| Abstract: | The vascular activity of arginine vasopressin (AVP) and selective AVP receptor antagonists was investigated in isolated arterial ring segments from human superior mesenteric arteries. AVP elicited a potent and concentration-dependent contraction in human mesenteric arterial rings with an EC50 value of 2.01 X 10(-9) M. The presence or absence of the vascular endothelium did not affect significantly AVP-induced contraction. AVP induced slight, although significant, tachyphylaxis in human mesenteric arteries. The selective vascular (V1) receptor antagonist [d(CH2)5 1Tyr(Me)2]AVP (SK&F 100273) shifted the concentration-response curves for AVP-induced vascular contraction to the right in a parallel manner (KB = 2.23 X 10(-9) M). A mixed V1/V2 receptor antagonist, [d(CH2)5 1D-Tyr(Et)2Val4desGly9]AVP (SK&F 101926), was also a potent antagonist of AVP-mediated vascular contraction; however, inhibition was marked by a nonparallel shift of the concentration-response curves with depression of maximum contraction. Furthermore, a relatively renal (V2) selective receptor antagonist [d(CH2)5 1D-Ile2Val4]AVP (SK&F 101485) was approximately 100-fold less potent at inhibiting AVP-induced vascular contraction (KB = 1.37 X 10(-7) M). These studies illustrate for the first time the in vitro effects of selective vasopressin receptor antagonists in isolated human blood vessels. Studies of other blood vessels and the design of therapeutically useful antagonists should proceed with the hypothesis that the vasopressin receptors mediating vascular contraction in human mesenteric arteries are of the V1 subtype. |
