Effect of relaxin on aromatase activity in human endometrial stromal cells

Previous studies have shown that the aromatase activity in human endometrial stromal cells was stimulated by progestin and enhanced by estrogen and forskolin (Fk), an agent that stimulates the accumulation of intracellular cAMP. Present study was undertaken to investigate whether any peptide hormone would affect endometrial aromatase activity. Stromal cells were isolated from normal proliferative and secretory endometria and cultured in nutrient medium. Porcine relaxin (RLX) was added to culture medium individually or in combination with medroxyprogesterone acetate (MPA) and estradiol (E2). Cells treated with RLX alone did not affect the aromatase activity. RLX, however, exerted a synergistic effect on aromatase activity in the presence of MPA or MPA plus E2. On the other hand, human CG, epidermal growth factor, human PRL, and insulin did not increase the aromatase activity in the presence or absence of MPA and E2 studied in a limited number of specimens. The progestin-dependent effect of RLX on aromatase activity was dose dependent indicating that the biological effect of RLX is mediated through a saturable mechanism. When RLX was added to MPA-pretreated cells, additional increase of aromatase activity was seen after 24 h incubation indicating that the action of RLX on stromal cells is not an acute effect. Antiprogestin, RU486, inhibited the stimulation of aromatase activity in both MPA and MPA plus RLX treated cells. RLX has either no effect or a moderate increase (up to 2-fold over the control) on intracellular cAMP content. On the other hand, Fk increased the intracellular cAMP level and enhanced the aromatase activity in the presence of progestin. Also RLX did not replace the effect of Fk since additional increase of aromatase activity was noted when stromal cells were incubated with MPA plus RLX plus Fk in comparison to MPA plus RLX or MPA plus Fk. These results suggest that the action of RLX on stromal cells may be mediated through an intracellular messenger independent of cAMP. Present studies provide evidence that RLX exerts a synergistic effect on aromatase activity in the presence of progestin in human endometrial stromal cells. It is evident that human endometrium is a target organ of RLX.     

Differential effects of progestin and relaxin on the synthesis and secretion of immunoreactive prolactin in long term culture of human endometrial stromal cells

PRL secretion from human endometrium is a continuous process extending from the luteal phase of the menstrual cycle throughout the entire gestational stage. We have developed a long term primary cell culture system to elucidate the hormonal requirements for this sustained production of PRL. The effects of medroxyprogesterone acetate (MPA), progesterone, and relaxin (RLX) on the production of immunoreactive PRL were investigated. MPA stimulated cell growth and PRL production rate during days 5-20 of culture. Progesterone was 20-40% less effective in stimulating PRL than MPA. Stimulation of PRL was continued 1-2 weeks after MPA withdrawal. Relaxin did not promote cell growth. However, it induced the PRL production which fluctuated during the long term culture. The maximal response to RLX was 2- to 3-fold higher or similar to that of MPA. Only five of nine endometrial specimens examined responded to RLX alone. The effect of MPA plus RLX was significantly greater than that of MPA or RLX alone. The highest production rate was shown in cells treated with MPA and then RLX in sequence. After a month of culture, the production rates (micrograms of PRL per 0.1 mg cell DNA/day) under various culture conditions (A, control; B, MPA; C, MPA for 10-15 days and no hormone afterward; D, both MPA and RLX; and E, MPA and RLX in sequence) were: A, about 0-0.01 (n = 12); B, 2.5 +/- 0.9 (n = 8); C, 4.8 +/- 2.5 (n = 8); D, 5.7 +/- 3.0 (n = 5); and E, 11 +/- 3.7 (n = 7); mean +/- SD; n, number of specimens). Endometrial stromal cells were incubated with [35S]methionine, and [35S]immunoreactive PRL and other secretory proteins were analyzed on sodium dodecyl sulfate-polyacrylamide gel electrophoresis to characterize the size and isoforms of immunoreactive PRL. PRL was one of the five major secretory proteins (23-25K, 32K, 42K, 78K, and 150K daltons, sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing condition) induced by MPA and RLX in endometrial stromal cells. More than 90% of immunoreactive PRL was secreted into the medium. The apparent mol wt of immunoreactive PRL were 21K, 23K (the predominant size), and 25K daltons. Results obtained from the incorporation of [14C]glucosamine into immunoreactive PRL indicated that both 23K and 25K PRL contained glycosylated PRL. A 45K-dalton glycosylated immunoreactive PRL was also present in the culture medium.(ABSTRACT TRUNCATED AT 400 WORDS)     

Regulation of insulin-like growth factor-binding protein-1 synthesis and secretion by progestin and relaxin in long term cultures of human endometrial stromal cells.

The decidualized endometrium during the first trimester of pregnancy synthesizes and secretes a 32-kDa insulin-like growth factor-binding protein (termed hIGFBP-1) at high levels. IGFBP-1 is the major soluble protein product of this tissue and is principally localized to the differentiated endometrial stromal cell, the decidual cell. In the present study long term culture of stromal cells from the nonpregnant endometrium have been employed to elucidate the hormonal requirements for IGFBP-1 production. Immunoreactive IGFBP-1 was undetectable in control cultures. However, inclusion of medroxyprogesterone acetate (MPA) induced rates of 0.35 +/- 0.09 microgram/0.1 mg cell DNA.day (mean +/- SEM; n = 5) after 20-30 days. In these cultures cells exhibited morphological changes consistent with decidual cell differentiation. In all cultures removal of MPA after exposure for 10-16 days, with or without subsequent inclusion of relaxin (RLX), increased production of IGFBP-1 450- to 4600-fold to rates of 150-710 micrograms/0.1 mg cell DNA.day or 26-131 micrograms/10(6) cells.day on days 24-26. The rates tended to be higher with the inclusion of RLX and were sustained in contrast to cultures without RLX, where rates fell by day 30. Individual cultures responded differently to RLX when added from the initiation of culture, with either a response similar to MPA alone or a cyclical change in production, achieving maximal rates of 190-290 micrograms/0.1 mg cell DNA.day. Cultures in which RLX alone induced high IGFBP-1 high production were obtained from endometrium during the progesterone-dominated luteal phase. In cultures exhibiting high rates of immunoreactive IGFBP-1 production, the protein represented their major secretory protein product. This was confirmed by [35S]methionine incorporation and the presence of IGFBP-1 as the predominant protein in serum-free culture medium. The immunoreactive IGFBP-1 isolated from culture medium was found to be identical, by a number of criteria, with IGFBP-1 derived from decidual tissue. These results were consistent with a primary role of progestin exposure, whether in vivo or in vitro, in converting endometrial stromal cells to cells potentially able to exhibit the high rates of IGFBP-1 production typical of the decidualized endometrium of pregnancy.     

Modulation of aromatase activity in human endometrial stromal cells by steroids, tamoxifen and RU 486

The regulation of aromatase activity (AA) in human endometrial stromal cells by various steroids was studied in primary cell culture. Various progestins, but not androgens or glucocorticoids, stimulated AA. Medroxyprogesterone acetate (MPA) was the most potent progestin. Estrogen (E) alone did not change the activity but it potentiated the stimulation of AA by progestin. Biphasic regulation of AA by progestin was noted in both time- and dose-dependent manners. Endometrial AA was stimulated by MPA and reached the maximum rate between 2-5 days of incubation with subsequent decline of AA in prolonged culture. When stromal cells were treated with MPA (0.03 to 30 microM) for 3 days, AA was increased over the control at all the concentrations tested. The maximum was found at doses between 0.1-1 microM. The activities reduced steadily from the maximum stimulation to less than 50% when the concentration of MPA increased from 1-30 microM. In addition, initial treatment of stroma cells with MPA (1-3 days) resulted in further increase of activity after progestin withdrawal. The enhancement of the induction of AA by E did not alter the biphasic pattern regulated by progestin alone, i.e. E enhanced both the stimulation and the decay of AA. The time study of the effect of E showed that enhancement of AA required at least 10 h of incubation of E with MPA conditioned cells. The effect of E is dose dependent between 0.04-40 nM and shows the greatest effect in the presence of MPA between 0.01-1 microM. The optimal concentrations of E and progestin that stimulate AA in culture are similar to the plasma concentrations after pregnancy, suggesting that the physiological function of the endometrial aromatase is at the time of decidualization. The effects of antiprogestin, Ru 486, and antiestrogen, tamoxifen (TAM), on AA were studied. Ru 486 or TAM alone did not alter AA. Ru 486 inhibited the MPA stimulated AA in a dose-dependent manner suggesting that the effect of progestin may be mediated through a receptor mechanism. Enhancement, but no inhibitory effect, was observed when cells were treated with TAM + MPA and TAM + MPA + E. The effectiveness of Ru 486 to inhibit the induction of AA in endometrial cells may be of primary importance for contraception.     

Progestin effect on cell proliferation and 17 beta-hydroxysteroid dehydrogenase activity in normal human breast cells in culture

In contrast to cancer cell lines, normal human breast epithelial cells are infrequently studied. Such cells, now routinely cultured in our laboratory from tissue obtained at the time of reduction mammoplasty, were used to study the actions of estradiol (E2), the progestin promegestone (R5020), and the antiprogesterone RU486 on cell growth and progesterone-dependent 17 beta-hydroxysteroid dehydrogenase (E2DH) activity, which is considered good marker of epithelial differentiation as well as progesterone dependency. The studies were carried out using secondary cultures to assure equal initial cell distribution. Cell growth was estimated daily by a histometric method providing a growth index and DNA assay. E2 stimulation of cell growth was not found when the cells were grown in our usual culture medium, but E2 dose-dependent growth stimulation occurred in medium minimally supplemented with serum (1%), insulin; and epidermal growth factor. R5020 inhibited cell growth and stimulated E2DH activity in a dose-dependent manner. RU486 behaved as a pure but low potent progestin agonist concerning E2DH stimulation, but as an agonist with partial antagonist properties concerning cell growth inhibition. In conclusion, E2 stimulated proliferation of human breast epithelial cells in culture, whereas the progestin R5020 inhibited cell multiplication and favored differentiation. The antiprogesterone RU486 had a biphasic effect acting both as progestin agonist and partial antagonist.     

Ovarian control of pituitary hormone secretion in early human pregnancy

To determine the influence of ovarian relaxin on the secretion of pituitary GH and PRL in vivo, we evaluated circulating serum hormone levels in 17 pregnant patients with functional corpora lutea (group I) and compared them to levels in 10 patients with premature ovarian failure (POF; group II) who became pregnant with egg donation and did not have corpora lutea. Group II patients had exogenous hormonal support. Serum relaxin (RLX), GH, PRL, estradiol (E2), and progesterone levels were measured weekly by RIA from weeks 4-8 of pregnancy. Analysis of variance and covariance were used to determine hormonal relationships. Serum RLX was present in the natural pregnancy group, with a mean of 1.94 micrograms/L over the study period. Serum RLX was undetectable in the POF patients (less than 0.16 micrograms/L). No significant difference in PRL or progesterone levels between the two groups was noted. E2 levels showed an upward trend in both groups with time and were significantly higher in patients of the POF group than in group I women (P = 0.001). GH levels were significantly higher in the natural cycle patients (P = 0.02) despite lower E2 levels. These data provide additional support for the concept that RLX production in early pregnancy originates from the corpus luteum. They suggest that a luteal product, probably RLX, stimulates GH secretion in early pregnancy. This is a previously undescribed role for RLX in pituitary physiology during human pregnancy.     

Assessment of VEGF-receptor system expression in the porcine endometrial stromal cells in response to insulin-like growth factor-I, relaxin, oxytocin and prostaglandin E2

Several factors participate in regulation of growth and development as well as angiogenesis of the uterus during pregnancy, and hence little is known about the role of hormonal regulation of vascular endothelial growth factor (VEGF)-receptor system expression. This study has examined the effect of insulin-like growth factor-I (IGF-I), relaxin (RLX), oxytocin (OT) and prostaglandin (PG) E(2), on VEGF secretion and VEGF-receptor system mRNA expression in the porcine endometrial stromal cells. IGF-I and RLX were identified as the most effective inducers of VEGF secretion and mRNA expression. Although PGE(2) stimulated VEGF secretion and VEGF164 mRNA expression, OT inhibited both secretion and mRNA expression of VEGF. When tested for VEGF receptors (R), all factors failed to affect their mRNA expression. Media conditioned by stromal cells collected after IGF-I and RLX treatment significantly increased endothelial cell proliferation and this effect was blocked by soluble VEGFR-1. These data suggest that during early pregnancy IGF-I, RLX and PGE(2) can affect VEGF expression in the endometrium and therefore may support uterine and embryo development, implantation and pregnancy.     

Divergent effects of antiprogesterone, RU 486, on progesterone, relaxin, and prolactin secretion in pregnant and hysterectomized pigs with aging corpora lutea

Porcine corpora lutea produce progesterone and relaxin during pregnancy and after hysterectomy. Peak amounts of relaxin are released into peripheral blood in both pregnant and hysterectomized animals on about day 113 (estrus = day 0 and term = 114), and this release coincides with an abrupt decrease in the progesterone concentration. RU 486, a progesterone receptor antagonist, was used to investigate the effects of interruption of progesterone binding to its receptor on luteal function and gonadotropin secretion of pigs with aging corpora lutea. RU 486 was administered orally to hysterectomized gilts (surgery on day 8) once a day (0800 h) on days 111-115 at two dosages (group 1, 2 mg/kg BW; group 2, 4 mg/kg BW). During 5 days of RU 486 treatment, plasma progesterone concentrations in both treated groups were markedly elevated (32 and 37 ng/ml for groups 1 and 2) compared with 22 ng/ml in the controls (group 3; P less than 0.01). PRL concentrations increased in both groups (9 and 13 ng/ml) and differed significantly from those of the controls (3 ng/ml) (P less than 0.04). RU 486 treatment delayed the time of relaxin peak to days 116.1 and 117.0 in groups 1 and 2 compared with day 114.1 in the controls (P less than 0.01). Pregnant gilts received RU 486 orally once a day (0800 h) at 4 mg/kg BW beginning on day 111 until parturition occurred. Parturition was induced on day 112.7 after only two RU 486 treatments compared with day 114.7 in the control group (P less than 0.01). Progesterone decreased abruptly from a pretreatment mean of 11 to less than 0.6 ng/ml during the 2 days that RU 486 was given compared with a shift from 12 to 6 ng/ml during the same period in the controls (P less than 0.01). The time of the relaxin peak was advanced to day 112.1 in RU 486-treated gilts compared with day 113.9 in the controls (P less than 0.01). Results from this study provide strong evidence that the antagonistic effect of RU 486 on progesterone receptor results in an abrupt increase in PRL and progesterone secretion in hysterectomized gilts with aging corpora lutea. In marked contrast with hysterectomized animals, the acute luteolytic effects of RU 486 depend on the presence of the uterus and/or conceptuses in the pig. Disruption of the regulatory loop of progesterone secretion by RU 486 alters the ability of corpora lutea to produce and release peak quantities of relaxin.     

The effect of the antiprogestins RU 486 and ZK 98734 on the synthesis and metabolism of prostaglandins F2 alpha and E2 in separated cells from early human decidua

Enriched preparations of glandular and stromal cells were obtained from early human decidua and incubated for 24 h in the presence of two progesterone antagonists, RU 486 (17 beta-hydroxy-11 beta-[4-dimethylaminophenyl]17 alpha-[1-propynyl]-estra-4,9-dien-3-one) and ZK 98734 (17 beta-hydroxy-11 beta-4[4-dimethylaminophenyl]17 alpha-[3-hydroxy-1-propynyl]estra-4,9-dien-3-one) to determine the effect of the antiprogestins on the release of prostaglandin F2 alpha (PGF2 alpha) and PGE2 and their subsequent conversion to 15-keto-13,14-dihydro-PGF2 alpha and 15-keto-13,14-dihydro-PGE2. In the presence of exogenous arachidonic acid (AA, 30 microM), both steroids stimulated PGF2 alpha release by glandular, but not stromal, cells (P less than 0.001) and inhibited the metabolism of PGF2 alpha by the glandular fraction (P less than 0.005 and P less than 0.001 respectively). In the absence of exogenous AA, RU 486 and ZK 98734 stimulated the release of PGF2 alpha from glandular, but not stromal, cells (P less than 0.001 and P less than 0.005, respectively). Neither steroid altered the release or metabolism of PGE2 when the cells were incubated with AA, but both RU 486 and ZK 98734 increased the release of PGE2 by glandular, but not stromal, cells when incubated without AA (P less than 0.005 and P less than 0.001, respectively). Both steroids inhibited the metabolism of PGE2 under these conditions (P less than 0.05). These results suggest that 1) antiprogestins stimulate the synthesis of PGs by glandular cells in early human decidua, but do not alter the synthesis of PGs by stromal cells; 2) this stimulation of PG synthesis involves an effect on cyclooxygenase activity and is not a consequence of increased availability of endogenous AA; 3) the metabolism of PGs by glandular cells is altered by RU 486 and ZK 98734; 4) as RU 486 has greater antiglucocorticoid activity than ZK 98734, these results suggest that both steroids act on decidua by antagonizing endogenous progesterone rather than glucocorticoid activity.     

RU486, a progestin and glucocorticoid antagonist, inhibits the growth of breast cancer cells via the progesterone receptor

The progestin and glucocorticoid antagonist RU486 was tested on the growth of several cell lines in culture. RU486 inhibited the growth of two progesterone receptor (RP) positive human breast cancer cell lines (MCF7 and T47D). The antiproliferative effect was dose dependent and its magnitude correlated with the RP content of the tested cells (T47D greater than estradiol-primed MCF7 greater than withdrawn MCF7). Cell growth inhibition was not prevented by the addition of dexamethasone, dihydrotestosterone, or estradiol, but the cells were rescued by low concentrations of the progestin R5020. RU486 had no effect on the growth of two RP negative human breast cancer cell lines and a rat fibroblast cell line. Moreover, RU486 had no progestin agonist activity in T47D cells when evaluated by measuring the 35S-labeling of two progestin-regulated proteins with mol wts of 48,000 and 250,000, but it totally prevented the induction of these two proteins by R5020. In conclusion, RU486 selectively inhibited the growth of human breast cancer cell lines with unoccupied RP sites and its effect was correlated with the RP concentration of these cells. We propose that RU486 is a RP-targeted drug of potential utility in breast cancer treatment.     

Relaxin and prostaglandin E(2) regulate interleukin 11 during human endometrial stromal cell decidualization

Decidualization of endometrial stromal cells and IL-11 signaling are essential for embryo implantation in the mouse. We investigated the effects of relaxin (RLX) and prostaglandin E(2) (PGE(2)) on IL-11 secretion by human endometrial stromal cells (HESC) and during cAMP or medroxyprogesterone acetate (P)-induced decidualization. cAMP-decidualized HESC secreted high levels of IL-11. RLX, cAMP, or PGE(2) increased IL-11 mRNA and IL-11 secretion, with maximal response to RLX and cAMP. Addition of the cAMP/protein kinase A inhibitor Rp-adenosine-3,5-cyclic-monophosphorothioate to either RLX- or PGE(2)-treated cells decreased IL-11 secretion. Indomethacin treatment decreased IL-11 secretion, which was largely restored by cotreatment with PGE(2) or RLX. Cotreatment of HESC with RLX, PGE(2), or cAMP and estrogen plus P down-regulated IL-11 mRNA and IL-11 secretion at 24 h, before secretion of prolactin (decidualization marker). Addition of W147AIL-11 (IL-11 signaling inhibitor) reduced prolactin secretion stimulated by RLX or PGE(2) and estrogen plus P. This is the first demonstration that cAMP-decidualized HESC secrete IL-11 and that IL-11 mRNA and IL-11 secretion are regulated by RLX and PGE(2), partly via a cAMP/protein kinase A-dependent pathway. Blocking IL-11 signaling reduced RLX+P- or PGE(2)+P-induced decidualization, suggesting that RLX and PGE(2) act via IL-11. This is important in understanding implantation and regulation of fertility.     

Immunocytochemical localization of prolactin and relaxin C-peptide in human decidua and placenta

The production of PRL by the human decidua is generally accepted, but the production of relaxin by this tissue is not. The two hormones were localized in decidual tissue using the avidin-biotin immunoperoxidase procedure with antisera to human PRL and to a synthetic 14-amino acid sequence of the connecting peptide of human relaxin (hCp14). The object of using the hCp14 antiserum was to verify relaxin production by the detection of C-peptide and/or prorelaxin. Cells of the parietal decidua adherent to the fetal membranes stained with both antisera, and immunostaining for both hormones in the same cell was seen. Also, the decidua-like cells of the placental basal plate stained with both antisera. The chorionic cytotrophoblast stained with the antiserum to hCp14, but not the antiserum to human PRL, whereas the placental syncytiotrophoblast stained for PRL and/or human placental lactogen (hPL), but not hCp14. The PRL staining in all tissues was lost when anti-PRL serum absorbed with human placental lactogen (hPL) was used. This finding suggests that the antiserum to PRL could not distinguish between PRL and hPL. It appears, therefore, that the parietal decidua cells and the decidua-like cells of the placental basal plate may be capable of producing both relaxin and PRL, while the syncytiotrophoblast produces hPL and possibly PRL.     

Stimulation of arylsulfotransferase activity by progestins in human endometrium in vitro

The effect of progestin on the rate of estradiol (E2) sulfurylation in human endometrium was studied in two culture systems: 1) in intact endometrial tissue fragments and 2) in isolated endometrial epithelial glands and stromal cells. Human endometrial tissue fragments were cultured in medium in the presence and absence of progesterone (P) for 24-48 h. The arylsulfotransferase activity was determined in the cytosol of the tissue homogenate by measuring the rate of conversion of E2 to E2-3 sulfate (E2S) in the presence of an excess amount of substrate and cofactor (adenosine-3'-phosphate-5'-phosphosulfate). The enzyme activity was found to be stimulated in the sample cultured with P. The increase in activity correlated with the dose of P and period of culture. Stimulation of endometrial estradiol dehydrogenase activity by P, which has been reported in a series of previous publications, was also evident in the current study. Human endometrial glandular epithelial and stromal cells were cultured separately in medium in the presence and absence of medroxyprogesterone acetate (MPA). The cultured cells were incubated with E2 (0.4-0.6 nM) for 2 h. The formation of estrogen sulfates, [estrone sulfate (E1S) and E2S] was greatly increased in all the proliferative glandular epithelial cells cultured with MPA. However, the rate of sulfurylation was not appreciably affected by MPA in stromal cells and in glandular epithelial cells from secretory endometrium. The oxidation of E2 in these cultured cells was also influenced by P but not to the extent of sulfurylation. These results indicate that arylsulfotransferase in endometrium originates from glandular epithelial cells and can be stimulated by progestin.     

Studies on the conditions determining the inhibitory effect of somatostatin on adrenocorticotropin, prolactin and thyrotropin release by cultured rat pituitary cells

Somatostatin (SRIH) is a physiological inhibitor of growth hormone (GH) secretion, but its role in the regulation of adrenocorticotropic hormone (ACTH), prolactin (PRL) and thyroid-stimulating hormone (TSH) release is unclear. SRIH (1 pM to 1 microM) did not affect basal and corticotropin-releasing hormone (CRH)-stimulated ACTH release by normal rat pituitary cells cultured in medium with 10% fetal calf serum (FCS). In cells deprived of serum for 48 h, or preincubated with the glucocorticoid-receptor-blocking agent, RU 38486, CRH-stimulated ACTH release was significantly suppressed by 1 pM to 0.10 nM SRIH. Preincubation with 5 nM dexamethasone completely abolished this inhibitory effect of SRIH on ACTH release. PRL release by pituitary cells cultured in phenol red-free culture medium with 10% estrogen-stripped FCS showed a very low sensitivity to SRIH. Increasing concentrations of 10 and 50 pM and 1 nM estradiol made PRL release by these cells significantly less sensitive to 50 nM dopamine, whereas the sensitivity to SRIH increased to a similar extent. In all instances dopamine and SRIH together exerted additive inhibitory effects, the extent of which remained similar under all conditions. After a 2-hour incubation, thyrotropin-releasing hormone-stimulated TSH secretion was significantly suppressed by 100 nM and 1 microM SRIH only in cells cultured in medium with 10% hypothyroid serum, and not in cells cultured in medium with 10% FCS. Such a difference in the sensitivity of thyrotrophs to SRIH disappeared during longer incubation. Conclusions: (1) ACTH release by normal corticotrophs is only sensitive to SRIH in the absence of the physiological peripheral feedback regulation by glucocorticoids.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dickkopf-1, an inhibitor of Wnt signaling, is regulated by progesterone in human endometrial stromal cells

CONTEXT: Some members of the Wnt family, including ligands, receptors, inhibitors, and signaling components, are expressed in human endometrium. Dickkopf-1 (Dkk-1), a potent inhibitor of the Wnt signaling pathway, was recently found to be up-regulated in decidualizing endometrial stromal cells during the secretory phase of the menstrual cycle, suggesting regulation by progesterone. OBJECTIVES: To test the hypothesis that progesterone regulates Dkk-1 expression in human endometrial stromal cells, we investigated the following effects on stromal cell expression of Dkk-1 mRNA and protein: decidualizing stimuli (progesterone or cAMP), RU486 (an inhibitor of progesterone action), and withdrawal of progesterone. RESULTS: Short-term treatment (up to 72 h, which corresponds to the full decidualized phenotype in response to cAMP and an early response to progesterone) did not reveal regulation of Dkk-1 mRNA or protein by cAMP but did show induction of Dkk-1 expression when the cells were treated with progesterone, an effect that was blocked by RU486. In long-term cultures (from 14 to 23 d, which corresponds to the full decidualized phenotype in response to progesterone), a significant increase in Dkk-1 mRNA and protein production was observed. Addition of RU486 or withdrawal of progesterone after long-term decidualization resulted in a decrease of Dkk-1 mRNA and protein to control levels. Estradiol alone had no effect on stromal Dkk-1 expression. CONCLUSIONS: These data strongly support regulation by progesterone of Dkk-1 mRNA synthesis and protein expression in human endometrial stromal cells and that the response is specific for progesterone and independent of cAMP and estradiol.     

Transit of normal rat uterine stromal cells through G1 phase of the cell cycle requires progesterone-growth factor interactions

Understanding of cell cycle regulation in hormonally responsive cells lags behind studies in other systems because few models have been available to identify the role of steroid hormones and their receptors in this process. This study investigates progesterone-dependent effects on the progression of normal uterine stromal cells through early G1 phase of the cell cycle. Quiescent rat uterine stromal cells were stimulated to reenter the cell cycle by adding serum-free medium containing medroxyprogesterone acetate (MPA) and basic fibroblast growth factor (FGF). [3H]thymidine incorporation increased significantly (P = 0.025) in cells stimulated with both FGF alone and MPA plus FGF compared with the control cells. Moreover, cells stimulated with MPA plus FGF incorporated significantly more (P = 0.01) [3H]thymidine than cells treated with FGF alone, suggesting requisite interactions between progesterone and FGF for stromal cell entry into S phase. Flow cytometric analysis of stimulated stromal cells showed FGF alone and MPA plus FGF increased significantly (P = 0.002) the percentage of cells in S phase at 12 h. Incorporation of bromodeoxyuridine into stromal cell nuclei indicated that FGF alone and MPA plus FGF increased the percentage of cells entering S phase at 18 and 24 h compared with the control cells. In addition, MPA plus FGF increased significantly (P = 0.001) the number of cells entering S phase at 24 h compared with FGF alone and sustained S phase entry compared with FGF alone, MPA alone, or the control cells. Stromal cells inhibited from G1 reentry by inhibition of mitosis showed accelerated entry into S phase in response to MPA plus FGF compared with FGF alone. Cyclin D1 messenger RNA increased in stromal cells treated with MPA plus FGF at 9, 12, and 15 h. Addition of RU 486 to cells stimulated with MPA plus FGF for 9 h reduced cyclin D1 messenger RNA accumulation by 40%. Western blot analysis of cyclin D1 immunoprecipitates indicated complex formation with both cyclin-dependent kinase 4 (Cdk4) and cyclin dependent kinase 6 (Cdk6). Cyclin D1-Cdk complexes and kinase activity correlated temporally with increased cyclin D1 expression in cells cultured with MPA plus FGF. Taken together, these results show that progesterone-FGF interactions increase cyclin D1 expression, correlating with accelerated stromal cell entry into S phase compared with cells treated with FGF alone. Moreover, progesterone plus FGF sustains the timing of stimulation for transit of uterine stromal cells through G1 into S phase compared with FGF alone.     

Relaxin stimulates prolactin secretion from anterior pituitary cells

The anterior pituitary has recently been implicated as a relaxin target issue because of the cAMP elevation after relaxin treatment. We attempted to correlate this finding with an endocrine response to relaxin in rats. Anterior pituitary cells were enzymatically dispersed and subjected to the reverse hemolytic plaque assay. PRL secretion was significantly stimulated 1.31-fold by human relaxin at the lowest concentration studied (30 pM) and maximally stimulated 1.65-fold at 0.3 nM relaxin. Antibodies directed against relaxin inhibited this effect, as did the PRL inhibitory hormone, dopamine. In contrast to the response of PRL cells, there was no effect or a slight inhibition of LH release after incubation with relaxin. In conclusion, we propose that one of the pituitary cell types responsive to relaxin in culture is the PRL-secreting mammotroph.     

The role of human chorionic gonadotropin on decidualization of endometrial stromal cells in vitro

Although decidualization of endometrial stromal cells (ESC) is crucial for blastocyst implantation and maintenance of pregnancy, its complex mechanism still remains largely unknown. It has long been believed that hCG can directly induce in vitro decidualization of ESC via cAMP signaling. Recently, however, it has been reported that the LH/CG receptor is not present in human endometrium, and the direct effect of hCG on decidualization has become controversial. To reevaluate the exact effect of hCG on decidualization, human ESC were isolated and cultured with hCG and/or ovarian steroids. ESC treated with 17beta-estradiol plus progesterone (E(2)/P) transformed morphologically and produced significant PRL, whereas ESC treated with hCG alone showed no significant increase in PRL in culture medium and exhibited no morphological changes. Moreover, hCG did not promote E(2)/P-induced PRL production or intracellular cAMP accumulation, and protein kinase A inhibitor failed to block E(2)/P-induced PRL production. These results suggest that hCG does not directly affect in vitro decidualization of human ESC and that the process of E(2)/P-induced in vitro decidualization might consist of several pathways, including the intracellular cAMP signaling cascade.