The effect of estradiol-17 beta and actinomycin D on the release of PGF and PGE from separated cells of human endometrium

Estradiol-17 beta selectively stimulated the release of PGF from separated glandular but not stromal cells of human secretory endometrium (p less than 0.025) but had no effect on PGF release from either type of cells obtained from proliferative endometrium. PGE release was not affected by estradiol-17 beta. Actinomycin D did not antagonise the effect of estradiol-17 beta on PGF release from secretory, glandular cells. Basal release of PGF from these cells was stimulated by actinomycin D alone (100 ng/ml) (p less than 0.025) and PGE release stimulated in the presence of estradiol-17 beta. Actinomycin D had no effect on PGF or PGE release from proliferative endometrium. These findings suggest that estradiol-17 beta stimulates PGF release by a mechanism that does not affect PGE release and which is not dependent on the synthesis of new protein. The basal release of PGF and PGE by glandular cells of secretory endometrium in vitro is regulated by protein/proteins which reduce PG release.     

The release of PGF2 alpha and PGE2 from separated cells of human endometrium and decidua

The capacity of separated glandular and stromal cells from endometrium and first trimester decidua to release prostaglandins (PGs) was studied over 48 hours in culture. Glandular preparations released more PGs than stromal preparations in all tissues. Stromal release of PGs did not alter throughout the cycle or in early pregnancy but the capacity of glandular preparations to release PGs varied considerably. Proliferative glands released most PGF2 alpha and PGE2 followed by secretory glands and decidua. Histamine (10(-5)) stimulated PG release from endometrial and decidual glands but the response of proliferative glands was greatest. Actinomycin D stimulated release of PGF2 alpha and PGE2 from glandular cells of secretory endometrium and decidua. These results suggest that in vitro release of PGs is suppressed after ovulation and is in part due to inhibition of PG release by a protein or proteins synthesized in the glandular fraction of secretory endometrium or decidua.     

Prostaglandin production from homogenates of separated glandular epithelium and stroma from human endometrium

The biosynthesis of prostaglandins by isolated epithelial glandular and stromal cells was studied after collagenase digestion of endometrium collected from women at various stages of the menstrual cycle. Homogenates of the separate cell types were incubated for 60 minutes with 2.08 μg 1¹⁴C arachidonic acid and the products separated by thin layer chromatography. Both glandular and stromal homogenates synthesised PGF_2α. More PGF_2α was synthesised by glandular epithelium separated from both proliferative and secretory endometrium than by stroma. The ratio of PGF_2α/PGE₂ was greater in glands and stroma isolated from secretory than proliferative endometrium. Small but significant amounts of 6-keto-PGF₁α were produced by all cell types. These results suggest that the increased synthesis of PGF₂α from secretory endometrium is due, at least in part, to increased activity of cyclo-oxygenase enzyme in the glandular epithelium.     

The effect of cortisol on the synthesis of prostaglandins (PGF2 alpha, PGE2) by human endometrial fibroblasts in vitro with and without addition of estradiol-17 beta or progesterone

Cortisol is known as a potent inhibitor of phospholipase A2 activity in several tissues. In fibroblast monolayer cell cultures from proliferative human endometrium cortisol alone does not affect the basal PGF2 alpha or PGE2 synthesis. After stimulation of PGF2 alpha production by 10(-7) mol/l estradiol-17 beta increasing concentrations of cortisol up to 10(-5) mol/l dosedependently reduce the PGF2 alpha production. Also the progesterone (10(-4) mol/l) stimulated increase of PGF2 alpha and PGE2 synthesis is inhibited by cortisol (10(-7) mol/l).     

Considerations into the mechanism of estrogen-stimulated uterine prostaglandin synthesis

Progesterone priming of the ovariectomized rat, followed by a single injection of estradiol-17β (10 μg) is followed by an increased uterine synthesis of both PGF and PGE. The administration of an estrogen antagonist (MER-25; 10 mg) concomitantly with estradiol had no effect on uterine prostaglandin synthesis. Similarly, the administration of either Actinomycin D or cycloheximide, antibiotics demonstrated to inhibit mRNA and protein synthesis, respectively, is without effect on estrogen-stimulated uterine prostaglandin synthesis. These results are considered with regard to the classic receptor theory of estrogen action and are a preliminary indication that estrogen-stimulated uterine prostaglandin synthesis may not require those receptor mediated events.     

Effect of porcine conceptus secretory proteins on in vitro secretion of prostaglandins-F2 alpha and -E2 from luminal and myometrial surfaces of endometrium from cyclic and pseudopregnant gilts

Uterine endometrium collected from pseudopregnant (PP) and cyclic gilts on day (D) 15 after estrus were perifused in vitro with 10 ug/ml of porcine conceptus secretory proteins (pCSP) or serum proteins (SP) in Krebs ringer bicarbonate (KRB) buffer. In Experiment 1, samples were collected from luminal and myometrial surfaces of endometrium and concentrations of prostaglandin F2 alpha (PGF) determined by radioimmunoassay (RIA). Secretion of PGF by endometrium from cyclic gilts was stimulated (P less than .05) by pCSP. In Experiment 2, endometrium from D 14 cyclic and PP gilts was perifused and concentrations of PGF and prostaglandin E2 (PGE) in perfusate were determined by RIA. Across both statuses, luminal surface secretion of PGF was stimulated (P less than .05) by pCSP. Treatment with pCSP decreased secretion of PGE from myometrial surface of endometrium from cyclic gilts and increased (P less than .01) secretion of PGE from the myometrial surface of endometrium from PP gilts. In Experiment 3, pCSP were separated into acidic and basic fractions by anion exchange chromatography and each fraction was perifused separately over the luminal surface of endometrium from cyclic and PP gilts. Perifusion with acidic pCSP suppressed secretion of PGF by endometrium from cyclic or PP gilts; while basic pCSP did not influence secretion of PGF. These results demonstrated that products secreted by Day 15 pig conceptuses stimulate release of PGF and PGE from porcine uterine endometrium.     

Prostaglandin E and E2 alpha secretion by glandular and stromal cells of the pig endometrium in vitro: effects of estradiol-17 beta, progesterone, and day of pregnancy.

Prostaglandins (PGs) are believed to play important roles in the establishment of pregnancy. Glandular and stromal cells were isolated from pig endometrium on days 11 through 19 of pregnancy and cultured in the presence of estradiol-17 beta (E2) and progesterone (P4) to determine the effect of day of pregnancy and steroids on the secretion of PGE and PGF2 alpha. Estradiol at concentrations between .01 and 1 microM did not affect PGE and PGF2 alpha secretion into the medium by glandular and stromal cells. Progesterone (.1 microM) suppressed (P less than .001) PGE and PGF2 alpha production from both cell types. Glandular cells secreted more (P less than .01) PGF2 alpha than PGE, whereas stromal cells collected on days 11, 12, 13, and 19 secreted more (P less than .05) PGE than PGF2 alpha. Stromal cells isolated from tissues collected on day 13 of pregnancy produced PGs with higher (P less than .01) PGE:PGF2 alpha ratio than those from tissues harvested on other days of pregnancy. Glandular cells isolated from tissues collected on days 13 and 19 and stromal cells isolated from tissue collected on day 13 of pregnancy secreted more (P less than .05) PGE and PGF2 alpha than cells isolated on other days of pregnancy. We conclude that: 1) P4 has a suppressing effect on PG secretion; 2) endometrial glandular and stromal cells each produce a unique profile of PGs; and 3) endometrial cells harvested on different days of pregnancy secrete different amounts of PGE and PGF2 alpha.     

Effects of 17ß-estradiol and progesterone on the levels of prostaglandins F2α and E in human endometrium

17ß-estradiol and progesterone were administered to post-menopausal women to determine their effects on the capacity of human endometrium to synthesize prostaglandins (PGs) F₂α and E. Basal amounts of PGF₂α and PGE synthesized by endometrium exposed to 17ß-estradiol and progesterone were significantly higher than the levels produced by endometrium exposed to 17ß-estradiol alone (p < 0.02 for both PGs). Levels found in the former endometrium were broadly comparable to levels in secretory endometrium and in the latter to amounts found in proliferative endometrium of spontaneous, ovulatory cycles.     

Endothelin-1 stimulates prostaglandin F2 alpha release from human endometrium

Despite a key role in the pathogenesis of menorrhagia, the factors controlling the uterine vascular bed are poorly understood. This study has assessed the effects of the potent vasoconstrictor endothelin (ET)-1 on prostaglandin (PG) release from human endometrial explants in short-term culture. There was no significant difference between the production of PGF2 alpha in proliferative and secretory tissue (1709 and 2434 pg/mg/h--median values, range 70,3745 and 219,6700 pg/mg/h). Less PGE was released than PGF2 alpha, and the amount did not vary with the phase of the menstrual cycle (308 and 296 pg/mg/h (range 65,387 and 105,429) for proliferative and secretory tissue). ET-1 (10 and 100 nM) and arachidonic acid (AA, 30 microM), stimulated PGF2 alpha release from proliferative, but not secretory endometrium, by 78%, 86% (P less than 0.01) and 80% respectively, compared with control tissue. No effect was seen on PGE release. ET-1 may play a role in the local control of the endometrial vascular bed either directly, or via the release of PGF2 alpha.     

The effect of progesterone and human interferon alpha-2 on the release of PGF2 alpha and PGE from epithelial cells of human proliferative endometrium.

Progesterone and interferon-like trophoblastic proteins modulate prostaglandin (PG) synthesis from endometrium in early ovine and bovine pregnancy. Enriched epithelial cells were prepared from human endometrium removed in the proliferative phase of menstrual cycle (n = 8). Progesterone at a concentration of 1 microM suppressed PGE release from the cells during the first 24 hours in culture. After 48 hours in culture progesterone at a dose of 100 nM and 1 microM suppressed both the release of PGF2 alpha and PGE from the cells and this suppression was maintained for a further two days. Addition of exogenous 30 microM arachidonic acid (AA) abolished this effect of progesterone on both PGF2 alpha and PGE release. Interferon alpha-2 did not suppress the basal release of PGF2 alpha nor PGE. In the presence of progesterone, interferon alpha-2 attenuated the progesterone mediated suppression of PGF2 alpha but not PGE release from endometrial cells. These findings suggest that progesterone suppresses the basal release of PGs from human endometrium, but unlike the sheep, interferon alpha-2 does not exert this action on human endometrium.     

Effects of tumor necrosis factor-alpha on secretion of prostaglandins E2 and F2alpha in bovine endometrium throughout the estrous cycle

To determine the physiological significance of tumor necrosis factor-alpha (TNFalpha) in the regulation of endometrial prostaglandin (PG) release in cattle, we investigated the effects of TNFalpha on the secretion of PGE2 and PGF2alpha by bovine endometrium during the estrous cycle. Bovine uteri were classified into six stages (estrus: Day 0, early luteal 1: Days 2 to 3, early luteal 11: Days 5 to 6, mid-luteal: Days 8 to 12, late luteal: Days 15 to 17 and follicular: Days 19 to 21). After 1 h of pre-incubation, endometrial tissues (20 to 30 mg) were exposed to 0 or 0.6 nM TNFalpha for 4 h. The PGE2 concentrations in the medium were higher in the luteal stages than in the follicular stage and in estrus. In contrast, PGF2alpha concentrations were higher in the follicular stage and in estrus than in the luteal stages. The ratio of the basal concentrations of PGE2 and PGF2alpha (PGE2/PGF2alpha ratio) was higher in the luteal stages than in the follicular stage and in estrus. Although TNFalpha stimulated both PGE2 and PGF2alpha secretion during the entire period of the estrous cycle, the level of stimulation of TNFalpha on PGE2 output by the bovine endometrium does not show the same cyclical changes as that shown on PGF2alpha output. The stimulation of TNFalpha resulted in a decrease in the PGE2/PGF2alpha ratio only in the late luteal stage. Furthermore, TNFalpha stimulated PGE2 secretion in stromal, but not epithelial cells. The overall results suggest that TNFalpha is a potent regulator of endometrial PGE2 secretion as well as PGF2alpha secretion during the entire period of estrous cycle, and that TNFalpha plays different roles in the regulation of secretory function of bovine endometrium at different phases of the estrous cycle.     

Oxytocin-stimulated production of prostaglandin F2α by isolated endometrium of rabbit: Modulation by ovarian steroids

To test the hypothesis that ovarian steroid hormones modulate oxytocin-induced release of prostaglandin F_2α (PGF_2α) from uterine endometrium, 2 ovariectomized rabbits were pretreated with progesterone (5 mg/day for 10 days), 2 with estradiol-17β (25 μg/day for 10 days), 2 with both steroids, and one with sesame oil only. On the last day of treatment, endometrial fragments were excised and incubated in vitro with or without oxytocin (100 μU/ml). Although endometrium from rabbits pretreated with combined steroids released more PGF_2α immediately after excision than did tissue from animals pretreated with either steroid by itself, endometrium from animals pretreated with estrabdiol-17β alone released the most PGF_2α during sustained incubation in vitro. Moreover, only this tissue exhibited significant oxytocin-dependent release of PGF_2α. At the dosages used, progesterone completely antagonized both of these effects of estradiol-17β. The results support the hypothesis that ovarian steroid hormones regulate oxytocindependent release of PGF_2α from endometrial cells. A possible mechanism of action is suggested.     

Prostaglandin F2α, oxytocin and progesterone secretion by bovine luteal cells at several stages of luteal development: Effects of oxytocin, luteinizing hormone, prostaglandin F2α and estradiol-17β

Bovine luteal cells from Days 4, 8, 14 and 18 of the estrous cycle were incubated for 2 h (1 × 10⁵ cells/ml) in serum-free media with one or a combination of treatments [control (no hormone), prostaglandin F₂α (PGF), oxytocin (OT), estradiol-17β (E) or luteinizing hormone (LH)]. Luteal cell conditioned media were then assayed by RIA for progesterone (P), PGF, and OT. Basal secretion of PGF on Days 4, 8, 14 and 18 was 173.8 ± 66.2, 111.1 ± 37.8, 57.7 ± 15.4 and 124.3 ± 29.9 pg/ml, respectively. Basal release of OT and P was greater on Day 4 (P<0.01) than on Day 8, 14 and 18 (rmOT: 17.5 ± 2.6 versus 5.6 ± 0.7, 6.0 ± 1.4 and 3.1 ± 0.4 pg/ml; P: 138.9 ± 19.5 versus 23.2 ± 7.5, 35.4 ± 6.5 and 43.6 ± 8.1 ng/ml, respectively). Oxytocin increased (P<0.01) PGF release by luteal cells compared with control cultures irrespective of day of estrous cycle. Estradiol-17β stimulated (P<0.05) PGF secretion on Days 8, 14 and LH increased (P<0.01) PGF production only on Day 14. Prostaglandin F₂α, E and LH had no effect on OT release by luteal cells from any day. Luteinizing hormone alone or in combination with PGF, OT or E increased (P<0.01) P secretion by cells from Days 8, 14 and 18. However on Day 8, a combination of PGF + OT and PGF + E decreased (P<0.05) LH-stimulated P secretion. These data demonstrate that OT stimulates PGF secretion by bovine luteal cells in vitro. In addition, LH and E also stimulate PGF release but effects may vary with stage of estrous cycle.     

Age-, cycle- and topographic dependency of human myometrial prostaglandin (6-keto-PGF1a, PGF2a)-synthesis in vitro

Specimens of human myometrium (isthmus and fundus) freshly obtained at hysterectomy were immediately transferred in ice cold Tyrode solution and placed in superfusion chambers. Spontaneous contractions were recorded, the effluent of the myometrium was analyzed for PGF2a and 6-keto-PGF1a by use of specific radioimmunoassay systems. Dating of the menstrual cycle was achieved by histological evaluation of the endometrium.The PG release rates expressed as ng/min/g wet weight were correlated to the patients age and to the phase of the menstrual cycle. The production rates of 6-keto-PGF1a were negatively correlated to the age of the patients and declined in fundus specimens from 2.89 ± 0.35 ng/min/g wet weight in 39–42 years old patients to 0.52 ± 0.17 ng/min/g wet weight in 48–52 years old women during the secretory phase (p< 0.001). Similar significant correlations were found in specimens obtained from the isthmus uteri.During the proliferative phase fundus specimes produced on average 1.61 ± 0.67 ng/min/g wet weight in 39–42 years old patients and0.49 ± 0.12 n/min/g weight 6-keto-PGF1a in 48–52 years old women respectively (p < 0.001).The PGF2a synthesis in myometrial specimens of fundus or isthmus origin was significantly lower than 6-keto-PGF1a and did not correlate to the age of the patients during the proliferative phase. However, PGF2a release rates during the secretory phase were significantly (p < 0.001) higher in younger women.These results suggest an age-, cycle- and topographic dependency of PGI2 synthesis in human myometrial tissue.     

A possible role of prostaglandin E2 in reproduction of the male water frog, Rana esculenta. In vivo and in vitro studies.

Plasma prostaglandin E2 (PGE2), prostaglandin F2 alpha (PGF2 alpha), androgens and estradiol-17 beta were measured in the male water frog, Rana esculenta, during the annual sexual cycle. In vivo experiments were carried out to study the effects of PGE2 and PGF2 alpha on plasma sex steroids during the following periods: prereproduction (April), reproduction (May), postreproduction (June) and recovery (October). In the same months, in vitro experiments were performed to evaluate the effects of these two prostaglandins (PGs) on testicular release of sex steroids. The PGE2 plasma levels peaked in April. PGE2 treatment in vivo increased androgens in April and October, while PGF2 alpha increased estradiol-17 beta in June and October. In in vitro experiments, PGE2 increased androgens in April, while PGF2 alpha increased estradiol-17 beta in October. These results suggest that PGE2 could induce the breeding activity, probably through androgens synthesis. PGF2 alpha could interrupt the breeding, through estradiol-17 beta secretion.     

Cell-type specific responses in prostaglandin secretion by glandular and stromal cells from pig endometrium treated with catecholestrogens, methoxyestrogens and progesterone.

The pig conceptus and endometrium possess the ability to convert estrogens into catecholestrogens and catecholestrogens into methoxyestrogens. Experiments were carried out to evaluate the effect of catecholestrogens, methoxyestrogens and progesterone on the secretion of prostaglandin (PG) E and F2 alpha by porcine endometrial glandular and stromal cells in vitro. Both 2-hydroxyestradiol (2-OH-E2, 0-20 microM) and 4-hydroxyestradiol (4-OH-E2, 0-20 microM) increased (P less than .05) PGE and PGF2 alpha secretion by stromal cells in a dose response manner. Two-hydroxyestradiol tended (P less than .1) to decrease PGF2 alpha production by glandular cells. Two-methoxyestradiol (20 microM) suppressed (P less than .05) PGF2 alpha secretion by glandular and stromal cells. Four-methoxyestradiol (20 microM) stimulated (P less than .05) PGE production and PGE:PGF2 alpha ratio. Progesterone (.1 microM) suppressed (P less than .05) PG secretion in both cell types. We conclude that catecholestrogens, methoxyestrogens, and progesterone may participate in the establishment of pregnancy by modulating PG production in the endometrium.     

Oxytocin-stimulated production of prostaglandin F2alpha by isolated endometrium of rabbit: modulation by ovarian steroids

To test the hypothesis that ovarian steroid hormones modulate oxytocin-induced release of prostaglandin F2alpha (PGF2alpha) from uterine endometrium, 2 ovariectomized rabbits were pretreated with progesterone (5 mg/day for 10 days), 2 with estradiol-17 beta (25 microgram/day for 10 days), 2 with both steroids, and one with sesame oil only. On the last day of treatment, endometrial fragments were excised and incubated in vitro with or without oxytocin (100 muU/ml). Although endometrium from rabbits pretreated with combined steroids released more PGF2alpha immediately after excision than did tissue from animals pretreated with either steroid by itself, endometrium from animals pretreated with estradiol-17 beta alone released the most PGF2alpha during sustained incubation in vitro. Moreover, only this tissue exhibited significant oxytocin-dependent release of PGF2alpha. At the dosages used, progesterone completely antagonized both of these effects of estradiol-17 beta. The results support the hypothesis that ovarian steroid hormones regulate oxytocin-dependent release of PGF2alpha from endometrial cells. A posible mechanism of action is suggested.     

Regulation of heat shock-induced alterations in the release of prostaglandins by the uterine endometrium of cows

Maternal heat stress in cattle may disrupt pregnancy by elevating uterine prostaglandin F(2alpha) (PGF(2alpha)) secretion. The objectives of this study were to determine the effects of elevated temperature (42 degrees C) in vitro upon 1) prostaglandin secretion by endometrial tissue; 2) the actions of extracellular regulators of uterine PGF [conceptus secretory proteins (bCSPs) and platelet-activating factor, (PAF)]; 3) the activity of the cyclooxygenase-endoperoxidase enzyme complex (PG synthetase); and 4) the activity of the endometrial PG synthesis inhibitor present in the endometrium from pregnant cattle. Endometrial explants at Day 17 of the estrous cycle produced more PGF than PGE(2) while elevated temperature caused increased PGF secretion but did not affect PGE(2) secretion. Elevated temperature did not reduce the ability of bCSPs or PAF to suppress release of PGF. The heat shock-induced increase in PGF at Day 17 was not due to the direct effects on PG synthetase, because PGF production from a cell-free cotyledonary microsomal enzyme preparation was reduced at elevated temperature. The activity of the cytosolic inhibitor of cyclooxygenase present in the endometrium of Day-17 pregnant cows could be reduced but not eliminated at 42 degrees C. We conclude that in vitro heat stress induces PGF secretion from the bovine uterine endometrium at Day 17 after estrus. This increase is not accompanied by the loss of regulatory capacity of conceptus products or increased activity of PG synthetase.     

Effects of 17 beta-estradiol and progesterone on the levels of prostaglandins F2 alpha and E in human endometrium

17 beta-estradiol and progesterone were administered to post-menopausal women to determine their effects in vivo on the capacity of human endometrium to synthesize prostaglandins (PGs) F2 alpha and E. Basal amounts of PGF2 alpha and PGE synthesized by endometrium exposed to 17 beta-estradiol and progesterone were significantly higher than the levels produced by endometrium exposed to 17 beta-estradiol alone (p less than 0.02 for both PGs). Levels found in the former endometrium were broadly comparable to levels in secretory endometrium and in the latter to amounts found in proliferative endometrium of spontaneous, ovulatory cycles.     

Zonal heterogeneity of prostaglandin and thromboxane release in the dog kidney

The release of prostaglandin(PG) and thromboxane(TX) was examined in the six different areas of the normal dog kidney, i.e., renal arterial and venous strips(RA and RV), superficial and deep cortical slices (SC and DC) and outer and inner medullary slices(Om and IM). These tissues were incubated in Krebs-bicarbonate buffer(pH 7.4, 37°C), and the released PGE2, PGF2α, 6-keto-PGF1α and TXB2(as stable metabolites of PG12 and TXA2, respectively) were determined by radioimmunoassay. In RA, RV, SC and DC, 6-keto-PGF1α was predominant, however, there were no quantitative differences between RA and RV, or SC and DC. The release of 6-keto-PGF1α reached a maximum in IM, similar to findings on the release of PGE2 and PGF2α. The release of TXB was uniform in OM and IM. The amount of PGE2, PGF2α, 6-keto-PGF1α and TXB2 released from IM was 2800, 400, 60 and 50 times higher, respectively, than the extent of the release from the cortical slices.These results suggest that PG12 as well as PGE2 and PGF2α, may be involved in renal PG, and that TXA2 is biosynthesized in the normal dog kidney.