogen
Pumps
Reactivity
Sodium
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Summary:Pulmonary injury from nitrogen dioxide ( NO2) may in part be related to the generation of aldehydic compounds, which bind with cellular proteins and subsequently impair or inhibit cell function. We examined the generation of aldehydes from guinea pig tracheobronchial epithelial (GPTE) cell monolayers exposed to NO2. with the use of dinitrophenylhydrazine (DNP) to derivatize aldehydic compounds, glycolaldehyde, a two carbon α-hydroxyaldehyde, was identified in elevated levels in the basolateral fluid from monolayers exposed to NO2. DNP-glycolaldehyde levels were 81.2 ± 2.7 and 234.0 ± 42.6 nM in response to a 1-hr exposure to 1 and 5 ppm NO2, respectively, as compared to an air-control value of 20.3 ± 6.8 nM. Taking into account dilution and reactivity, cellular glycolaldehyde levels could have reached as high as 3 mM for the 60-min exposure period (i.e., 0.05 mM/min). The effects of exogenous glycolaldehyde on GPTE ouabain-sensitive basolateral 86 Rb uptake (an index of Na+, K+- ATPase activity) were examined and compared with the actions of NO2 exposure. Bolus addition of glycolaldehyde to the basolateral fluid at concentrations ≥5 mM led to an inhibition of ouabain-sensitive 86 Rb uptake, while lower concentrations had no effect. The effects of exogenous glycolaldehyde differ from NO2 exposure, which led to a sustained elevation of ouabain-sensitive 86 Rb uptake with presumed generation of glycolaldehyde at a continuous low level. Glycolaldehyde does not appear to play a significant role in the acute alterations of sodium pump activity, suggesting that the NO2-induced changes in Na+, K+- ATPase activity of GPTE monolayers probably are further mediated by other lipid peroxidation products/oxidation processes yet to be identified.
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ISSN:0091-6765
1552-9924
DOI:10.2307/3432939