Endothelial vasodilator production by uterine and systemic arteries. VII. Estrogen and progesterone effects on eNOS

Uterine blood flow (UBF) and uterine artery endothelial nitric oxide synthase (eNOS) expression are greatest during the follicular vs. luteal phase. 17 beta -Estradiol (E(2)beta) increases UBF and elevates eNOS in ovine uterine but not systemic arteries; progesterone (P-4) effects on E(2)beta changes of eNOS remain unclear. Nonpregnant ovariectomized sheep received either vehicle (n = 10), P-4 (0.9 g Controlled Internal Drug Release vaginal implants; n = 13), E(2)beta (5 mug/kg bolus + 6 mug.kg(-1).day(-1); n = 10), or P-4 + E(2)beta (n = 12). Reproductive (uterine/mammary) and nonreproductive (omental/renal) artery endothelial proteins were procured on day 10, and eNOS was measured by Western analysis. P-4 and E(2)beta alone and in combination increased (P< 0.05) eNOS expression in uterine artery endothelium (vehicle = 100 +/- 16%, P-4 = 251 +/- 59%, E-2<beta> = 566 +/- 147%, P-4 + E(2)beta = 772 +/- 211% of vehicle). Neither omental, renal, nor mammary artery eNOS was altered, demonstrating the local nature of steroid-induced maintenance of uterine arterial eNOS. In the myometrial microvasculature, eNOS was increased slightly (P = 0.06) with E(2)beta and significantly with P-4 + E(2)beta. Systemic NOx was increased with P-4 and P-4 + E(2)beta, but not E(2)beta, suggesting differential regulation of eNOS expression and activity, since P4 increased eNOS in uterine artery endothelium while E(2)beta and the combination further increased eNOS protein.