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Am. J. Physiol. Lung Cell Mol. Physiol. · Feb 2011
Beneficial pulmonary effects of a metalloporphyrinic peroxynitrite decomposition catalyst in burn and smoke inhalation injury.
- Matthias Lange, Csaba Szabo, Perenlei Enkhbaatar, Rhykka Connelly, Eszter Horvath, Atsumori Hamahata, Robert A Cox, Aimalohi Esechie, Yoshimitsu Nakano, Lillian D Traber, David N Herndon, and Daniel L Traber.
- Department of Anesthesiology, Investigational Intensive Care Unit, The Univ. of Texas Medical Branch, Shriners Hospitals for Children, Galveston, 77550, USA. lanm@gmx.de
- Am. J. Physiol. Lung Cell Mol. Physiol. 2011 Feb 1;300(2):L167-75.
AbstractDuring acute lung injury, nitric oxide (NO) exerts cytotoxic effects by reacting with superoxide radicals, yielding the reactive nitrogen species peroxynitrite (ONOO(-)). ONOO(-) exerts cytotoxic effects, among others, by nitrating/nitrosating proteins and lipids, by activating the nuclear repair enzyme poly(ADP-ribose) polymerase and inducing VEGF. Here we tested the effect of the ONOO(-) decomposition catalyst INO-4885 on the development of lung injury in chronically instrumented sheep with combined burn and smoke inhalation injury. The animals were randomized to a sham-injured group (n = 7), an injured control group [48 breaths of cotton smoke, 3rd-degree burn of 40% total body surface area (n = 7)], or an injured group treated with INO-4885 (n = 6). All sheep were mechanically ventilated and fluid-resuscitated according to the Parkland formula. The injury-related increases in the abundance of 3-nitrotyrosine, a marker of protein nitration by ONOO(-), were prevented by INO-4885, providing evidence for the neutralization of ONOO(-) action by the compound. Burn and smoke injury induced a significant drop in arterial Po(2)-to-inspired O(2) fraction ratio and significant increases in pulmonary shunt fraction, lung lymph flow, lung wet-to-dry weight ratio, and ventilatory pressures; all these changes were significantly attenuated by INO-4885 treatment. In addition, the increases in IL-8, VEGF, and poly(ADP-ribose) in lung tissue were significantly attenuated by the ONOO(-) decomposition catalyst. In conclusion, the current study suggests that ONOO(-) plays a crucial role in the pathogenesis of pulmonary microvascular hyperpermeability and pulmonary dysfunction following burn and smoke inhalation injury in sheep. Administration of an ONOO(-) decomposition catalyst may represent a potential treatment option for this injury.
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