Guanosine 3',5'-monophosphate and adenosine 3',5'-monophosphate content of human umbilical artery.

Abstract

Human umbilical arteries are unique vessels in that they close quickly and completely at birth. It has been suggested that cyclic uanosine 3',5'-monophosphate (cAMP) in relaxation. This hypothesis has been evaluated in term gestational human umbilical artery segments incubated at 37 degrees C and in room air. (a) The basal cGMP content (1 pmol/mg protein) of artery segments incubated in room air was almost twice that of cAMP. (b) Bradykinin, histamine, serotonin, acetylcholine, and K+ ion, which cause umbilical artery constriction, can increase the cGMP content of the artery segments within 30 s of exposure without altering the cAMP content. (c) Prostaglandin E1, but not isoproterenol, caused accumulation of cAMP which is consistent with reports that umbilical arteries lack functional beta-receptors and that only prostaglandin E1 can bring about relaxation of umbilical arteries. (d) 1 muM atropine blocked the effect of 100 muM acetylcholine on cGMP content without altering the responses to histamine, bradykinin, serotonin, or K+ ion. (e) Pyrilamine (an H1 antagonist), but not metiamide (an H2 antagonist), blocked the effect of histamine on cGMP from which it is inferred that histamine causes accumulation of cGMP in umbilical artery via its interaction with H1 receptors. The results are consistent with the view that metabolism of the two cyclic nucleotides is independently controlled in the human umbilical artery and that cGMP is involved in contraction of the artery at birth.