Endothelial vasodilator production by uterine and systemic arteries. VI. Ovarian and pregnancy effects on eNOS and NO(x)

Normal pregnancy and the follicular phase of the ovarian cycle are both estrogen-dominated physiological states that are characterized by elevations in uterine blood flow and endothelial nitric oxide synthase (eNOS) protein expression in the uterine artery (UA) endothelium. It is unknown if elevations in mRNA level account for the changes in protein or eNOS activity. We tested the hypothesis that pregnancy and the follicular phase are associated with increases in eNOS mRNA and the consequent elevated expression of eNOS protein results in increased circulating nitric oxide (NO) levels. UA were obtained from pregnant (PREG; n = 8; 110-130 days gestation; term = 145 +/- 3 days), nonpregnant luteal (LUT; n = 6), nonpregnant follicular (FOL; n = 6), and nonpregnant ovariectomized (OVEX; n = 6) sheep. Circulating NO levels were analyzed as total NO(2)-NO(3) (NO(x)). Western analysis performed on UA endothelial-isolated proteins demonstrated that eNOS protein levels were OVEX = LUT < or = FOL < PREG (P < 0.05), whereas eNOS mRNA expression (RT-PCR) in UA endothelial cells obtained by limited collagenase digestion was OVEX < LUT < FOL < PREG (P < 0.05). Pregnancy dramatically elevated eNOS protein (4.1- to 6.9-fold) and mRNA (2.4- to 6.9-fold) over LUT controls (P < 0.01). Circulating NO(x) levels were not altered by ovariectomy or the ovarian cycle but were elevated from 4.4 +/- 1.1 microM in LUT to 12 +/- 4, 22 +/- 3, and 41 +/- 3 microM at 110, 120, and 130 days gestation (P < 0.01). Systemic NO(x) levels in singleton (12.5 +/- 1.6 microM) were less (P < 0.01) than in multiple (twin 27.6 +/- 6.5 microM; triplet = 46 +/- 10 microM) pregnancies. Therefore, the follicular phase and, to a much greater extent, pregnancy are associated with elevations in UA endothelium-derived eNOS expression, although significant increases in systemic NO(x) levels were only observed in the PREG group (multiple > singleton). Thus, although UA endothelial increases in eNOS protein and mRNA levels are associated with high estrogen states, increases in local UA NO production may require additional eNOS protein activation to play its important role in the maintenance of uterine blood flow in pregnancy.     

Endothelial vasodilator production by uterine and systemic arteries. VIII. Estrogen and progesterone effects on cPLA2, COX-1, and PGIS protein expression.

During ovine pregnancy, when both estrogen and progesterone are elevated, prostacyclin (PGI2) production by uterine arteries and the key enzymes for PGI2 production, phospholipase A2 (cPLA2), cyclooxygenase 1 (COX-1), and prostacyclin synthetase (PGIS), are increased. This study was conducted to determine whether exogenous estradiol-17beta (E2beta) with or without progesterone (P4) treatment would increase cPLA2, COX-1, and PGIS protein expression in ovine uterine, mammary, and systemic (renal, mental, and coronary) arteries. Nonpregnant ovariectomized sheep received vehicle (n = 10), P(4) (0.9-g controlled internal drug release vaginal implants; n = 13), E2beta (5 microg/kg bolus followed by 6 microg x kg(-1) x day(-1); n = 10), or P4 + E2beta (n = 12). Arteries were procured on Day 10, and cPLA2, COX-1, and PGIS protein were measured by Western immunoblot analysis in endothelial isolated proteins and vascular smooth muscle (VSM). The levels of cPLA2 was increased in uterine artery endothelium in ewes treated with P4 + E2beta but was not altered by any steroid treatment in renal, coronary, mammary, or omental artery endothelium or in VSM of any evaluated artery. Similarly, COX-1 was increased in uterine artery endothelium with P4 + E2beta but was not significantly altered by treatment in other endothelium or VSM. E2beta treatment increased PGIS protein in uterine and renal artery endothelium but did not alter PGIS in other endothelial tissue. P4 increased PGIS expression in the uterine, mammary, omental, and renal artery VSM, and E2beta increased PGIS expression in the uterine and omental artery VSM. Both E2beta and P4 treatments differentially alter protein expression of the key enzymes involved in PGI2 production in different artery types and may play an important role in the control of blood flow redistribution during hormone replacement therapy.     

Endothelial vasodilator production by uterine and systemic arteries. V. Effects of ovariectomy, the ovarian cycle, and pregnancy on prostacyclin synthase expression

Prostacyclin (PGI(2)) is a potent vasodilator, the level of which is increased during pregnancy, and is the main eicosanoid of which production is elevated in the endothelium and vascular smooth muscle (VSM) of both uterine and omental (systemic) arteries. We tested the hypothesis that during physiologic states that have high uterine blood flow, such as pregnancy and the follicular phase of the ovarian cycle (versus luteal phase and ovariectomized ewes), there is an increased level of prostacyclin synthase (PGIS) expression in ovine uterine and omental artery endothelium and VSM. To investigate this, the cellular localization and PGIS protein expression level in uterine and systemic arteries was examined by immunohistochemistry as well as by Western immunoblot analysis of endothelial-isolated protein and denuded vessels (VSM). Whole uterine, but not omental (systemic), arteries from the pregnant ewes showed an increase (P < 0.001) in PGIS expression. Further localization of PGIS protein by immunohistochemistry and quantification by Western analysis showed PGIS to be somewhat higher in the uterine artery VSM (69 +/- 7%) than endothelium (31 +/- 7%). PGIS protein levels in uterine and omental artery endothelial isolated protein were not altered by ovariectomy or the ovarian cycle, although they were both significantly elevated by pregnancy. Uterine and omental artery VSM PGIS expression levels also were not altered by ovariectomy or the ovarian cycle, whereas PGIS expression, in uterine but not omental artery VSM showed a significant elevation during pregnancy. Thus, the rise in PGI(2) production by uterine arteries observed in ovine pregnancy is paralleled by an elevation in PGIS expression in both endothelium and VSM, whereas those seen in omental arteries is associated with increases in endothelial PGIS.     

Global protein expression profiling underlines reciprocal regulation of caveolin 1 and endothelial nitric oxide synthase expression in ovariectomized sheep uterine artery by estrogen/progesterone replacement therapy

Ovariectomized (OVX) ewes were assigned to receive vehicle, progesterone (P4, 0.9-g controlled internal drug release vaginal implants), estradiol-17beta (E2, 5 microg/kg bolus + 6 microg kg(-1) day(-1)), or P4 + E2 for 10 days (n = 3/group). Uterine artery endothelial proteins were mechanically isolated on Day 10. The samples were used for protein expression profiling by the Ciphergen Proteinchip system and immunoblotting analysis of endothelial nitric oxide synthase (NOS3, also termed eNOS) and caveolin 1. Uterine artery rings were cut and analyzed by immunohistochemistry to localize NOS3 and caveolin 1 expression. With the use of the IMAC3 protein chip with loading as little as 2 microg protein/sample, many protein peaks could be detected. Compared to vehicle controls, a approximately 133.1-kDa protein was identified to be upregulated by 2- to 4-fold in OVX ewes receiving E2, P4, and their combination, whereas a approximately 22.6-kDa protein was downregulated by 2- to 4-fold in OVX ewes receiving E2 and E2/P4, but not P4 treatments. Western blot analysis revealed that E2, P4, and their combination all increased NOS3 protein, whereas E2 and its combination with P4, but not P4 alone, downregulated caveolin 1 expression. Immunohistochemical analysis revealed that NOS3 was mainly localized in the endothelium and upregulated by E2, whereas caveolin 1 was localized in both endothelium and smooth muscle and downregulated by E2. Thus, our data demonstrate that uterine artery endothelial NOS3 and caveolin 1 are regulated reciprocally by estrogen replacement therapy. In keeping with the facts that E2, but not P4, causes uterine vasodilatation and that E2 and P4 increase NOS3 expression, but only E2 decrease caveolin 1 expression, our current study suggests that both increased NOS3 expression and decreased caveolin 1 expression are needed to facilitate estrogen-induced uterine vasodilatation.     

Myometrial activity and plasma progesterone and oxytocin concentrations in cycling and early-pregnant ewes

Myometrial activity and plasma progesterone (P) and oxytocin (OT) were measured in early pregnant (n = 5) and cycling (n = 5) ewes. Electromyography (EMG) leads and jugular and inferior vena cava (IVC) catheters were surgically placed in ewes about 1 wk before data collection. When ewes returned to estrus, they were bred to either an intact or vasectomized ram. Continuous EMG data were collected, and blood samples were collected twice daily from day of estrus (Day 0) until Day 18. Ewes bred with an intact ram were checked surgically for pregnancy on Day 20. Computerized, quantitative analysis of EMG events showed no difference in signal from the right to left uterine horns, and no differences between pregnant and cycling ewes (p less than 0.05) until Days 14-18 when nonpregnant ewes returned to estrus and had increased EMG activity. The mean number of EMG events 180-900 s in length decreased in pregnant ewes, but this difference was not significant (p less than 0.05). Jugular plasma progesterone (P) levels confirmed corpus luteum (CL) formation in all ewes, and no differences in P between pregnant and nonpregnant ewes were measured until Days 14-18, when cycling ewes underwent luteolysis and pregnant ewes maintained CL. IVC plasma oxytocin concentrations were increased in pregnant ewes compared to concentrations in nonpregnant ewes on Days 5-13 (p less than 0.05), and the difference was largest at Day 6 (means +/- SEM pg/ml: pregnant = 68.7 +/- 13.9, nonpregnant = 30.9 +/- 19.9).(ABSTRACT TRUNCATED AT 250 WORDS)     

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 microg/kg bolus + 6 microg x kg(-1) x 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 NO(x) 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 P(4) increased eNOS in uterine artery endothelium while E(2)beta and the combination further increased eNOS protein.     

Uteroplacental production of eicosanoids in ovine pregnancy

Dramatic cardiovascular alterations occur during normal ovine pregnancy which may be associated with increased prostaglandin production, especially of uteroplacental origin. To study this, we examined (Exp 1) the relationships between cardiovascular alterations, e.g., the rise in uterine blood flow and fall in systemic vascular resistance, and arterial concentrations of prostaglandin metabolites (PGEM, PGFM and 6-keto-PGF1 alpha) in nonpregnant (n = 4) and pregnant (n = 8) ewes. To determine the potential utero-placental contribution of these eicosanoids in pregnancy, we also studied (Exp 2) the relationship between uterine blood flow and the uterine venous-arterial concentration differences of PGE2, PGF2 alpha, PGFM, 6-keto-PGF1 alpha, and TxB2 in twelve additional late pregnant ewes. Pregnancy was associated with a 37-fold increase in uterine blood flow and a proportionate (27-fold) fall in uterine vascular resistance (p less than 0.01). Arterial concentrations of PGEM were similar in nonpregnant and pregnant ewes (316 +/- 19 and 245 +/- 38 pg/ml), while levels of PGFM and PGI2 metabolite 6-keto-PGF1 alpha were elevated 23-fold (31 +/- 14 to 708 +/- 244 pg/ml) and 14-fold (12 +/- 4 to 163 +/- 78 pg/ml), respectively (p less than 0.01). Higher uterine venous versus uterine arterial concentrations were observed for PGE2 (397 +/- 36 and 293 +/- 22 pg/ml) and 6-keto-PGF1 alpha (269 +/- 32 and 204 +/- 32 pg/ml), p less than 0.05, but not PGF2 alpha or TxB2. Although PGFM concentrations appeared to be greater in uterine venous (1197 +/- 225 pg/ml) as compared to uterine arterial (738 +/- 150 pg/ml) plasma, this did not reach significance (0.05 less than p less than 0.1). In normal ovine pregnancy arterial levels of PGI2 are increased, which may in part reflect increased uteroplacental production. Moreover the gravid ovine uterus also appears to produce PGE2 and metabolize PGF2 alpha.     

Regulation of types I and III NOS in ovine uterine arteries by daily and acute estrogen exposure

Nitric oxide contributes to estrogen-mediated uterine vasodilation; however, the nitric oxide synthases (NOS) involved and their location within uterine arteries are incompletely documented. We investigated the effects of repetitive daily and acute estradiol-17beta (E(2)beta) exposure on uterine hemodynamics and NOS abundance and localization in uterine arteries from nonpregnant ovariectomized ewes receiving daily intravenous E(2)beta (1 microg/kg, n = 5) or no E(2)beta (n = 7) for 5 days to determine NOS abundance, cGMP contents, and NOS immunohistochemistry. Daily E(2)beta increased basal and E(2)beta-mediated rises in uterine blood flow (UBF) 36 and 43% (<0.01), respectively, calcium-dependent NOS activity 150% (P < 0.02) in endothelium-intact and -denuded ( approximately 40% of total NOS) arteries, and cGMP contents 39% (P < 0.05). Endothelial (eNOS) was detected in luminal endothelium, whereas neuronal NOS (nNOS) protein was only in the media. A second group of ewes received E(2)beta (1 microg/kg iv) for 4 days and acute intravenous E(2)beta (n = 8) or vehicle (n = 4) on day 5. UBF rose 5.5-fold (P < 0.001) 115 min after E(2)beta, at which time only endothelium-derived calcium-dependent NOS activity increased 30 +/- 13% (P < 0.05). Daily E(2)beta enhances basal and E(2)beta-mediated increases in UBF, which parallel increases in endothelium-derived eNOS and smooth muscle-derived nNOS. Acute E(2)beta, however, selectively increases endothelium-derived eNOS.     

Relationship between variation in conceptus development and differences in estrous cycle duration in ewes

The objective of this study was to examine conceptus development on Day 13 in ewes with estrous cycles of different durations. Ewes (n = 80) were screened according to the length of their estrous cycles. Subsequently, ewes that had either SHORT or LONG cycles were utilized (15.9 +/- 0.1 or 18.6 +/- 0.4 days; mean +/- SEM, p less than 0.01; 10 ewes per group). Jugular blood samples were collected twice daily from Days 0-6 after mating and then once a day until slaughter on Day 13. Concentrations of progesterone in plasma and amounts of ovine trophoblast protein-1 (oTP-1), protein, and prostaglandins (PG) E2 and F2 alpha (PGF2 alpha) in uterine flushings were determined. Concentrations of progesterone were greater (Day by treatment interaction, p less than 0.01) on Days 2-4 for ewes in the SHORT group. On Day 5 and thereafter, progesterone concentrations were not different between groups. More (p less than 0.05) oTP-1 and protein (8.1 +/- 1.3 micrograms and 1.8 +/- 0.3 micrograms versus 2.4 +/- 1.3 micrograms and 0.8 +/- 0.3 mg) were recovered from uterine flushings from ewes in the SHORT versus LONG groups, respectively. The ratio of PGE2:PGF2 alpha was higher (p less than 0.06) in flushings from ewes in the SHORT versus LONG group (1.4 +/- 0.2 versus 0.9 +/- 0.2, respectively). Conceptuses were classified by stage of morphological development. Conceptus development was accelerated (p less than 0.01) in ewes of the SHORT group, as shown by filamentous conceptuses recovered from 78% versus 0% of SHORT versus LONG ewes, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Uterine involution and ovarian changes during early post partum in autumn-lambing Corriedale ewes

The time of uterine involution and the changes in ovarian follicle populations were studied during early postpartum in multiparous, suckling Corriedale ewes lambing in the autumn. On Day 1 (n=5), Day 5 (n=4), Day 17 (n=4) and Day 30 (n=3) postpartum ewes underwent surgery to obtain ovaries and uteri. The weights of uteri and the lengths of the previous pregnant and nonpregnant horns were recorded as well as the presence of ovarian follicles larger than 1 mm in diameter. Uterine weight and length of uterine horns decreased (P2 to < 4 mm) follicles were also present. At days 17 and 30, aside from the small and medium follicles, all the ewes also had large (>/= 4 mm) follicles, and, at Day 30 2 ewes had large corpora lutea. We conclude that in autumn-lambing Corriedale ewes macroscopic uterine involution was complete around Day 17 post partum and that follicle development begins immediately after parturition, reaching preovulatory size before Day 17. In 2 of the 3 ewes studied until Day 30, ovulation (first progesterone increase) occurred after Day 17 (Days 18 and 25).     

Sex steroid receptor expression in the oviduct and uterus of sheep with estrus synchronized with progestagen or prostaglandin analogues

The objective of this study was to investigate differences in the expression of estrogen receptor-alpha (ERalpha), progesterone receptor (PR) and the proliferative indexes (Ki-67), in the uterus and oviduct of sheep with estrus synchronized either by prostaglandin analogues (Group PA, n=27) or by treatment with progestagens (Group P, n=29) on days 4 and 7 (day 0=estrus), when the embryos were collected. Immunohistochemical methods were used to quantify ERalpha, PR and Ki-67 in six superficial and deep compartments in the uterus and oviduct. The expression of ERalpha was significantly (P<0.01) lower in progestagen treated ewes than in prostaglandin analogues treated group in the luminal epithelium, superficial glands and superficial stroma in the uterus on day 4. The expression of PR was significantly lower in progesterone treated ewes than in the PA Group in the superficial gland (P<0.05) in both days studied. The lowest expression of PR was observed in the luminal caruncular epithelium and superficial glands in both treatments, obtaining the lowest levels on day 4 (P<0.05). There were significant differences between days 4 and 7 in the Ki-67 immunostaining in the luminal epithelium (P<0.01) and superficial glands (P<0.05). A higher cell proliferation was observed in the uterine epithelium (P<0.05) on day 4 in the animals treated with progestagens. Results indicate that sheep with synchronization of estrus with progestagens showed a reduction of ERalpha and PR protein expression in most of oviductal and uterine cells.     

Uterine specific antigens in the ewe

Uterine flushings from ewes on days 0, 3, 6, 9, 12 and 15 of the estrous cycle were analyzed for total protein content. Flushings from days 9, 12 and 15 had greater (P<.01) amounts of protein than those from 0, 3 and 6. Antisera to uterine fluids from ewes at day 10 to 12 or day 14 to 15 of pregnancy detected two uterine-specific antigens in uterine flushings at day 7, 11 and 15 but not at days 0 and 3 of the cycle. A third uterine antigen was also detected in kidney tissue extracts. All three antigens were present in endometrial extracts at each stage examined. Progesterone, or estrogen plus progesterone, administration to ovariectomized ewes induced the appearance of the two uterine-specific antigens. The third antigen was detectable even in ovariectomized ewes. No pregnancy-specific antigens were detected in flushings from days 7, 11 or 15 of gestation. The effect of pregnancy on endometrial protein synthesis was examined in vitro . No differences were seen in the incorporation of (3)H-leucine in day 11 pregnant or nonpregnant or in day 14 pregnant or nonpregnant endometrium. No differences in total uterine lumenal protein were observed. Endometrial secretions, obtained by conditioning media with endometrial explant cultures, were evaluated to assess their effect on protein synthesis in day 11 embryos cultured in vitro . No significant effects of endometrial secretions or serum were observed.     

Ovine trophoblast protein-1 and bovine trophoblast protein-1 are present as specific components of uterine flushings of pregnant ewes and cows

A rabbit antiserum raised against ovine trophoblast protein-1 (oTP-1) was used to stain Western blots of the protein components from the uterine flushings of pregnant ewes (n = 61), non-bred cyclic ewes (n = 22), bred-but-nonpregnant ewes (n = 36), pregnant cows (n = 34), and bred-but-nonpregnant cows (n = 15). Nonpregnant animals were defined as ones from which no embryo was recovered. Uterine flushings of pregnant ewes contained oTP-1 between Days 14 and 24 of pregnancy, but not at Day 12. All of the cyclic ewes and 34 of 36 bred ewes, judged as nonpregnant, tested negatively for the presence of oTP-1. With one exception, oTP-1 was not detected in the nongravid uterine horns of pregnant ewes in which the conceptus had been confined to one uterine horn. Bovine trophoblast protein-1 (bTP-1), which cross-reacts immunologically with oTP-1, was also detectable specifically in the uterine flushings of pregnant cows when anti-oTP-1 antiserum was used. The urine (n = 14) and certival mucus (n = 20) samples of all the pregnant ewes tested were free of any detectable oTP-1. Thus, a useful pregnancy test for ewes based on oTP-1 release into these fluids seems unlikely. Results of this study show that oTP-1 and bTP-1 are pregnancy-specific proteins that are secreted into the uterine lumen where they possibly exert a local response.     

The influence of reproductive phase on lipopolysaccharide stimulation of prostacyclin production and cyclooxygenase-2 protein concentrations in reproductive and systemic arteries of the sheep

Cyclooxygenase, the enzyme that converts arachidonate to prostaglandins, plays a regulatory role in vasodilation under normal and pathological conditions. Studies were conducted to determine the effects of reproductive phase and lipopolysaccharide (LPS) on production of PGI2 and amounts of cyclooxygenase protein in uterine, mammary, mesenteric, and renal arteries. Arteries were collected from ewes during the follicular (Day 0 = estrus) or luteal (Day 10) phase of the estrous cycle and were cultured in the presence of LPS. After 24 h, media were collected and analyzed for 6-keto-PGF1alpha, the stable metabolite of PGI2. In addition, arteries were collected and homogenized and the relative concentration of cyclooxygenase was determined via Western analysis. Lipopolysaccharide stimulated PGI2 production in all four-artery types from both follicular and luteal phase ewes (p < 0.001). Upon LPS stimulation, uterine and mammary arteries produced more PGI2 compared to mesenteric and renal arteries (p = 0.04). The phase of estrous cycle did not affect PGI2 production by any of the artery populations exposed to LPS (p = 0.35). There was no cyclooxygenase-2 in untreated uterine and mammary arteries and no cyclooxygenase-2 was detected in untreated or LPS-treated mesenteric and renal arteries. In contrast, LPS-treated uterine and mammary arteries from luteal phase ewes had higher (p = 0.064) cyclooxygenase-2 concentrations than those from follicular phase ewes. These results suggest that the hormone conditions of the follicular (high estrogen) and luteal (high progesterone) phases of the ovarian cycle play a role in regulating uterine and mammary artery but not mesenteric and renal artery response to LPS.     

Estrogen and progesterone receptors in the ovine cervix during the postpartum period

Cervical estrogen (E) and progesterone (P) receptors were characterized and quantified during the postpartum period in Corriedale ewes lambing in the late breeding season. Cervices and uteri were collected after ovariohysterectomy at 1 d (n = 2), 5 d (n = 4), 17 d (n = 2) or 30 d (n = 2) post partum. The estrogen and progesterone receptors were measured using binding assays with tritiated hormones, dextran charcoal separation and inverse Scatchard analysis. Similar kinetic parameters in cytosolic binding sites for both hormones were found in all cervical and uterine samples, indicating that the binding protein in both tissues is of the same nature. Receptor concentrations (fmol/mg cytosolic protein) in the cervix of early (1 to 5 d, n = 6) and late (17 to 30 d, n = 4) postpartum ewes were 348 +/- 66 vs 994 +/- 145 (P < 0.05) for E and 618 +/- 126 vs 1170 +/- 201 (P < 0.05) for P, respectively. These data suggest an increased synthesis of receptors, probably due to the presence of ovarian estrogen-active follicles. Cervical E and P receptor concentrations were similar or higher than those in the uterus (1.40 +/- 0.15, n = 10 and 1.51 +/- 0.19, n = 10; for E and P respectively), and these receptor ratios did not differ between the early and late postpartum period. The high ratio between cervical/uterine receptors suggests that the ovine cervix may be a very sensitive to steroid action. In conclusion, it was shown that restoration of steroid receptors during the postpartum period in the ovine cervix is similar to receptor dynamics in the uterus, and is probably associated with the recovery of ovarian cyclicity.     

Estrogen potentiates constrictor prostanoid function in female rat aorta by upregulation of cyclooxygenase-2 and thromboxane pathway expression

Estrogen potentiates vascular reactivity to vasopressin (VP) by enhancing constrictor prostanoid function. To determine the cellular and molecular mechanisms, the effects of estrogen on arachidonic acid metabolism and on the expression of constrictor prostanoid pathway enzymes and endoperoxide/thromboxane receptor (TP) were determined in the female rat aorta. The release of thromboxane A2 (TxA2) and prostacyclin (PGI2) was measured in male (M), intact-female (Int-F), ovariectomized-female (OvX-F), and OvX + 17beta-estradiol-replaced female (OvX + ER-F) rats. The expression of mRNA for cyclooxygenase (COX)-1, COX-2, thromboxane synthase (TxS), and TP by aortic endothelium (Endo) and vascular smooth muscle (VSM) of these four experimental groups was measured by RT-PCR. The expression of COX-1, COX-2, and TxS proteins by Endo and VSM was also estimated by immunohistochemistry (IHC). Basal release of TxA2 and PGI2 was similar in M (18.8 +/- 1.9 and 1,723 +/- 153 pg/mg ring wt/45 min, respectively) and Int-F (20.2 +/- 4.2 and 1,488 +/- 123 pg, respectively) rat aortas. VP stimulated the dose-dependent release of TxA2 and PGI2 from both male and female rat aorta. OvX markedly attenuated and ER therapy restored VP-stimulated release of TxA2 and PGI2 in female rats. No differences in COX-1 mRNA levels were detected in either Endo or VSM of the four experimental groups (P > 0.1). The expression of both COX-2 and TxS mRNA were significantly higher (P < 0.05) in both Endo and VSM of Int-F and OvX + ER-F, compared with M or OvX-F. Expression of TP mRNA was significantly higher in VSM of Int-F and OvX + ER-F compared with M or OvX-F. IHC revealed the uniform staining of COX-1 in VSM of the four experimental groups, whereas staining of COX-2 and TxS was greater in Endo and VSM of Int-F and OvX + ER-F than in OvX-F or M rats. These data reveal that estrogen enhances constrictor prostanoid function in female rat aorta by upregulating the expression of COX-2 and TxS in both Endo and VSM and by upregulating the expression of TP in VSM.     

Upregulation of eNOS in pregnant ovine uterine arteries by chronic hypoxia

We tested the hypothesis that chronic high-altitude (3,820 m) hypoxia during pregnancy was associated with the upregulation of endothelial nitric oxide (NO) synthase (eNOS) protein and mRNA in ovine uterine artery endothelium and enhanced endothelium-dependent relaxation. In pregnant sheep, norepinephrine-induced dose-dependent contractions were increased by removal of the endothelium in both control and hypoxic uterine arteries. The increment was significantly higher in hypoxic tissues. The calcium ionophore A23187-induced relaxation of the uterine artery was significantly enhanced in hypoxic compared with control tissues. However, sodium nitroprusside- and 8-bromoguanosine 3',5'-cyclic monophosphate-induced relaxations were not changed. Accordingly, chronic hypoxia significantly increased basal and A23187-induced NO release. Chronic hypoxia increased eNOS protein and mRNA levels in the endothelium from uterine but not femoral or renal arteries. In nonpregnant animals, chronic hypoxia increased eNOS mRNA in uterine artery endothelium but had no effects on eNOS protein, NO release, or endothelium-dependent relaxation. Chronic hypoxia selectively augments pregnancy-associated upregulation of eNOS gene expression and endothelium-dependent relaxation of the uterine artery.     

Regulation of maternal ACTH in ovine pregnancy: does progesterone play a role?

Pregnancy is characterized by increased plasma adrenocorticotropic hormone (ACTH) and cortisol. Studies suggest that progesterone acts as an antagonist at mineralocorticoid receptors. Therefore, we tested the hypothesis that chronic progesterone, produced by treatment of nonpregnant ewes or during pregnancy, will result in increased plasma ACTH relative to the plasma cortisol concentrations. We studied three groups of ewes: ovariectomized nonpregnant, nonpregnant treated with progesterone, and pregnant ewes. In two series of studies, ewes were adrenalectomized and replaced with 0.35 mg x kg(-1) x day(-1) or 0.5 mg x kg(-1) x day(-1) cortisol. In both studies, aldosterone was infused at 3 microg x kg(-1) x day(-1). In the first study, additional infusions of cortisol over 24 h were used to increase daily replacement doses to 0.5, 1, or 1.5 mg x kg(-1) x day(-1), and intact pregnant and nonpregnant ewes were studied with infusions of cortisol at 0, 0.5, and 1 mg x kg(-1) x day(-1). In adrenalectomized ewes chronically replaced to 0.35 mg x kg(-1) x day(-1) cortisol, plasma ACTH concentrations were decreased significantly in the nonpregnant progesterone-treated ewes compared with the ovariectomized nonpregnant ewes. With 0.5 mg x kg(-1) x day(-1) cortisol, plasma ACTH levels were greater in pregnant ewes than in nonpregnant ewes with or without progesterone. Overall plasma ACTH levels at 0.35 mg x kg(-1) x day(-1) were significantly related to the plasma protein concentration, suggesting that the ACTH levels in the hypocorticoid ewes are most closely related to plasma volume. Across all steroid doses, ACTH was positively related to plasma proteins and progesterone, and negatively related to cortisol. We conclude that increased progesterone does not alter the feedback relation of cortisol to ACTH, but may modulate ACTH indirectly through plasma volume.     

Further characterization of the electromyographic activity of the myometrium and mesometrium in nonpregnant sheep under estrogen supplementation.

The effects of estrogen administration on uterine contractility varies with animal species. In nonpregnant ovariectomized sheep, estrogen administration has been reported either to inhibit, inhibit then stimulate, or only stimulate uterine contractility. The aim of the present study was to determine the effects of prolonged estrogen administration in the electromyographic (EMG) activity recorded from the myometrium and mesometrium in nonpregnant ovariectomized sheep after estrous synchronization by inserting vaginal progesterone sponges 14 days before surgery. Surgery was performed on four ewes under halothane anesthesia. Bilateral oophorectomy was performed, and stainless steel EMG electrodes were sewn to the mesometrium and myometrium in both left and right horns of the uterus. Blood samples were taken at 1000 h from the uterine vein for 13,14-dihydro-15-keto-prostaglandin F2 alpha determination, and from the femoral artery for estradiol determination. Starting on Day 7 after surgery, estradiol 17 beta (50 micrograms/24 h) was infused continuously into the jugular vein. Estrogen administration had a different effect on the EMG activity recorded from myometrium and mesometrium. The myometrial response to estrogen was an increase in the frequency of short EMG events from 19.0 +/- 8.7 to 57.0 +/- 5.0 (p less than 0.05) for events less than 60 sec, and from 2.70 +/- 0.83 to 10.30 +/- 1.36 (p less than 0.05) for events lasting greater than 60 sec but less than less than 180 sec. In contrast, there was no stimulatory effect of estrogen on mesometrial EMG for both types of short events less than 60 sec, and greater than 60 but less than less than 180 sec.(ABSTRACT TRUNCATED AT 250 WORDS)