What leads to different mediators of alkalosis-induced vasodilation in isolated and in situ pulmonary vessels?

doi:10.1152/ajplung.00402.2002

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Am J Physiol Lung Cell Mol Physiol 284: L799-L807, 2003. First published January 24, 2003; doi:10.1152/ajplung.00402.2002
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Vol. 284, Issue 5, L799-L807, May 2003

What leads to different mediators of alkalosis-induced vasodilation in isolated and in situ pulmonary vessels?

John B. Gordon¹, Michele A. VanderHeyden¹, Ted R. Halla¹, Edmundo P. Cortez¹, Guillermo Hernandez¹, Steven T. Haworth², Christopher A. Dawson², and Jane A. Madden³

Departments of ¹ Pediatrics (Critical Care), ² Physiology, and ³ Neurology, Medical College of Wisconsin and Zablocki Veterans Administration Medical Center, Milwaukee, Wisconsin 53226

We previously found that nitric oxide synthase (NOS) inhibition fully blocked alkalosis-induced relaxation of piglet pulmonaryartery and vein rings. In contrast, NOS inhibition alone had noeffect on alkalosis-induced pulmonary vasodilation in isolatedpiglet lungs. This study sought to identify factors contributingto the discordance between isolated and in situ pulmonary vessels.The roles of pressor stimulus (hypoxia vs. the thromboxane mimeticU-46619), perfusate composition (blood vs. physiological saltsolution), and flow were assessed. Effects of NOS inhibition onalkalosis-induced dilation were also directly compared in 150-350-µm-diametercannulated arteries and 150-900-µm-diameter, angiographicallyvisualized, in situ arteries. Finally, effects of NOS inhibitionon alkalosis-induced vasodilation were measured in intact piglets.NOS inhibition with N-nitro-L-arginine fully abolished alkalosis-induced vasodilationin all cannulated arteries but failed to alter alkalosis-inducedvasodilation in intact lungs. The results indicate that investigationof other factors, such as perivascular tissue (e.g., adventitiaand parenchyma) and remote signaling pathways, will need to becarried out to reconcile this discordance between isolated andin situarteries.

newborn piglet; pressor stimulus; flow; perfusate; cannulated arteries; isolated lungs; angiography

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