Inhaled nitric oxide protects against hyperoxia-induced apoptosis in rat lungs

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Inhaled nitric oxide protects against hyperoxia-induced apoptosis in rat lungs

Clare E. Howlett¹, James S. Hutchison², John P. Veinot³, Aaron Chiu⁴, Pradeep Merchant², and Henry Fliss¹

¹ Department of Cellular and Molecular Medicine, Faculty of Medicine, University of Ottawa, Ottawa K1H 8M5; ² Division of Pediatric Intensive Care and ⁴ Division of Neonatology, Department of Pediatrics, University of Ottawa, Ottawa K1H 8L1; and ³ Department of Laboratory Medicine, Ottawa Hospital, Ottawa, Ontario, Canada K1Y 4E9

Inhaled nitric oxide (NO), frequently administered in combination with hyperoxic gas mixtures, was recently shown to protectagainst the injurious consequences of prolonged hyperoxia. Weinvestigated the possibility that this protective effect is attributableto the ability of NO to block pulmonary apoptosis. We show thatrats exposed to 100% O₂ for 60 h develop severe lung injury consistingof pronounced vascular leak and alveolar apoptosis as inferredfrom the presence of positive terminal deoxynucleotidyltransferase-mediateddUTP nick end labeling and DNA ladders in agarose gels and a decreasein constitutive procaspase-3 levels. However, the inclusion ofNO (20 parts/million) in the hyperoxic gas mixture significantlyattenuated both the vascular leak and apoptosis. NO reversed thehyperoxia-associated changes in the activity of the redox-sensitivetranscription factors nuclear factor- $kappa$ B, activator protein-1,and Sp1 after 24 h, lowered intercellular adhesion molecule-1levels, and increased glutathione content. We therefore show,for the first time, that NO can protect against both hyperoxia-inducedapoptosis and inflammation. The data suggest that this protectionmay occur at the transcriptional and caspase-activationlevels.

DNA fragmentation; nuclear factor- $kappa$ B; activator protein-1; Sp1; intercellular adhesion molecule-1; caspase-3

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