Oxygen-induced fetal pulmonary vasodilation is mediated by intracellular calcium activation of KCa channels

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Oxygen-induced fetal pulmonary vasodilation is mediated by intracellular calcium activation of K_Ca channels

Valerie A. Porter¹^,², Michael T. Rhodes¹, Helen L. Reeve²^,³, and David N. Cornfield¹

¹ Division of Pediatric Pulmonology and Critical Care Medicine, Department of Pediatrics, and Departments of ² Physiology and ³ Medicine, University of Minnesota, Minneapolis, Minnesota 55455

O₂ sensing in fetal pulmonary artery smooth muscle is critically important in the successful transition to air breathing atbirth. However, the mechanism by which the fetal pulmonary vasculaturesenses and responds to an acute increase in O₂ tension is notknown. Isolated fetal pulmonary artery smooth muscle cells werekept in primary culture for 5-14 days in a hypoxic environment(20-30 mmHg). These cells showed a 25.1 ± 1.7% decrease in intracellularcalcium in response to an acute increase in O₂ tension. Low concentrationsof caffeine (0.5 mM) and diltiazem also decreased intracellularcalcium. The decrease in intracellular calcium concentration inresponse to increasing O₂ was inhibited by iberiotoxin and ryanodine.Freshly isolated fetal pulmonary artery smooth muscle cells exhibited"spontaneous transient outward currents," indicative of intracellularcalcium spark activation of calcium-sensitive potassium channels.The frequency of spontaneous transient outward currents increasedwhen O₂ tension was increased to normoxic levels. Increasing fetalpulmonary O₂ tension in acutely instrumented fetal sheep increasedfetal pulmonary blood flow. Ryanodine attenuated O₂-induced pulmonaryvasodilation. This study demonstrates that fetal pulmonary vascularsmooth muscle cells are capable of responding to an acute increasein O₂ tension and that this O₂ response is mediated by intracellularcalcium activation of calcium-sensitive potassiumchannels.

smooth muscle cells; spontaneous transient outward current; calcium-sensitive potassium channel

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