Tissue hypoxia inhibits prostaglandin and nitric oxide production and prevents ductus arteriosus reopening

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Tissue hypoxia inhibits prostaglandin and nitric oxide production and prevents ductus arteriosus reopening

Hiroki Kajino¹, Yao-Qi Chen¹, Sylvain Chemtob², Nahid Waleh¹, Cameron J. Koch³, and Ronald I. Clyman¹^,⁴

¹ Cardiovascular Research Institute and ⁴ Department of Pediatrics, University of California, San Francisco, California 94143-0544; ² Research Center, Hôpital Sainte-Justine, Montreal, Quebec, Canada H3TIC5; and ³ Department of Radiation Oncology, University of Pennsylvania, Philadelphia, Pennsylvania 19104

Regulation of ductus arteriosus (DA) tension depends on a balance between oxygen-induced constriction and PG and nitric oxide(NO)-mediated relaxation. After birth, increasing Pa_O₂ producesDA constriction. However, as the full-term ductus constricts,it develops severe tissue hypoxia in its inner vessel wall (oxygenconcentration <0.2%). We used isolated rings of fetal lamb DAto determine why the constricted ductus does not relax and reopenas it becomes hypoxic. We used a modification of the 2-(2-nitro-1H-imidazol-1-yl)-N-(2,2,3,3,3-pentafluoropropyl)acetamide (EF5) technique (Clyman RI, Chan CY, Mauray F, ChenYQ, Cox W, Seidner SR, Lord EM, Weiss H, Wale N, Evan SM, andKoch CJ. Pediatr Res 45: 19-29, 1999) to determine mean tissueoxygen concentration. A decrease in the ductus' mean tissue oxygenconcentration from 1.4 to 0.1% lowers the isometric tone of theductus by 15 ± 10% of its maximal active tension (the maximaltension that can be produced by the ductus). Although decreasesin oxygen concentration diminish ductus tension, most of the vasoconstrictortone in the ductus is independent of ambient oxygen concentration.This oxygen-independent tone is equivalent to 64 ± 10% of themaximal active tension. At mean tissue oxygen concentrations >0.2%,endogenous PGs and NO inhibit more than 40% of the active tensiondeveloped by the ductus. However, when tissue oxygen concentrationsdrop below 0.2%, the constitutive relaxation of the ductus byendogenous PGs and NO is lost. In the absence of PG and NO production,tension increases to a level normally observed only after treatmentof the ductus with indomethacin and nitro-L-arginine methyl ester(inhibitors of PG and NO production). Therefore, under conditionsof severe hypoxia (tissue oxygen concentration <0.2% oxygen),the loss of PG- and NO-mediated relaxation more than compensatesfor the loss of oxygen-induced tension. We hypothesize that thisincreased ductus tone enables the vessel to remain closed as itundergoes tissueremodeling.

prostaglandin E₂; prostacyclin; oxygen; vascular smooth muscle

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