Estrogen synthetase (aromatase) in cultured human term placental cells and neoplastic human trophoblast

Estrogen synthetase (aromatase) is present in large amounts in human term placenta. However, the localization of aromatase within the cellular structure of the placental villus is obscure. By immunocytochemical techniques using antibodies that separately recognize each component of the aromatase cytochrome P-450 enzyme system, the fraction of term placental trophoblast cells in primary culture expressing each aromatase component antigen increased from 20% in fresh mononucleated cells to about 65% for multinucleated giant cells after 72 h. In contrast, about 80% of human choriocarcinoma cells in continuous culture (JAr line) expressed each aromatase component antigen. The fraction of trophoblast cells in primary culture containing human chorionic gonadotropin increased from about 14% in fresh mononucleated cells to about 45% after 72 h and was about 30% in the choriocarcinoma cells. Fibroblast cells in culture, derived from trypsin-treated placental villi, contained aromatase activity, albeit much lower than term placental trophoblast cells. Aromatase specific activity in these placental fibroblasts did not change following growth with dibutyryl cAMP plus theophylline for 72 h.     

Effects of lymphokines and immune complexes on murine placental cell growth in vitro

Isolated murine placental cells obtained at Day 16 of allogeneic gestation (C3H x DBA/2J) were cultured for 3 days alone or in coculture with irradiated mouse splenocytes at the end of which 3H-thymidine was added for an additional 18-h culture to assess cell proliferation. Placental cell proliferation was significantly enhanced at spleen cell:placental cell ratios of 10:1 and 25:1 above that observed in the absence of added spleen cells. The stimulatory effect of irradiated allogeneic (C3H plus Balb/cJ) spleen cell cultures was significantly greater (approximately 2-fold) than that of isogeneic spleen cells (C3H alone). Conditioned medium from murine spleen cells cultured with concanavalin A (ConA) to induce lymphokine production had dose-dependent inhibitory effects on proliferation when added to placental cell cultures over a range of concentrations from 10 to 40% (vol:vol). Addition of pseudo "immune complexes" in the form of heat-aggregated human gamma globulin (AHGG) to culture medium failed to alter placental cell proliferation over a range of concentrations from 2 to 200 micrograms/ml either in the absence or presence of ConA-conditioned medium. In contrast to late-gestational stage placental cells, cell suspensions obtained from Days 8-9 murine ectoplacental cone (EPC) outgrowths, or from earlier stage placentas (Days 12-14) responded to low concentrations of conditioned medium from ConA-stimulated splenocytes with increased proliferation. The effect was less impressive on placental cells at gestational ages later than 12 days than on earlier stage preparations. On all placental cell suspensions tested, as well as EPC cells, a clear-cut inhibition of growth was observed at high doses of conditioned medium.(ABSTRACT TRUNCATED AT 250 WORDS)     

Investigation of factors influencing 11 beta-hydroxysteroid dehydrogenase (EC 1.1.1.146) activity in midgestational human fetal lung monolayer and explant cultures

We recently suggested that the 11 beta-hydroxysteroid dehydrogenase (11-HSD) activity in midgestational human fetal lung (HFL) cultures comprised at least two enzymes, one oxidative--associated with epithelial cells, the other reductive--related to fibroblast-like cells. In this study, the effects of various hormones on 11-HSD activity were studied by measuring the interconversion of [3H]cortisol and [14C]cortisone. Human chorionic gonadotrophin, placental medium, and low oxygen concentration increased the conversion of cortisone to cortisol while activity in the reverse direction remained unchanged. No effects were seen when adrenocorticotrophin, prolactin, placental lactogen, estrogens, triiodothyronine or oxytocin were added in physiological amounts.     

Paracrine regulation of distinct trophoblast functions in vitro by placental macrophages

In view of the accumulating evidence for paracrine mechanisms regulating trophoblast function, we tested the hypothesis that placental macrophages affect trophoblast activity in a paracrine fashion. Trophoblast was isolated from 17 term placentas (-IP). One aliquot of cells was further immunopurified (+IP) using an HLA class I antibody. This increased the proportion of trophoblast (+IP >97%; -IP ~70%) as identified by rigorous immunocytochemistry. Most (~70%) non-trophoblast cells in -IP were macrophages. The cells were cultured for 5 days with a daily medium change. In addition, +IP cells from seven placentas were cultured with lipopolysaccharide (LPS)-stimulated or -unstimulated macrophage-conditioned media. The concentrations of lactate, trophoblast-specific hormones, human chorionic gonadotropin-# (hCG-#) and human placental lactogen (hPL), of several prostanoids and of endothelin-1 and angiotensin II were determined in the culture media. The accumulated amounts of substances released into the culture media, corrected for the greater proportion of trophoblast in +IP cultures, were on average two- to threefold higher (hCG-#: 18-fold) in +IP than in -IP, with the exception of endothelin-1,2 (no change), angiotensin II (-70%) and 6-keto-prostaglandin-F_1! (-40%). [³H]leucine incorporation into the trichloroacetic acid (TCA)-precipitable pool measured on day 5 was twofold higher in +IP than in -IP. Addition of conditioned media reverted these changes. The data demonstrate that placental macrophages in culture affect trophoblast biosynthetic activity in a paracrine fashion. We conclude that macrophages are important regulators of trophoblast activity.     

Cell attachment to microcarriers affects growth, metabolic activity, and culture productivity in bioreactor culture

It is not well understood how changes from suspension to microcarrier cultures affect cell growth, metabolism, and yield of recombinant proteins. To investigate the effects of culture conditions on cell characteristics, fed-batch bioreactor cultures were performed under different culture conditions (suspension cultures, cultures attached to Cytodex 3 and Cytopore 1 microcarriers) using two different Chinese hamster ovary cell lines producing either secreted human placental alkaline phosphatase (TR2-255) or tissue plasminogen activator (CHO 1-15-500). In controlled, agitated bioreactors, suspension cultures reached cell densities and product titers higher than those in microcarrier cultures, in contrast to the results in static flask cultures. Growth and metabolic activities showed similar trends in suspension and microcarrier culture regardless of cell line. However, the responses of the specific productivities to the different culture conditions differed significantly between the cell lines.     

A serum-free system for culturing human placental trophoblasts

Summary We have compared hormone production by early gestation and term human placental trophoblasts cultured in Ham's F10 medium containing 10% fetal bovine serum with that by cells cultured in serum-free HB102 medium. Mean daily production of progesterone on Days 3 to 7 was approximately 25% less by both early gestation and term cells cultured in HB102 as compared to Ham's F10, but production was maintained at a stable level for at least 7 d longer than the cells in Ham's. Estradiol production from 10⁻⁶ M dehydroepiandrosterone by both early gestation and term cells was comparable in both media. Human placental lactogen production on Days 3 to 7 was 40% less by cells cultured in HB102. Human chorionic gonadotropin (hCG) output by early gestation cells was also 50% less in HB102 but term cells in HB102 produced twice as much hCG as those in Ham's F10. 3B-Hydroxysteroid dehydrogenase (3BHSD) activity in early gestation and term cells and 11B-hydroxysteroid dehydrogenase (11BHSD) activity of early gestation cultures was comparable in the two media. 11BHSD activity was decreased in the term cultures, and this decrease was more marked in Ham's than in HB102. Sulfatase and aromatase activities in the early gestation cultures were comparable in both media; sulfatase activity was comparable and aromatase activity only 20% less in the term cells cultured in HB102. These results indicate that serum-free HB102 supports differential function of human trophoblast cells and is useful for studies of placental activity for as long as 14 d in culture.     

Human type 2 17beta-hydroxysteroid dehydrogenase mRNA and protein distribution in placental villi at mid and term pregnancy

Background  

During human pregnancy, the placental villi produces high amounts of estradiol. This steroid is secreted by the syncytium, which is directly in contact with maternal blood. Estradiol has to cross placental foetal vessels to reach foetal circulation. The enzyme 17beta-hydroxysteroid dehydrogenase type 2 (17beta-HSD2) was detected in placental endothelial cells of foetal vessels inside the villi. This enzyme catalyzes the conversion of estradiol to estrone, and of testosterone to androstenedione. It was proposed that estradiol level into foetal circulation could be regulated by 17beta-HSD2.     

Human immunodeficiency virus type 1 infection of human placenta: potential route for fetal infection.

To determine the potential role of the placenta in transmission of human immunodeficiency virus (HIV) from mother to fetus, the ability of human placental tissue to support HIV type 1 (HIV-1) infection was examined. HIV-1-seronegative first-trimester placentas were maintained in culture and infected with HIV-1. Virus production, measured by HIV-1 antigen release into the supernatant, and HIV-1 DNA, identified by polymerase chain reaction, were detected for at least 12 days postinfection. Western immunoblot analysis showed Gag proteins, precursor p55, and cleavage products p24 and p17 in HIV-1-infected tissues. Double labeling of placental villi with antibodies to CD4 and placental trophoblast-specific alkaline phosphatase indicated that trophoblasts express CD4 antigen. Additionally, immunostaining of HIV-1-infected tissues with anti-p24 antibodies demonstrated HIV-1 protein expression in placental trophoblasts. Evaluation of human chorionic gonadotropin and progesterone production by the placental cultures indicated that there was a 90% decrease in human chorionic gonadotropin and a 70% decrease in progesterone production in HIV-1-infected cultures in comparison with controls. These data demonstrate that trophoblastic cells of human placenta tissue express CD4 and are susceptible to HIV-1 infection; also, placental endocrine function is decreased by HIV-1 infection. Thus, the placenta may serve as a reservoir of HIV-1 infection during pregnancy contributing to infection of the fetus, and decreased placental hormone production may result in impaired fetal development.     

In vitro capsaicin production by immobilized cells and placental tissues of Capsicum annuum L. grown in liquid medium

Capsaicin, from green pepper fruits is used in formulated foods and in pharmaceuticals. Cell cultures of Capsicum annuum L. were obtained from seedlings on Murashige and Skoog (MS) medium supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) and kinetin. In vitro-grown cells and placental tissues from fruits were immobilized in calcium alginate. Immobilized cells and placental tissues produced capsaicin which leached out into the medium. Immobilized placental tissue exhibited greater potentiality for capsaicin synthesis than immobilized cells. Production reached a level of 1345 μg capsaicin g⁻¹ of immobilized placenta on the 14th day of culture. Production of capsaicin, on replenished nutrient medium in immobilized placenta was 2400 μg on the 30th day. Ferulic acid fed to immobilized placenta at 2.5 mM level increased capsaicin production by 2-fold by the 5th day of the culture period. Of the elicitors used, curdlan was effective on capsaicin production in immobilized cells. Extracts of Aspergillius niger and Rhizopus oligosporus stimulated capsaicin production in immobilized placental tissues.     

The effect of luteinizing hormone releasing hormone and anti-luteinizing hormone releasing hormone antibodies on chorionic gonadotropin and progesterone secretion by human placental villiin vitro

Gonadotropin releasing hormone has been located and found to be secreted by the human placenta in culture. Addition of the releasing hormone upto 1μg concentration in the placental cultures brings about stimulation of chorionic gonadotropin and progesterone secretion. Higher amounts of the decapeptide has an inhibitory influence on both the gonadotropin and the steroid production. The action of the releasing hormone on the placenta could be blocked by the anti-luteinizing hormone releasing hormone monoclonal antibodies indicating a possible site of action of the antibodies for control of fertility     

Evidence for a clathrin-mediated recycling of albumin in human term placenta

During human pregnancy, the trophoblast layer is in direct contact with maternal albumin. In contrast to immunoglobulins, albumin does not cross the placental barrier. However, albumin affects the trophoblast placental lactogen and chorionic gonadotroph secretion. The present study investigated the interaction between albumin and syncytiotrophoblast using human term placental explants. Bovine serum albumin, labeled with either 125I or fluorescein isothio-cyanate, was taken up rapidly by placental explants. This process was temperature-sensitive. The internalized labeled BSA quickly outflowed from the tissue at the maternal side, largely without any major modification in molecular weight. Colchicine (1 mM), which disrupts the microtubule network, or cytochalasin B (40 microM), which disassembles filamentous actin, did not interfere with the placental transmembrane movements of labeled BSA. Megalin, clathrin, and caveolin 1 are three membrane proteins associated with albumin endocytosis in other tissues, but only megalin and clathrin were detected in the syncytiotrophoblast layer by immunohistochemistry. The uptake of labeled BSA into placental explants was not modified by 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid (1 mM) or 5-nitro-2-(3-phenylpropylamino)benzoic acid (100 microM), two pharmacological tools known to disturb megalin-mediated albumin endocytosis. By contrast, methyl-beta-cyclodextrin (10 mM) and chlorpromazine (1.4 mM), both of which disrupt the clathrin-mediated endocytotic system, significantly reduced the uptake of labeled BSA. These data suggest, to our knowledge for the first time, that maternal albumin is actively internalized into the human trophoblast according to an apical recycling pathway. This temperature-sensitive process does not depend on an intact cytoskeleton, but it is associated with a clathrin-mediated endocytotic system.     

Differential increase of steroid sulfatase activity in XX and XY trophoblast cells from human term placenta with syncytia formation in vitro

Steroid sulfatase (STS, EC 3.1.6.2) catalyzes the hydrolysis of the sulfate ester bonds of a variety of sulfated steroids, such as cholesterol, dehydroepiandrosterone, and estrone sulfate, a reaction influencing fertility and breast cancer in mammals. The activity of the enzyme is substantially elevated in placental syncytiotrophoblasts and is lower in other somatic cells. The polypeptide sequence of the enzyme is encoded by a gene located on the distal short arm of the human X chromosome. Prior studies have shown that the STS gene escapes X-chromosome inactivation. We studied the expression of the STS gene in primary cultures of cytotrophoblasts from human term placentae and compared it with the expression of autosomally encoded placental alkaline phosphatase (PALP) and X-linked glucose-6-phosphate dehydrogenase (G6PD). During 90 h in culture, the mononucleated cytotrophoblast cells did not proliferate, but differentiated into multinucleated, syncytiotrophoblast-like cells. STS activity in freshly isolated cytotrophoblasts was low (about 17%), compared to placental tis- sue, and about 1.7-fold higher in female than in male cells. During cultivation, STS activity increased 2- to 3-fold in female, but not in male, cells. PALP activity was very low in freshly isolated cytotrophoblasts (about 5% of placental tissue), and no significant difference between female and male cells was detectable. Within 90 h in culture, PALP activity increased in all preparations about 2- to 4-fold. G6PD activity in freshly isolated cytotrophoblasts showed great variation among preparations, and no significant difference between female and male cells was detectable. In both male and female cells the activity declined to about 50% of initial activity during cultivation. We conclude that human cytotrophoblasts in primary culture show a sex-specific regulation of STS activity, perhaps as a unique feature of the STS gene. The cytotrophoblast system may offer a new possibility to study the regulation of STS gene expression.     

Effects of culture conditions on the synthesis of human chorionic gonadotropin by placental organ cultures.

Culture conditions for maintaining first trimester human placenta in organ culture, which enhance the secretion of human chorionic gonadotropin (hCG), are described. Nutrient medium, oxygen tension and Gelfoam support matrix influence the synthesis of hCG by these cultures. Placental tissue remained viable for the duration of experiments (12 days) as judged by the incorporation of tritiated thymidine into DNA and the lack of release of incorporated [125I]iododeoxyuridine. Optimal conditions for hCG synthesis in placental organ culture included an atmosphere of 95% air and 5% Co2 (approximately 20% O2), CMRL 1066 medium containing fetal human or bovine serum, insulin, hydrocortisone and retinal acetate. Multiple pieces of placenta could be cultured in the same dish with an additive effect on hCG secretion. The functional responsiveness of these placental cultures was demonstrated by modulation of hCG synthesis with theophylline and 3'5' dibutyryl cyclic AMP.     

Differential inhibition of human prostaglandin release in vitro by a GnRH antagonist

Previously, we have demonstrated that the production of prostaglandins by human placental tissue varied with gestational age. In addition, we have shown that placental prostaglandin release was affected by GnRH, and that its response was also dependent on the gestational age of the placenta. Thus, we have studied the effect of a GnRH antagonist ([N-Ac-Pro¹, D-p-Cl-Phe², D-Nal (2)^3,6-LHRH, Syntex Research, Palo Alto, CA) on basal prostaglandin release from placentas of 6 to 15 weeks' gestaton and found that this antagonist (1 μg/ml) effects an inhibition of the release of prostaglandin E, prostaglandin F, and 13, 14-dihydro-15-keto-prostaglandin from placentas of 13 and 15 weeks of gestation. This effect was not overridden by GnRH at 10 times the antagonist concentration in the 13-week placental cultures, but was totally reversed by GnRH (10 μg/ml) in the 15-week placental cultures. These data demonstrate that this GnRH antagonist can affect human placental prostaglandin production at 13 to 15 weeks of gestation and indicate that endogenous placental GnRH-like activity may exert a control over placental prostaglandin release at this gestational stage.     

Matrix Metalloproteinase-3 (MMP-3) Is an Endogenous Activator of the MMP-9 Secreted by Placental Leukocytes: Implication in Human Labor

Background

The activity of matrix degrading enzymes plays a leading role in the rupture of the fetal membranes under normal and pathological human labor, and matrix metalloproteinase-9 (MMP-9) it is considered a biomarker of this event. To gain further insight into local MMP-9 origin and activation, in this study we analyzed the contribution of human placental leukocytes to MMP-9 secretion and explored the local mechanisms of the pro-enzyme activation.

Methods

Placental blood leukocytes were obtained from women at term gestation without labor and maintained in culture up to 72 h. MMP-9 activity in the culture supernatants was determined by zymography and using a specific substrate. The presence of a potential pro-MMP-9 activator in the culture supernatants was monitored using a recombinant biotin-labeled human pro-MMP-9. To characterize the endogenous pro-MMP-9 activator, MMP-1, -3, -7 and -9 were measured by multiplex assay in the supernatants, and an inhibition assay of MMP-9 activation was performed using an anti-human MMP-3 and a specific MMP-3 inhibitor. Finally, production of MMP-9 and MMP-3 in placental leukocytes obtained from term pregnancies with and without labor was assessed by immunofluorescence.

Results

Placental leukocytes spontaneously secreted pro-MMP-9 after 24 h of culture, increasing significantly at 48 h (P≤0.05), when the active form of MMP-9 was detected. Culture supernatants activated the recombinant pro-MMP-9 showing that placental leukocytes secrete the activator. A significant increase in MMP-3 secretion by placental leukocytes was observed since 48 h in culture (P≤0.05) and up to 72 h (P≤0.001), when concentration reached its maximum value. Specific activity of MMP-9 decreased significantly (P≤0.005) when an anti-MMP-3 antibody or a specific MMP-3 inhibitor were added to the culture media. Placental leukocytes from term labor produced more MMP-9 and MMP-3 compared to term non-labor cells.

Conclusions

In this work we confirm that placental leukocytes from human term pregnancies are able to secrete large amounts of MMP-9, and that the production of the enzyme it is enhanced by labor. We also demonstrate for the first time that endogenous MMP-3 plays a major role in MMP-9 activation process. These findings support the contribution of placental leukocytes to create the collagenolytic microenvironment that induces the rupture of the fetal membranes during human labor.     

Gonadotropin-releasing hormone effects on placental hormones during gestation: II. Progesterone, estrone, estradiol and estriol

The release of progesterone (P), estrone (E1), estradiol (E2) and estriol (E3) from human placental tissue in vitro was found to be related to the gestational age of the placenta. The basal release of P, E1 and E2 on Day 1 of culture was highest from placentas of early gestation (9-13 wk). The release of P then declined, reaching a nadir by 15 wk, and continued at that level. The release of E1 and E2, reached a nadir at 17 weeks, and then again increased by term. In contrast, the basal release of E3 increased with increasing gestational age of the placenta. Thus, it appears that differing factors may influence placental P, E1, E2 and E3 production. In addition, the effect of synthetic gonadotropin-releasing hormone (GnRH) on these hormonal releases was studied. The stimulation of P by GnRH was greatest in placentas of 16 and 17 wk of gestation after extended culture when the basal release of P had declined. As much as a 240-fold increase was observed on the eighth day of culture. A large stimulation of P (32-fold) was also observed in the term placental cultures. A stimulation of E1 and E2 by GnRH was observed during the initial days of culture and in mid-gestational placental cultures (16-17 wk). A stimulation of E2 only was also observed at 13-15 wk and at term. A stimulation of E3 was observed in certain individual placentas. A correlation of the P and human chorionic gonadotropin (hCG) response to GnRH stimulation was noted, as well as an inverse relation of estrogens and hCG stimulation by GnRH. These data demonstrate that steroidogenic competence of the placenta differs with gestational age and that GnRH can influence steroid release. The degree and pattern of response to GnRH varied with the gestational age of the placenta and its endocrine milieu.     

Isolation and expansion of high yield of pure mesenchymal stromal cells from fresh and cryopreserved placental tissues

The injection of placental stromal cells isolated from fetal human tissues (f-hPSC) was reported to indirectly induce tissue regeneration in different animal models. A procedure of f-hPSC isolation from fragments of both selected fresh or cryopreserved bulk placental neonate tissues is proposed, based on their high migratory potential,. The fragments of the desired fetal placental tissues are adhered to a culture dish by traces of diluted fibrin and covered with culture medium. Spontaneous migration of pure f-hPSC from the tissue fragments to the cell culture dishes is followed by their rapid expansion by numerous passages. The isolated f-hPSC express typical mesenchymal surface antigens, including CD29, CD105, CD166 and CD146, with negative expression of white blood cell lineage and endothelial cells markers. Optimal yields of f-hPSC cultures can also be obtained from tissue samples cryopreserved in medium composed of 10% dimethyl sulfoxide (M₂SO) and 50% fetal calf serum. Slightly better yields are obtained with media supplemented with 1% human albumin. Medium with 5% M₂SO and/or 0.25 mg/ml PEG yielded inferior results. The f-hPSC from fresh or cryopreserved tissues express similar cell markers and growth kinetics. The proposed isolation protocol may also be applied for high yield isolation of stromal cells from fresh and cryopreserved tissue of other organs.     

The effects of insulin-like growth factor-I and insulin on placental lactogen production by human term placental explants

The effects of insulin-like growth factor (IGF)-I and insulin on placental lactogen production (hPL) by term human placental explants were studied. The hPL content in medium and explant decreased rapidly after first 24 hours of culture. The decrease thereafter was gradual and reached a plateau by day 4 of culture. The decrease of HPL content in placental culture has previously been suggested being due to the depletion of a rapidly secreting preformed pool of hPL. Addition of IGF-I (0.1-10 micrograms/ml) and insulin (1-20 micrograms/ml) stimulated the decreased level of hPL in tissue and medium after 24 hours in culture. IGF-I was 10 times more potent than insulin in stimulating hPL. These findings suggest that IGF-I and insulin effects the production of hPL by placenta. The lower potency of insulin may indicate that the effect of insulin on hPL production is via IGF-I receptor.     

Effects of culture conditions on the synthesis of human chorionic gonadotropin by placental organ cultures

Summary Culture conditions for maintaining first trimester human placenta in organ culture, which enhance the secretion of human chorionic gonadotropin (hCG), are described. Nutrient medium, oxygen tension and Gelfoam support matrix infuence the synthesis of hCG by these cultures. Placental tissue remained viable for the duration of experiments (12 days) as judged by the incorporation of tritiated thymidine into DNA and the lack of release of incorporated [¹²⁵Iiododeoxyuridine. Optimal conditions for hCG synthesis in placental organ culture included an atmosphere of 95% air and 5% CO₂ (approximately 20% O₂), CMRL 1066 medium containing fetal human or bovine serum, insulin, hydrocortisone and retinal acetate. Multiple pieces of placenta could be cultured in the same dish with an additive effect on hCG secretion. The functional responsiveness of these placental cultures was demonstrated by modulation of hCG synthesis with theophylline and 3′5′ dibutyryl cyclic AMP. Presented in part at the meeting of the American Association for Cancer Research, April 1978. This work is being submitted in partial fulfillment of the Ph.D. requirements in the Department of Biology, Catholic University of America.