Angiotensin II mediates uterine vasoconstriction through alpha-stimulation.

Intravenous angiotensin II (ANG II) increases uterine vascular resistance (UVR), whereas uterine intra-arterial infusions do not. Type 2 ANG II (AT(2)) receptors predominate in uterine vascular smooth muscle; this may reflect involvement of systemic type 1 ANG II (AT(1)) receptor-mediated alpha-adrenergic activation. To examine this, we compared systemic pressor and UVR responses to intravenous phenylephrine and ANG II without and with systemic or uterine alpha-receptor blockade and in the absence or presence of AT(1) receptor blockade in pregnant and nonpregnant ewes. Systemic alpha-receptor blockade inhibited phenylephrine-mediated increases in mean arterial pressure (MAP) and UVR, whereas uterine alpha-receptor blockade alone did not alter pressor responses and resulted in proportionate increases in UVR and MAP. Although neither systemic nor uterine alpha-receptor blockade affected ANG II-mediated pressor responses, UVR responses decreased >65% and also were proportionate to increases in MAP. Systemic AT(1) receptor blockade inhibited all responses to intravenous ANG II. In contrast, uterine AT(1) receptor blockade + systemic alpha-receptor blockade resulted in persistent proportionate increases in MAP and UVR. Uterine AT(2) receptor blockade had no effects. We have shown that ANG II-mediated pressor responses reflect activation of systemic vascular AT(1) receptors, whereas increases in UVR reflect AT(1) receptor-mediated release of an alpha-agonist and uterine autoregulatory responses.