Cynthia E. Shaw

Endothelial vasodilator production by uterine and systemic arteries. III. Ovarian and estrogen effects on NO synthase

During the follicular phase of the ovarian cycle, when the local estrogen-to-progesterone ratio is elevated, uterine blood flow is elevated. This vasodilatory response is reproduced by exogenous 17beta-estradiol (E2beta) administration via a nitric oxide (NO)-mediated mechanism. We hypothesized that endogenous ovarian estrogen and exogenous E2beta treatment elevate expression of endothelial cell-derived NO synthase (eNOS) in uterine, but not in systemic, arteries. Uterine, mammary, and systemic (renal and/or omental) arteries were collected from 1) ewes synchronized to the follicular (day -1 to day 0) or luteal (day 10) phases of the ovarian cycle (n = 4 per phase), 2) ovariectomized ewes 120 min after systemic vehicle or E2beta (5 micrograms/kg iv) treatment, and 3) ovariectomized ewes on days 0, 3, 6, 8, and 10 of E2beta (5 micrograms/kg iv, followed by 6 micrograms/kg per day) treatment. Expression of eNOS was localized primarily to the endothelium rather than vascular smooth muscle (VSM) in all arteries examined by immunohistochemistry and Western analysis; inducible NOS was not detected in either endothelium or VSM. Expression of eNOS protein was greater (P < 0.05) in uterine, but not in systemic, artery endothelium-isolated protein collected from follicular versus luteal phase ewes. Acute systemic E2beta treatment of ovariectomized ewes increased (P < 0.05) eNOS protein levels in uterine artery endothelium. Prolonged E2beta administration progressively increased uterine, but not systemic, artery endothelial eNOS protein expression. Therefore, the increased local estrogen-to-progesterone ratio during the follicular phase locally elevates eNOS expression, which possibly elevates uterine blood flow. These responses can be partly reproduced with E2beta administration.During the follicular phase of the ovarian cycle, when the local estrogen-to-progesterone ratio is elevated, uterine blood flow is elevated. This vasodilatory response is reproduced by exogenous 17β-estradiol (E2β) administration via a nitric oxide (NO)-mediated mechanism. We hypothesized that endogenous ovarian estrogen and exogenous E2β treatment elevate expression of endothelial cell-derived NO synthase (eNOS) in uterine, but not in systemic, arteries. Uterine, mammary, and systemic (renal and/or omental) arteries were collected from 1) ewes synchronized to the follicular ( day -1 to day 0) or luteal ( day 10) phases of the ovarian cycle ( n = 4 per phase), 2) ovariectomized ewes 120 min after systemic vehicle or E2β (5 μg/kg iv) treatment, and 3) ovariectomized ewes on days 0, 3, 6, 8, and 10 of E2β (5 μg/kg iv, followed by 6 μg/kg per day) treatment. Expression of eNOS was localized primarily to the endothelium rather than vascular smooth muscle (VSM) in all arteries examined by immunohistochemistry and Western analysis; inducible NOS was not detected in either endothelium or VSM. Expression of eNOS protein was greater ( P < 0.05) in uterine, but not in systemic, artery endothelium-isolated protein collected from follicular versus luteal phase ewes. Acute systemic E2β treatment of ovariectomized ewes increased ( P < 0.05) eNOS protein levels in uterine artery endothelium. Prolonged E2β administration progressively increased uterine, but not systemic, artery endothelial eNOS protein expression. Therefore, the increased local estrogen-to-progesterone ratio during the follicular phase locally elevates eNOS expression, which possibly elevates uterine blood flow. These responses can be partly reproduced with E2β administration.

Endothelium-derived nitric oxide synthase protein expression in ovine placental arteries.

Abstract During the third trimester, fetoplacental and uterine blood flows increase dramatically to meet the high metabolic demands of the growing fetus. We hypothesized that the expression of endothelial nitric oxide synthase (eNOS) in fetoplacental artery endothelium and the concentrations of nitric oxide (NO) and cyclic GMP (cGMP) in amniotic fluid (AF) are increased during the third trimester of ovine gestation. Placental arteries and AF were collected from ewes at 110, 120, 130, and 142 days of gestation (n = 24; mean ± SEM term = 145 ± 3 days). Expression of eNOS protein was measured in intact and denuded placental arteries and in endothelium-derived protein by Western analysis and confirmed by immunohistochemistry. Concentrations of NO (nitrates plus nitrites) and cGMP were determined in AF. Placental artery eNOS protein expression was localized to the endothelium, where it was markedly greater than in vascular smooth muscle. Placental artery endothelium-derived eNOS expression and AF cGMP concentrations were similar at 110 and 120 days of gestation; however, both peaked at 130 days at levels two- to threefold above baseline (P < 0.05) before returning to baseline at 142 days of pregnancy. The AF NO (nitrates plus nitrites) levels, however, increased progressively between 120 days of gestation and term (P < 0.05). We concluded that endothelium-derived placental artery eNOS levels, AF NO (nitrates plus nitrites), and AF cGMP were markedly increased during the third trimester, thus supporting a role for NO-mediated elevations in cGMP in the control of fetoplacental blood flow.