Hypoxanthine and Oxygen Induced Lung Injury: A Possible Basic Mechanism of Tissue Damage?

Abstract

Summary: Lung injury was induced in young rats by a continuous infusion of hypoxanthine intravenously and breathing 100% oxygen for 48 h (group 1). Control animals were rats infused glucose and breathing 100% oxygen (group 2), rats infused hypoxanthine in room air (group 3), and untreated rats (group 4). In group 1 rats interstitial and alveolar edema was found with a tendency toward marked margination of polymorphonuclear neutrophils in small vessels (P < 0.025 compared with group 2). The main elastase inhibitor alpha,-antitrypsin (α-l-PI) was significantly elevated in group 1; 2-, 3− and 5-fold, respectively, when compared with groups 2, 3, and 4. The surfactant phopholipids from alveolar lavage were normal in all groups. The protein-rich fraction of the lavage fluid from group 1 rats inactivated, however, the surface properties of lung surfactant. Minimum surface tension in group 1 rats was 14.5 dyn/cm compared with 7.0 dyn/cm in group 2, 2.9 dyn/cm in group 3 and 3.5 dyn/cm in group 4 (P < 0.05, group 1 and 2 versus 4). We conclude that the combination of hypoxanthine and high levels of oxygen causes lung injury, possibly via free oxygen radicals. We discuss the possibility that these findings demonstrate a basic pathogenetic mechanism for the hypoxic-hyperoxic insult and can contribute to the understanding of pathogenesis of a variety of diseases both in pediatrics and adult medicine.