Expression of TGF-beta signaling genes in the normal, premalignant, and malignant human trophoblast: loss of smad3 in choriocarcinoma cells

We had earlier shown that TGF-beta controls proliferation, migration, and invasiveness of normal human trophoblast cells, whereas premalignant and malignant trophoblast cells are resistant to TGF-beta. To identify signaling defects responsible for TGF-beta resistance in premalignant and malignant trophoblasts, we have compared the expression of TGF-beta signaling molecules in a normal trophoblast cell line (HTR-8), its premalignant derivative (RSVT2/C), and two choriocarcinoma cell lines (JAR and JEG-3). RT-PCR analysis revealed that all these cell lines expressed the mRNA of TGF-beta1, -beta2, and -beta3, TGF-beta receptors type I, II, and III, and post-receptor signaling genes smad2, smad3, smad4, smad6, and smad7 with the exception that TGF-beta2 and smad3 were undetectable in JAR and JEG-3 cells. Immunoblot analysis confirmed the absence of smad3 protein in choriocarcinoma cells. Treatment with TGF-beta1 induced smad3 phosphorylation and smad3 translocation to the nucleus in the normal and premalignant trophoblast cells. These results suggest that loss of smad3 may account for a functional disruption in the TGF-beta signaling pathway in choriocarcinomas, but not in the premalignant trophoblast.

Cyclooxygenase inhibitors retard murine mammary tumor progression by reducing tumor cell migration, invasiveness and angiogenesis

Tumor-derived prostaglandins (PGs) have been implicated in the progression of murine and human breast cancer. Chronic treatment with a non-selective PG inhibitor indomethacin was shown in this laboratory to retard the development and metastasis of spontaneous mammary tumors in C3H/HeJ female retired breeder mice. The present study examined the role of endogenous prostaglandins in the proliferation/survival, the migratory and invasive behavior and angiogenic ability of a highly metastatic murine mammary tumor cell line, C3L5, originally derived from a C3H/HeJ spontaneous mammary tumor. This cell line was shown to express high levels of cyclooxygenase (COX) -2 mRNA and protein as detected by Northern and Western blotting as well as immunostaining. PGE(2) production by C3L5 cells was primarily owing to COX-2, since this was blocked similarly with non-selective COX inhibitor indomethacin and selective COX-2 inhibitor NS-398, but unaffected with the selective COX-1 inhibitor valeryl salicylate. C3L5 cell proliferation/survival in vitro was not influenced by PGs, since their cellularity remained unaffected in the presence of PGE(2) or NS-398 or PG-receptor (EP1/EP2) antagonist AH6809; a marginal decline was noted only at high doses of indomethacin, which was not abrogated by addition of exogenous PGE(2). Migratory and invasive abilities of C3L5 cells, as quantitated with in vitro transwell migration/invasion assays, were inhibited with indomethacin or NS-398 or AH6809 in a dose-dependent manner; the indomethacin and NS-398-mediated inhibition was partially reversed upon addition of exogenous PGE(2). An in vivo angiogenesis assay that used subcutaneous implants of growth factor-reduced matrigel inclusive of tumor cells showed a significant inhibition of blood vessel formation in these implants in animals treated with indomethacin compared with animals receiving vehicle alone. These studies show that selective and nonselective COX-2 inhibitors retarded tumor progression in this COX-2-expressing murine mammary tumor model by inhibiting tumor cell migration, invasiveness and tumor-induced angiogenesis. The inhibitory effects were not entirely PG dependent; some PG-independent effects were also noted.

Stimulation of human extravillous trophoblast migration by IGF-II is mediated by IGF type 2 receptor involving inhibitory G protein(s) and phosphorylation of MAPK

We have earlier shown that migration and invasiveness of first trimester human extravillous trophoblast cells are stimulated by IGF-II, independently of IGF type 1 receptor and that migration stimulation is the primary reason for increased extravillous trophoblast cell invasiveness induced by IGF-II. In the present study we examined the functional role of IGF type II receptor in IGF-II stimulation of extravillous trophoblast cell migration and the underlying signal transduction pathways including the participation of inhibitory G protein(s) and MAPK. The migratory ability of a well characterized in vitro propagated human first trimester extravillous trophoblast cell line expressing the phenotype of extravillous trophoblast cells in situ was quantitated with a Transwell migration assay under different experimental conditions. We found that the extravillous trophoblast cells expressed an abundance of IGF type 2 receptor as detected by immunostaining and Western blots, and recombinant human IGF-II promoted their migration in a dose- and time-dependent manner. Both polyclonal and monoclonal IGF type 2 receptor-blocking antibodies blocked migration-stimulating effects of IGF-II. Two synthetic IGF-II analogs ([Leu27]IGF-II, which can bind to IGF type 2 receptor and IGF-binding proteins, but not IGF type 1 receptor, and [QAYL-Leu27]IGF-II, which can bind to IGFR-II, but neither IGFR-I nor IGF-binding proteins) both stimulated extravillous trophoblast cell migration to levels higher than those induced by wild-type IGF-II. These results reveal that IGF-II action was mediated by IGF type 2 receptor, independently of IGF type 1 receptor and IGF-binding proteins. Treatment of extravillous trophoblast cell membrane preparations with IGF-II decreased adenylyl cyclase activity in a concentration-dependant manner, indicating the participation of inhibitory G proteins in IGF-II action. This was substantiated further with the findings that increasing intracellular cAMP using forskolin or (Bu)2cAMP inhibited basal extravillous trophoblast cell migration and blocked IGF-II stimulation of migration. IGF-II treatment rapidly stimulated phosphorylation of MAPK (ERK-1 and -2), which was blocked by pretreatment of extravillous trophoblast cells with the MAPK kinase (MEK) inhibitor PD98059. Treatment with this inhibitor also blocked extravillous trophoblast cell migration in the presence or absence of IGF-II. These results, taken together, reveal that IGF-II stimulates extravillous trophoblast cell migration by signaling through IGF type 2 receptor, involving inhibitory G proteins and activating the MAPK pathway.

Insulin-like growth factor-binding protein 1 stimulates human trophoblast migration by signaling through alpha 5 beta 1 integrin via mitogen-activated protein Kinase pathway

A highly migratory subpopulation of the human placental trophoblast, known as the extravillous trophoblast (EVT), invades the uterus and its vasculature, to establish adequate exchange of key molecules between the maternal and fetal circulations. During their formation, EVT cells selectively acquire alpha 5 beta 1 integrin. We had shown that alpha 5 beta 1 is required for their migratory function, and that EVT cell migration is stimulated by insulin-like growth factor-binding protein (IGFBP)-1 produced by the uterine decidua. The present study examined whether this stimulation is dependent on binding of the Arg-Gly-Asp (RGD) domain of IGFBP-1 to an RGD binding site on the alpha 5 beta 1 integrin, followed by activation of focal adhesion kinase (FAK) and stimulation of the mitogen-activated protein kinase (MAPK) pathway. IGFBP-1 treatment increased migration of EVT cells, whereas an anti-alpha 5 beta 1 integrin antibody blocked migration regardless of IGFBP-1 treatment. Migration stimulation by IGFBP-1 was abrogated by pretreatment with a Gly-Arg-Gly-Asp-Ser-Pro (GRGDSP), but not a Gly-Arg-Gly-Glu-Ser-Pro (GRGESP) hexapeptide, and by mutation of the RGD domain of IGFBP-1 to Trp-Gly-Asp (WGD). IGFBP-1 treatment caused a rapid localization of immunoreactive FAK to cellular lamellipodia, a rapid increase in phosphorylation of FAK and extracellular-signal regulated kinases 1 and 2. Preincubation of EVT cells with Herbimycin A, a tyrosine kinase inhibitor, abrogated IGFBP-1 effects; whereas an MAPK kinase inhibitor, PD 98059, reduced migration regardless of IGFBP-1 treatment. These results indicate that IGFBP-1 stimulation of EVT cell migration occurs by binding of its RGD domain to the alpha 5 beta 1 integrin, leading to activation of FAK and stimulation of MAPK pathway.

Role of nitric oxide in carcinogenesis and tumour progression

Nitric oxide (NO) is a short-lived molecule required for many physiological functions, produced from L-arginine by NO synthases (NOS). It is a free radical, producing many reactive intermediates that account for its bioactivity. Sustained induction of the inducible form of NOS (iNOS) in chronic inflammation may be mutagenic, through NO-mediated DNA damage or hindrance to DNA repair, and thus potentially carcinogenic. Expression of iNOS is positively associated with P53 mutation in tumours of the colon, lung, and oropharynx. Progression of a large majority of human and experimental tumours seems to be stimulated by NO resulting from activation of iNOS or constitutive NOS, whereas inhibition is documented in others. This discrepancy is largely explained by differential sensitivity of tumour cells to NO-mediated cytostasis or apoptosis and clonal evolution of NO-resistant and NO-dependent cells. P53 mutation or loss is one of many events linked with NO resistance and dependence. NO can stimulate tumour growth and metastasis by promoting migratory, invasive, and angiogenic abilities of tumour cells, which may also be triggered by activation of cyclo-oxygenase (COX)-2. Thus, selective inhibitors of NOS, COX, or both may have a therapeutic role in certain cancers.

Nitric oxide promotes murine mammary tumour growth and metastasis by stimulating tumour cell migration, invasiveness and angiogenesis

The contributory role of nitric oxide (NO) on tumour growth and metastasis was evaluated in a murine mammary tumour model. NO synthase (NOS) protein expression levels were examined in spontaneously arising C3H/HeJ mammary adenocarcinomas and respective lung metastases. In addition, 2 clonal derivatives of a single spontaneous tumour differing in metastatic phenotype (C3L5 and C10; highly and weakly metastatic, respectively) were utilised to investigate (i) the relationship between NOS expression levels and the biological behaviour of tumour cells (e.g., in vitro migratory and invasive capacities, in vivo tumour growth rate and metastatic and angiogenic capacities) and (ii) whether tumour-derived NO stimulated the invasive, migratory and angiogenic capacities of tumour cells. A heterogeneous pattern of endothelial NOS (eNOS) expression was observed in tumour cells in spontaneous primary tumours, and eNOS expression was higher in undifferentiated relative to differentiated tumour zones. However, tumour cells in lung metastatic sites were always strongly eNOS-positive, suggesting that eNOS expression facilitated metastasis. Findings using clonal derivatives supported this notion; s.c. primary tumour growth rate, efficiency of spontaneous metastasis and eNOS expression were higher for C3L5 relative to C10 cell lines. Nevertheless, lung metastases derived from both tumour cell lines were always strongly and homogeneously eNOS-positive. C3L5 cells were more invasive than C10 cells in vitro, but the migratory capacities of the cell lines did not differ. However, migration and invasiveness of both cell lines were inhibited with L-NAME and restored with excess L-arginine. Tumour-associated angiogenesis, measured in Matrigel implants inclusive of tumour cells, was higher for C3L5 relative to C10 cells, and C3L5-induced angiogenesis was reduced with chronic L-NAME treatment of host animals. These findings suggest that tumour-derived eNOS promoted tumour growth and metastasis by multiple mechanisms: stimulation of tumour cell migration, invasiveness and angiogenesis.

Plasma clearance, tissue uptake and expression of pituitary peptide 23/pancreatitis-associated protein in the rat

The secretion of peptide 23 by rat pituitary cells is stimulated by growth hormone-releasing hormone and inhibited by somatostatin. Recent cloning of the cognate cDNA for peptide 23 revealed that it is identical to pancreatitis-associated protein (PAP). In the present study, the clearance and tissue uptake of recombinant peptide 23/PAP in normal adult male rats was assessed. The plasma half-life of recombinant peptide 23/PAP was 4.8 +/- 1.4 (S.D.) min. Maximal accumulation of radio-labelled peptide 23/PAP was observed in the kidney, stomach, small intestine and pancreas whereas negligible uptake was seen in the liver, lung or heart. Peptide 23/PAP was detected in a variety of tissue extracts using a radioimmunoassay. Extracts of ileum contained the highest concentrations of peptide 23/PAP. In situ hybridization analysis showed that peptide 23/PAP mRNA was highly expressed in the columnar epithelial cells of ileum, jejunum and duodenum. These observations demonstrate that peptide 23/PAP, a protein previously thought to be of pituitary origin, is widely expressed in the gastrointestinal tract and that it is rapidly removed from the circulation by the kidney and by tissues which express peptide 23/PAP.

Age-related changes in peptide-23/pancreatitis-associated protein and pancreatic stone protein/reg gene expression in the rat and regulation by growth hormone-releasing hormone

Peptide-23 is a 16-kilodalton protein secreted by rat pituitary cells that was first identified because it was regulated by GRF and somatostatin in a similar fashion to GH. Cloning of peptide-23 complementary DNA revealed that it is identical to pancreatitis-associated protein (PAP) and a member of the c-lectin gene family. We examined the expression of peptide-23/PAP and a structurally related protein, pancreatic stone protein (PSP/reg), in the rat gastrointestinal tract. Here we report age-related changes in the expression and GRF regulation of peptide-23. Both peptide-23/PAP messenger RNA (mRNA) and PSP/reg mRNA were virtually undetectable in the small intestine of newborn and 1- and 2-week-old rats. A dramatic increase in the expression of both genes was seen at the time of weaning in the third week postpartum. The abundance of both of these mRNA decreases after 3 and 6 months of age. Peptide-23/PAP mRNA is most abundant in the ileum, whereas PSP/reg is maximally expressed in the pancreas and duodenum. Human GRF analog pellets were implanted sc into adult male rats for 2 weeks to study the chronic effects of GRF on the expression of these genes. Both peptide-23/PAP and PSP/reg mRNA levels in duodenum and jejunum were increased in these rats compared with levels in control rats. However, no increase in peptide-23/PAP mRNA in response to GRF treatment was seen in the ileum, where the level of expression of this gene is very high, and GRF had no effect on peptide-23/PSP expression in the heart, pituitary, or hypothalamus, where expression is normally undetectable. In situ hybridization was used to localize peptide-23/PSP in the small intestine and pancreas of GRF-treated rats. An increase in peptide-23/PAP mRNA was restricted to acinar cells close to islets, whereas little expression was seen in acinar cells distant from islets, suggesting that either peptide-23/PAP may have some paracrine action on the islets, or alternatively, an islet-derived factor may function as a paracrine modulator of peptide-23/PAP expression. These data demonstrate that GRF modulates peptide-23/PAP expression in the gastrointestinal tract in a similar fashion to that previously reported for pituitary cells in primary culture.

Molecular cloning and expression of peptide 23, a growth hormone-releasing hormone-inducible pituitary protein

Peptide 23 is a newly identified protein secreted by rat pituitary cells in primary culture. Although the secretion of this protein is stimulated by GH-releasing hormone and inhibited by somatostatin, the N-terminal amino acid sequence of peptide 23 shows no homology to rat GH. Using the polymerase chain reaction technique, we cloned and sequenced the peptide 23 complementary DNA (cDNA). By means of the mixed oligonucleotide-primed amplification of cDNA technique, primers corresponding to the NH2-amino acid sequence of peptide 23 were used to amplify, clone, and sequence a 74-basepair cDNA of peptide 23. This polymerase chain reaction product was then used as a primer to amplify the complete peptide 23 cDNA by means of the rapid amplification of cDNA ends procedure. The cDNA of peptide 23 obtained by the rapid amplification of cDNA ends procedure contained 777 nucleotides and encoded a 175-amino acid protein with a 26-amino acid putative signal peptide. The calculated mol wt of the mature protein (16,613 daltons) was in good agreement with that estimated by polyacrylamide gel electrophoresis (16 kilodaltons). Northern blot analysis revealed a major messenger RNA species of about 0.9 kilobase and a minor species of about 1.7 kilobases in cultured rat anterior pituitary cells. In rats, peptide 23 was most abundant in the pancreas and gastrointestinal tract. A GenBank sequence search revealed complete sequence identity between peptide 23 cDNA and pancreatitis-associated protein cDNA, an approximately 73% homology with human hepatocellular carcinoma cDNA from human hepatocellular carcinoma, 64% homology with bovine pancreatic thread protein cDNA, and 55% homology with rat and human reg cDNAs, which have been reported to be expressed in regenerating pancreatic islets. Therefore, peptide 23 is identical to pancreatitis-associated protein and a member of the C-type lectin supergene family.

Expression of pituitary peptide 23 in the rat uterus: regulation by estradiol

Peptide 23 was first identified in pituitary cell conditioned medium as a secreted protein which was regulated in a similar fashion to growth hormone. It was subsequently found to be a member of the C-type lectin gene superfamily and identical to pancreatis associated protein (PAP). It is widely expressed in the gastrointestinal tract. Our present study demonstrates that peptide 23 gene is also expressed in the uterus. Peptide 23/PAP mRNA was at highest levels during estrus and was not detectable in the immature rat uterus. A single injection of 17 beta-estradiol resulted in a transient induction of peptide 23/PAP mRNA in ovariectomized rats whereas a sustained induction was seen with diethylstilbestrol implants. In situ hybridization localized peptide 23/PAP mRNA to the luminal epithelial cells. During gestation, peptide 23/PAP mRNA was detected only in the uterine samples from day 12 to 18 of pregnancy with maximal expression on day 12. Peptide 23 expression was confined to the uterus itself and not expressed in either the decidua or the fetal tissues. PSP/reg, another closely related member of the C-lectin gene family was not expressed in any of these uterine tissues. These results indicate that estrogen may act as a physiological regulator of peptide 23 in the uterus and suggests that this protein may have some role in estrogen action.

Expression of thromboxane A2 receptor gene and thromboxane A2 synthase in bovine corpora lutea

Studies were undertaken to investigate the expression of thromboxane (TXA2) receptor gene, from mRNA to functional receptor protein in terms of ligand binding, along with the cellular and subcellular distribution of the enzyme that catalyzes the formation of the ligand for the receptors. Bovine corpora lutea contained a single TXA2 receptor mRNA transcript of 2.8 kb. All the cell types in bovine corpora lutea contained immunoreactive TXA2 synthase, TXB2, TXA2 receptor transcripts, and receptor protein that bound the TXA2 antagonist 9,11-dimethylmethano-11,12-methano-16 (3-iodo-4-hydroxyphenyl)-13-14-dihydro-13-aza-15 alpha beta-omega-tetranor TXA2. The large luteal cells (20-35 microns) contained more receptor transcripts, receptor protein, and immunoreactive TXA2 synthase than did the small luteal cells (12-19 microns), luteal blood vessels, and nonluteal cells (7-12 microns). After correction for the cellular area differences, small luteal cells were seen to contain more receptor protein than did large luteal cells and nonluteal cells. All the cells showed an increase of TXA2 receptors and catalytically active TXA2 synthase from mid-luteal phase to early pregnancy, suggesting the possibility that TXA2 could be a luteotropic eicosanoid. Bovine lung homogenates (a positive control), bovine luteal plasma membranes-mitochondria-lysosomes fraction, rough-smooth endoplasmic reticulum-Golgi fraction, and highly purified nuclei contained 65-kDa immunoreactive protein, presumably representing TXA2 synthase. In addition, the luteal fractions, but not bovine lung, contained other small and large molecular-size immunoreactive proteins. Immunogold electron microscopy showed that immunoreactive TXA2 synthase was present primarily in plasma membranes, rough endoplasmic reticulum, nuclear membranes, and chromatin; and immunoreactive TXB2 was present primarily in different-size vesicles and nuclear chromatin. In summary, the present studies demonstrate for the first time that primarily small and large luteal cells and secondarily blood vessels and nonluteal cells in bovine corpora lutea express TXA2 receptor gene along with the functional TXA2 synthase. The presence of functional enzyme in luteal cell nuclei suggests that the enzyme and/or its product may have previously unrecognized functions in nuclei.

The O-methylation of catechol oestrogens by pig conceptuses and endometrium during the peri-implantation period

Pig conceptuses display a surge in oestrogen and catecholoestrogen synthetic activity during the peri-implantation period. However, the pathways of catecholoestrogen metabolism in pig conceptuses and endometrium are unknown. O-Methylation is an important route of catecholoestrogen metabolism. Therefore, the O-methylations of 2- and 4-hydroxy-oestradiols (2- and 4-OH-oestradiol) by cytosol of pig conceptuses and endometrium during the peri-implantation period were studied. Kinetic studies performed in tissues obtained on day 13 of pregnancy (day 0 = first acceptance of the male) indicated that the O-methylation of 2-OH-oestradiol displayed simple Michaelis-Menten kinetics in both tissues. In blastocysts, the apparent Michaelis constant (Km) and maximum velocity (Vmax) for the O-methylation of 2-OH-estradiol were 1.4 mumol/l and 11.27 pmol/mg protein per min respectively, and when 4-OH-oestradiol was used as substrate, the values were 2.53 mumol/l and 9.86 pmol/mg protein per min respectively. The apparent Km and Vmax values for the O-methylation of 2-OH-oestradiol in endometrium were 0.77 mumol/l and 19.6 pmol/mg protein per min respectively, and for the O-methylation of 4-OH-oestradiol were 2.44 mumol/l and 10.38 pmol/mg protein per min respectively. Ontogenesis of catechol-O-methyltransferase (COMT) in conceptuses and endometrium was studied from day 10 to day 19 of pregnancy. Conceptus COMT activity was lowest on day 10 and increased gradually to day 19 of pregnancy.(ABSTRACT TRUNCATED AT 250 WORDS)

Estrogen regulates the synthesis of epidermal growth factor in mouse uterine epithelial cells

Immunocytochemical analyses, using several mouse epidermal growth factor (EGF) polyclonal antibodies, detected immunoreactivity only in uterine luminal and glandular epithelia on late proestrus, estrus, and early on day 1 of pregnancy, but not late on day 1. This immunoreactivity was not detected in the ovariectomized uterus, but after estrogen stimulation it was detected first in the luminal epithelium between 12-24 h and then also in the glandular epithelium by 48 h. After 72 h of estrogen withdrawal, EGF immunoreactivity was no longer detected. This response was specific for estrogen and did not occur after progesterone injection (2 mg/day for 4 days). Using antipeptide antibodies specific for prepro-EGF, no immunoreactivity was detected in the ovariectomized uterus, weak reactivity was detected in the estrogenized uterus and submandibular gland, and strong reactivity was detected in the kidney. Northern blot analysis of uterine RNA failed to detect the expected 4.8-kilobase prepro-EGF mRNA, but, instead, a rare transcript of 2.4 kilobases was detected, which suggests that EGF mRNA is alternately processed in the uterus. The presence of an EGF-coding uterine transcript was further documented by hybridization of an EGF-coding region-specific oligodeoxyribonucleotide (oligo) to polymerase chain reaction-amplified uterine cDNA. In situ hybridization, using a prepro-EGF cRNA probe as well as an EGF-coding region-specific oligo, showed hybridization that colocalized with the EGF immunostaining (epithelia) and was absent from non-EGF-immunoreactive cells. Pulse labeling experiments coupled with immunoaffinity chromatography showed that estrogen induced an increase in the relative rate of synthesis of an acid-soluble immunoreactive protein which was the same size as authentic EGF. Furthermore, analysis of acid-soluble uterine proteins fractionated by DEAE-cellulose chromatography demonstrated a single coincident peak of antigenic activity and receptor-binding activity which coeluted from the column with authentic EGF. Electron microscopy localized EGF immunoreactivity to the Golgi of luminal epithelial cells. Taken together these results suggest that estrogen regulates expression of the EGF gene specifically in uterine epithelial cells. Increased expression of this gene results in an increase in the relative rate of synthesis of this protein and the accumulation of mature EGF.

Catechol estrogen formation in the mouse uterus and its role in implantation

Estradiol-2/4-hydroxylase (E-2/4-H) activity was determined in the mouse uterus during early pregnancy as well as in ovarian steroid hormone-treated ovariectomized uterus. Under the assay conditions used, E-4-H was the predominant catechol estrogen-forming monooxygenase enzyme. The inhibition of E-4-H activity by SKF-525A, metyrapone and alpha-naphthoflavone suggested involvement of cytochrome P450-dependent monooxygenases. A haloestrogen, 2-fluoroestradiol (2-FL-E2), also inhibited this activity. During the peri-implantation period, no change in uterine E-4-H activity was noted on the morning of days 2 through 5, but the activity significantly (P less than 0.01) increased in the afternoon of day 4 of pregnancy. A single injection of estradiol-17 beta (E2, 100 ng/mouse) to ovariectomized mice significantly (P less than 0.01) elevated the level of E-4-H activity at 24 h as did injections of progesterone (P4, 2 mg/mouse) for 2 days. When 2 days of P4 (2 mg/mouse) treatment was combined with a single injection of E2 (20 ng/mouse), E-4-H activity increased 1.3-fold (P less than 0.05) by 24 h above that of P4 treatment alone. Dexamethasone (200 micrograms/mouse) and cholesterol (2 mg/mouse) treatment for 2 days had no effect on E-4-H activity. Thus, the stimulatory effect of P4 and E2 on E-4-H activity appeared to be specific. The increased activity of uterine E-4-H prior to implantation on day 4 evening and the modulation of its activity by P4 and/or E2 suggest an involvement of 4-hydroxyestradiol in embryo implantation.(ABSTRACT TRUNCATED AT 250 WORDS)

Estradiol-15 alpha-hydroxylation: a new avenue of estrogen metabolism in peri-implantation pig blastocysts

Pig blastocysts have the capacity to convert estradiol into catechol estrogens. Our present study shows that they also have the capacity to hydroxylate estradiol in cycloaliphatic C-atom 15, and this aliphatic hydroxylation reaction is more predominate than the aromatic hydroxylations. The conversion of [4-14C]estradiol to [4-14C]15 alpha-hydroxyestradiol by mitochondrial-rich/microsomal fractions was examined by isolation of this product using reversed phase high-performance liquid chromatography (HPLC) attached to a radiometric flow detector, and its identification by gas chromatography-mass spectrometry. The enzyme kinetics for estrogen 15 alpha-hydroxylase were performed in the pig blastocyst obtained on Day 13 of pregnancy (Day 0 = first acceptance of the male). The enzyme follows classical Michaelis-Menten kinetics. The apparent Kms for estradiol were 2.47 and 1.85 microM, and the apparent Vmaxs were 0.25 and 0.197 nmol/mg/min in the mitochondrial-rich and microsomal fractions, respectively. The enzyme activity was inhibited by different steroidal compounds and non-steroidal estrogens, as well as by CO, SKF-525A, piperonyl butoxide and antibody to cytochrome P450 reductase. Ontogenesis of the blastocyst's estrogen 15 alpha-hydroxylase follows a similar pattern to that of estrogen-2/4-hydroxylase. Thus, highest activity was observed on Days 12 and 13 and lowest was on Day 15 of pregnancy. Furthermore, the enzyme is abundant primarily in the extraembryonic tissues rather than in the embryo proper. The abundance of the enzyme in the extraembryonic tissues, and its surge at a critical time of pregnancy recognition and just prior to implantation suggest that 15 alpha-hydroxylated estradiol could be involved in these processes.

Catecholoestrogen synthesis and metabolism in the rabbit uterus during the periimplantation period

Microsomal oestradiol-2/4-hydroxylase (OE-2/4-H) and cytosolic catechol-O-methyltransferase (COMT) (EC 2.1.1.6) activity in the uteri of pregnant and pseudopregnant rabbits during the periimplantation period were studied. The apparent Km for the 4-hydroxylation of oestradiol (3.18 microM) was considerably less than for the 2-hydroxylation reaction (13.36 microM), whereas the Vmax were almost equal. This suggests that 4-hydroxyoestradiol (4-OH-OE2) is the predominant product of OE-2/4-H in the rabbit uterus. These reactions were inhibited by SKF-525A, indicating the involvement of cytochrome P450 dependent monooxygenases. Uterine cytosolic COMT utilized 2-hydroxyestradiol (2-OH-OE2) as the preferred substrate as compared to 4-hydroxyoestradiol (4-OH-OE2). Since the rabbit uterus has a considerable capacity to synthesize 4-OH-OE2 and a lower capacity to metabolize it, it could be suggested that more 4-OH-OE2 than 2-OH-OE2 could be available to the uterus for its physiological activities. Furthermore, an increase in OE-2/4-H in Day 6 pseudopregnant and pregnant uteri with a concomitant decrease in COMT suggests the involvement of catecholoestrogens in the implantation process in the rabbit.

Pattern and tissue distribution of catechol estrogen forming activity by pig conceptuses during the peri-implantation period

The profile of catechol estrogen formation by pig conceptuses from d 14 to 20 of pregnancy (d 0 = 1st d of estrus) was studied using a direct product isolation assay for estrogen-2/4-hydroxylase (E-2/4-H). High performance liquid chromatography was coupled to detection of radioactive products in a flowing system to separate the 2- and 4-hydroxyestradiol (2- and 4-OH-E2) formed from estradiol. The major product was 2-OH-E2; its formation increased with increasing amounts of nicotinamide cofactors and exhibited a preference for NADPH. Maximum velocities were 909 and 154 pmol.mg protein-1.30 min-1, and apparent Michaelis constants were 7.14 and 5.12 microns, for 2- and 4-OH-E2 formation, respectively. Homogenates of d-13 conceptuses produced 1,151 +/- 142 pmol.mg protein-1.30 min-1 of 2-OH-E2. Estradiol-2-hydroxylase was affected (P less than .01) by day of pregnancy, and day effects from d 14 to 20 were described by a fourth-order equation (P less than .001). Conceptuses collected on d 14 produced 119 +/- 15.4 pmol of 2-OH-E2.mg protein-1.30 min-1. By d 15, E-2-activity had declined to 15.7 +/- 1.8 pmol.mg protein-1.30 min-1. Formation of 2-OH-E2 increased to 64.2 +/- 15.4 pmol.mg protein-1.30 min-1 on d 17, remained stable through d 19, and was 39.4 +/- 13.8 pmol.mg protein-1. 30 min-1 on d 20. Therefore, E-2/4-H activity appears to be regulated from d 14 to 20 of pregnancy in pigs; it may participate in the establishment of pregnancy.

The estrogen 2-hydroxylase activity of the gonadotropin-stimulated hypophysectomized immature rat ovary

Using high-performance liquid chromatography and a combination of electrochemical and radiometric flow detection for 2-[14C]hydroxyestradiol, changes in estrogen 2-hydroxylase activity in the microsomal fraction of rat ovarian homogenates were followed. Injection of human chorionic gonadotropin (hCG) at 12-hr intervals to hypophysectomized immature rats stimulated hypertrophy of the theca-interstitial tissue and produced a profound increase in enzyme activity. With the last injection of hCG at 96 hr the peak serum concentration of hCG was reached 12 hr later and then decreased exponentially with a half-time of 13 hr. However, enzyme activity remained elevated for at least 60 hr before beginning to fall. Pregnant mare's serum gonadotropin (PMSG) also produced an increase in activity, which was apparently limited to the thecal-interstitial tissue because freshly removed granulosa cells from the mature follicles had undetectable activity levels. Administration of anti-PMSG antiserum after enzyme activity had been increased resulted in a prompt fall in activity, as did injection of hCG to mimic an ovulatory surge of LH. The results indicate that the thecal-interstitial tissue of the rat ovary has estrogen 2-hydroxylase activity that is dependent upon gonadotropic stimulation for expression.

Characteristics of estrogen-2/4-hydroxylase in pig blastocysts: inhibition by steroidal and nonsteroidal agents

The inhibitory potencies of steroidal and non-steroidal estrogens, catechol-estrogens, methoxyestrogen, haloestrogens, cholesterol and its side-chain-cleaved products, and inhibitors of steroid aromatase against the activity of estradiol-2/4-hydroxylase (E-2/4-H) in pig blastocysts were studied. All tested compounds, except cholesterol and 4-hydroxyandrostenedione, inhibited E-2/4-H in vitro. The fluctuation of E-2/4-H activity in pig blastocysts on different days of pregnancy may be due to the modulation of enzyme activity by steroids in the uterine lumen. Although alpha-naphthoflavone and aminoglutethimide did not affect E-2/4-H activity in vitro, inhibition by CO (95% CO + 5% O2), SKF-525A, piperonyl butoxide, and antibody to cytochrome P-450 reductase provides evidence for the involvement of cytochrome P-450 in E-2/4-H activity in pig blastocysts.

Epidermal growth factor binding in rat uterus during the peri-implantation period

The profile of epidermal growth factor (EGF) binding to uterine membranes of rats on Day 1 through Day 7 of pregnancy was studied. The binding was lowest on Day 1 and increased gradually through the pre- and postimplantation periods. Binding affinity of the Day 7 uterine membranes was considerably higher than that of the Day 1. Apparent affinity constants (Ka) of Day 1 and Day 7 membranes were 0.29 X 10(-8) M and 1.03 X 10(-8) M respectively. To our knowledge, this is the first report of the modulation of EGF binding to uterine membranes by progesterone-estrogen interaction during early pregnancy.

Inverse relationship between melanogenesis and endogenous hydroquinone

Inhibition or stimulation of melanogenesis have been found to occur as a result of the alteration of hydroquinone levels in the body. Substances which stimulate melanogenesis are found to lower the level of hydroquinone in amphibia, and evidence for the relationship is also given by mammalian experiments.

A comparative study of tryptophan metabolism in skins and livers of black and albino rats

The skin of black rats contains less tryptophan than the skin of albino rats, possibly because the activity of tryptophan pyrrolase is higher. The opposite is found in liver, possibly because tryptophan pyrrolase activity is lower in the livers of black rats.