Formation of 3H2O from [2-3H]- and [4-3H]estradiol by rat uteri in vitro: Possible role of peroxidase

The mitochondrial fraction of diethylstilbestrol-treated rat uteri, known to contain an estrogen-induced peroxidase, was able to catalyze the release of ³H₂O from either [2-³H]- or [4-³H]estradiol. Hydrogen peroxide added to this system increased the yield of ³H₂O but had no effect on mitochondrial preparations from ovariectomized rat uteri having only very low peroxidase activity. The reaction was inhibited by catalase and also occurred with lactoperoxidase in the presence of H₂O₂ but 2-hydroxyestradiol was not detected in any of these experiments. Under similar conditions, tyrosinase catalyzed the formation of the catechol estrogen with loss of ³H from [2-³H]- or [2,4,6,7-³H]- but not [4-³H]- or [6,7-³H]estradiol. It is proposed that the formation of ³H₂O from ³H-labeled estradiol in the estrogen-treated rat uterus may occur by a peroxidative mechanism which does not necessarily result in hydroxylation of the steroid.     

Effect of estradiol and progesterone on phosphatidylinositol metabolism in the uterine epithelium of the mouse

The effect of estradiol and progesterone on uterine phosphatidylinositol (PtdIns) metabolism was examined in whole uteri and separated uterine luminal epithelium of ovariectomized mice. Incorporation of [3H]myo-inositol in vitro, into inositol-containing phospholipids extracted from whole uteri, increased in mice injected with estradiol, with maximal incorporation at 9-12 h. The breakdown of PtdIns to inositol polyphosphates was also stimulated in whole uteri by estrogen, with an abrupt increase between 6 and 9 h. Comparable increases in both processes occurred in the uterine epithelium after estrogen stimulation and were inhibited by progesterone pretreatment which by itself had little or no effect. These results suggest that PtdIns metabolism is involved in the stimulation of uterine epithelial cell proliferation by estrogens, and its inhibition by progesterone.     

The naturally occurring C-17 fatty acid esters of estradiol are long-acting estrogens

C-17 fatty acid esters of estradiol are naturally occurring biosynthetic metabolites of estradiol. A representative component of this family of esters, estradiol-17-stearate, was studied in order to determine the estrogenic properties of these unusual hydrophobic steroids. Following the classical estrogen bioassay, a solution of this ester in oil was injected subcutaneously into immature rats once a day for 3 days. There was little effect on the uterus on the first day after the third injection. However, on subsequent days a large stimulation of uterine growth occurred. The course of this estrogenic effect was exactly opposite to that obtained with estradiol. In order to eliminate the possibility that this effect on the time course of estrogenic stimulation was caused by increased solubility of the hydrophobic esters in the carrier oil, the steroids were administered to adult ovariectomized animals in aqueous medium via a single intravenous injection. The uterotrophic response to estradiol was maximal at 12 h and was completely dissipated in 48-60 h. Estradiol-17-stearate produced a uterotrophic effect of twice the duration of estradiol. In the immature rat, aqueous intravenous injections of estradiol-17-stearate produced a greater uterotrophic effect than estradiol and this effect was still maximal 96 h later. In addition, this single injection of estradiol-17-stearate advanced the time of vaginal opening, a marker for puberty in the female rat. The mechanism of the prolonged estrogenic stimulation was investigated by studying the steroidal content of the uterus after injecting [3H]estradiol and [3H]estradiol-17 -stearate i.v. into immature rats. At 1 and 4 h there was significantly more radioactivity in the uteri of the [3H]estradiol treated animals. At later times (8 h and onwards) the total radioactivity in the uterus did not differ appreciably between the two groups. However at these later times, the amount of [3H]estradiol was far greater in the uteri of animals receiving [3H]estradiol-17-stearate. Consequently, the prolonged estrogenic effects of the endogenous C-17 fatty acid esters of estradiol are caused by the increased duration of the estrogenic signal. It is hypothesized that one of the roles of the fatty acid is to protect the steroid nucleus from metabolism and thereby prolong the life of the parent C18 steroid. Thus, the results of these experiments are consistent with the family of endogenous alkyl esters of estradiol having a physiological role as long-acting estrogens.     

Identification of immunoassayable estrogen receptor lacking hormone binding ability in tamoxifen-treated rat uterus

Using two different monoclonal antibodies to human estrogen receptor (ER), the enzymeimmunoassay was performed. The values of ER contents in human breast cancer and untreated rat uteri obtained by this procedure were correlated well with those by [3H] estradiol binding assay. When estradiol was injected to immature rats, the enzymeimmunoassay showed the uterine receptor dynamic pattern similar to those analyzed by exchange assays. In contrast, tamoxifen administration induced the immunoassayable but nonsteroid binding form of ER. This ER-like antigen was the heat-labile molecule with the sedimentation constant of 7 S while ER in untreated rat uterine cytosol sedimented at 9 S. These results suggest the presence of unique molecular state of ER induced by tamoxifen.     

The estriol-induced inhibition of the estrogen receptor's positive cooperativity

The effect of estriol on the positive cooperativity of [³H]estradiol binding to the partially purified calf uterine estrogen receptor was investigated using the kinetic analysis of Sasson and Notides (J. biol. Chem. 257 1982, 11540). The receptor was titrated with variable concentrations of [³H]estradiol with or without estriol; the estriol was maintained in a constant molar ratio to the [³H]estradiol concentration. A 4-fold molar excess of estriol above the [³H]estradiol concentrations inhibited the receptor's cooperative [³H]estradiol binding. In the absence of estriol, the [³H]estradiol receptor interaction was highly cooperative, the Scatchard plot was convex and the Hill coefficient was 1.61 ± 0.02a. In the presence of sufficient estriol to reduce the maximally bound [³H]estradiol to 77%, the Scatchard plot was linear and the Hill coefficient was 1.04 ± 0.04. The inhibition of the cooperative [³H]estradiol binding by estriol was not due to isotope dilution of the specifically bound [³H]estradiol by the unlabeled estriol.These data demonstrate that the cooperative binding of ³H]estradiol by the receptor that is characteristic of the equilibrium between the two states of the receptor (active and nonactive) is eliminated by the presence of estriol. This finding is consistent with the agonist/antagonist activity of estriol observed in vivo.     

The steroid ligands of estrogen binding proteins in Xenopus laevis liver cytosol are primarily metabolites of 17β-estradiol

The interactions in vitro between [³H]estradiol and liver proteins from Xenopus laevis have been examined to determine if the binding reaction meets criteria of steroid-receptors which may function in the induction of vitellogenesis. Estrogenic hormones associated with proteins in serum and liver cytosol from Xenopus laevis. However, the interactions between soluble liver proteins and estrogens apparently do not result from serum contamination of liver as specific binding was distinguishable by ligand affinity and by differential mobility on polyacrylamide gels. Steroid ligands bound by liver proteins during incubation in vitro were examined by solubility and by thin-layer chromatography. Only a small percentage (13%) of the bound radioactive ligand was recovered as the original tritium-labeled steroid, 17β-estradiol. The major ligand was recovered as a water-soluble metabolite of estradiol which was identified tentatively as an estradiol-glucoside. To investigate whether the protein-bound estradiol metabolite(s) merely masks a small amount of authentic estradiol-receptor complexes or if the metabolite could be an intermediate in estrogen function, isolated liver nuclei were incubated with liver cytosol containing ³H-labeled steroid-protein complexes or with serum protein-bound [³H]estradiol. Nuclei preferentially accumulated ³H-labelea steroids from liver cytosol protein-steroid complexes relative to [³H]estradiol from serum proteins. However, analysis of the steroids recovered in the nuclei after incubation with liver cytosol revealed that both 17β-[³H]estradiol and the ³H-labeled water-soluble metabolite were retained in vitro by nuclei.     

High affinity estrogen binding by rabbit liver

Macromolecular binding components for [³H]estradiol-17β are present to cytosol prepared from rabbit liver. When cytosol from sexually mature male liver was incubated with [³H]estradiol and analyzed for binding on low ionic strength sucrose gradients, two peaks of binding activity were detected. One peak had a sedimentation coefficient of 4–5 S and the other had a sedimentation coefficient of 8–9 S. The two components differed from each other regarding steroid specicity and various physiocochemical parameters. [³H]-estradiol binding to the 4–5 S component was not inhibited by estrogens, 5α-dihydrotestosterone, progesterone or cortisol. Binding to this component did not appera to be saturable and lavel was rapidly stripped from it by cahrcoal. Estradiol bindng to the 8–9 S component was estrogen specific, saturable and of high affinity. The specific binder dissociates on high ionic strength sucrose gradients and sediments as a 4–5 S moiety. The specific binding protein has a K_d of 3.05 · 10⁻¹⁰ M and a dissociation half-time of 33 h and there are 35.2 fmol of binding sites/mg cytosol protein. Estrogen binders are also present in liver cytosol from sexually mature female and sexually immature male rabbits. During prolonged incbuation of [³H]estradiol with mature male liver cytosol at 0–5°C polar metabolites of estradiol are produced.     

Comparative studies of the 17β-estradiol receptors in rabbit liver,kidney and uterus

The cytosol 17β-estradiol receptors from rabbit kidney, liver and uterus, compared under identical experimental conditions, were similar in terms of their pH-activity profiles, dependence on incubation temperature, sensitivity to sulfhydryl reagents and steroid specificity. 17β-[³H]-Estradiol binding was saturable with all three tissues, having an apparent dissociation constant of 4 × 10⁻¹⁰ M. The binding of 17β-[³H]-estradiol in kidney, liver and uterus was inhibited by estrogens, including estrogen conjugates, but not by testosterone, progesterone or cortisol. The 17β-estradiol receptors of liver, kidney and uterus exhibited significant differences with respect to their Chromatographie behaviour on heparinSepharose. Furthermore, a comparison of their sucrose density gradient centrifugation patterns showed that the 17β-[³H]-estradiol-receptor complex of liver and kidney sedimented at 3-4 S in both low and high ionic strength media, while the uterine receptor sedimented at 7–8 S in low ionic strength media and at 4–5 S in high ionic strength media. When the liver and uterine cytosol fractions were combined the uterine receptor was altered and sedimented at 3–4 S in low ionic strength media.     

Effects of Chronic Restraint Stress and Estradiol Replacement on Glutamate Release and Uptake in the Spinal Cord from Ovariectomized Female Rats

Glutamate is an excitatory neurotransmitter involved in neuronal plasticity and neurotoxicity. Chronic stress produces several physiological changes on the spinal cord, many of them presenting sex-specific differences, which probably involve glutamatergic system alterations. The aim of the present study was to verify possible effects of exposure to chronic restraint stress and 17β-estradiol replacement on [³H]-glutamate release and uptake in spinal cord synaptosomes of ovariectomized (OVX) rats. Female rats were subjected to OVX, and half of the animals received estradiol replacement. Animals were subdivided in controls and chronically stressed. Restraint stress or estradiol had no effect on [³H]-glutamate release. The chronic restraint stress promoted a decrease and 17β-estradiol induced an increase on [³H]-glutamate uptake, but the uptake observed in the restraint stress +17β-estradiol group was similar to control. Furthermore, 17β-estradiol treatment caused a significant increase in the immunocontent of the three glutamate transporters present in spinal cord. Restraint stress had no effect on the expression of these transporters, but prevented the 17β-estradiol effect. We suggest that changes in the glutamatergic system are likely to take part in the mechanisms involved in spinal cord plasticity following repeated stress exposure, and that 17β-estradiol levels may affect chronic stress effects in this structure.     

Effects of Sulfhydryl Reagents on Uterine Nuclear Estrogen Receptors Labeled by in Vitro Exchange with [3H]Estradiol or [3H]4-Hydroxytamoxifen

Abstract

We have attempted to convert 4 S uterine nuclear estrogen receptors obtained after in vitro labeling with [³H]antiestrogens to 3 S, the form observed after in vitro exchange with [³H]estradiol, in order to examine the possible relationship between these forms. Treatment of nuclear extracts labeled with the high affinity antiestrogen, [³H]4-hydroxytamoxifen, with a variety of nucleases, phosphatases, or proteases either had no effect on the 4 S antiestrogen-receptor complex or led to loss of ligand binding. The sulfhydryl reducing agents, cysteine or reduced glutathione, on the other hand, brought about conversion of 4 S estrogen receptors to components sedimenting at about 3 S. Conversely, when oxidized glutathione was included in all buffers used for preparation and labeling of nuclear estrogen receptors with [³H]estradiol, more rapidly sedimenting (?4.6 S) forms of estrogen-receptor complex predominated. Cysteine still effected the 4 S to 3 S conversion when nuclear estrogen receptors, partially purified by sucrose gradient centrifugation, were used as substrate, suggesting a direct action of the sulfhydryl reagents on receptor molecules. From these results we propose that nuclear estrogen and antiestrogen-receptor complexes may differ in conformation such that the former may be more sensitive to the action of an endogenous reducing agent which contributes to formation of 3 S [³H]estradiol-receptor complexes.     

Binding characteristics of estrone,estradiol and estriol to the human myometrial estrogen receptor

The human myometrial estrogen receptor in cytosol from pre-menopausal uterine samples has been characterized. At 0° estradiol (K_D 0.38 × 10⁻¹⁰M) has the highest affinity to the receptor followed by estrone (K_D 0.76 × 10⁻¹⁰M) and estriol ((K_D 1.33 × 10⁻¹⁰M). The association rate constant is 2.8 × 10⁵M⁻¹s⁻¹ for estradiol, 2.1 × 10⁵M⁻¹s⁻¹ for estrone and 0.79 × 10⁵M⁻¹s⁻¹ for estriol. The dissociation constants and the association rate constants increase with temperature. The calculated thermodynamic parameters indicate a positive change in entropy for the formation of the estrogen receptor complex.The cytoplasmic estrogen receptor has a sedimentation coefficient of 4 s in low salt sucrose gradients. In buffer containing diisopropylfluorophosphate (DFP) to inhibit proteolytic activity the estrogen receptor complex sediments solely as an 8 s peak if [³H]-estradiol is added to the buffer prior to homogenization and the tissue sample is used immediately after hysterectomy. Estrogen receptor complexes that sediment at 4 s and 8 s are found if [³H]-estradiol is omitted from the homogenization buffer and instead added after the cytosol preparation. Most likely a protease is involved the activity of which is not completely inhibited by DFP.Addition of low concentrations of Cu²⁺ (10 μM) to the cytosol increases the dissociation constant and decreases the estrogen-binding capacity of the receptor. The rate of association is reduced in the presence of 20 μM Cu²⁺. The estrogen receptor complexes do not show any change in their sedimentation profiles in the presence of Cu²⁺.     

Androgen receptor-mediated inhibition of estrogen-induced uterine peroxidase

Flutamide, an anti-androgen known to act through the androgen receptor, abolished the inhibitory action of testosterone on the induction of peroxidase in immature rat uteri without affecting inhibition produced by progesterone. The time course of the androgen effect on estrogen-induced uterine peroxidase, uterine weight and glucose 6-phosphate dehydrogenase activity was also determined together with the effect of flutamide on these steroid hormone-sensitive parameters. The possible mechanism of action of these compounds is discussed, particularly in the light of estrogen-induced eosinophilia. It is proposed that the observed interaction between testosterone and estradiol is mediated through their own specific receptors and not by illicit occupation of the estrogen receptor by the androgen. 5-Androstene-3 beta, 17 beta-diol (Adiol), an androgen known to exert estrogenic effects through the estrogen receptor, induced uterine peroxidase and was without significant effect on the action of estradiol, in contrast to testosterone.     

Progesterone-induced estrogen receptor-regulatory factor is not 17β-hydroxysteroid dehydrogenase

These studies were done to determine if the progesterone-induced estrogen receptor-regulatory factor (ReRF) in hamster uterus is 17β-hydroxysteroid dehydrogenase (17β-HSD), i.e. that rapid loss of nuclear estrogen receptor (Re) might be due to enhanced estradiol oxidation to estrone catalyzed by 17β-HSD. Treatment of proestrous hamsters with progesterone (~25 mg/kg BW) for either 2 h or 4 h had no effect on 17β-HSD activity measured as the rate of conversion of [6,7-³H]estradiol to [³H]estrone by whole uterine homogenstes at 35°C. During this same time interval, progesterone treatment increased the rate of inactivation of the occupied form of nuclear Re as determined during a 30 m1n incubation of uterine nuclear extract in vitro at 36°C. Since we previously demonstrated that such in vitro Re-inactivating activity represents ReRF, the present studies show that ReRF is not 17β-HSD or a modifier of that enzyme.     

Pregnancy-stimulated growth of vascular smooth muscle cells: Importance of protein kinase C-dependent synergy between estrogen and platelet-derived growth factor

Dramatic smooth muscle cell (SMC) growth occurs in the uterine artery during pregnancy. The potential for pregnancy-associated growth may also exist at other vascular sites. We tested the hypothesis that increased growth of uterine artery SMC isolated from pregnant (vs. nonpregnant) guinea pigs would be detectable in culture, that pregnancy-associated phenotypic changes would also be found in nonuterine vascular cells (aortic SMC), and that the enhanced growth would be dependent on estrogen, peptide growth factors like platelet-derived growth factor (PDGF), and protein kinase C (PKC). Growth responses were measured by [³H]-thymidine incorporation and cell counts. Uterine artery SMC from pregnant guinea pigs grew to a higher plateau density with serum stimulation, had increased spontaneous DNA synthesis and persistent growth following serum withdrawal, and were more responsive to 3–30 ng/ml PDGF-BB than nonpregnant cells. Aortic SMC from pregnant animals also grew to a higher plateau density and had enhanced responsiveness to PDGF-BB. This increased response to PDGF-BB by pregnant uterine artery and aortic SMC (40–233% increase over nonpregnant PDGF result) was reproduced in nonpregnant cells by pretreatment for 1–24 h with 17-beta(β)-estradiol (30–100 nM). Neither the pregnancy-induced difference nor the estradiol pretreatment was associated with increased PDGF-BB binding activity. The synergistic effect of 17β-estradiol was partially (62%) reproduced with 17-alpha(α)-estradiol, an isomer which does not bind the estrogen receptor. This suggested that 17β-estradiol modulates the PDGF-BB response by both estrogen-receptor- and nonreceptor-mediated mechanisms. To test if the estrogen effects were dependent on PKC, two different antagonist strategies (3 μM dihydrosphingosine and phorbol-ester-induced downregulation) were applied prior to 17α- or β-estradiol and blocked the enhanced responses to PDGF. The synergistic effect of 17β-estradiol on PDGF was then reproduced by 1 h pretreatment with the cell-permeable PKC activator, 10 nM PMA. We conclude that pregnancy stimulates increased growth of uterine and aortic SMC in vitro which is dependent on estrogen, PDGF, and PKC and may be important in vascular remodeling during pregnancy. © 1996 Wiley-Liss, Inc.     

Estradiol stimulates Akt, AMP-activated protein kinase (AMPK) and TBC1D1/4, but not glucose uptake in rat soleus

Post-menopausal women exhibit decreases in circulating estrogen levels and whole body insulin sensitivity, suggesting that estrogen regulates skeletal muscle glucose disposal. Thus, we assessed whether estrogen stimulates glucose uptake or enhances insulin sensitivity in skeletal muscle. Ex vivo muscle stimulation with 17β-estradiol (10 nM) resulted in a rapid (?10 min) increase in the phosphorylation of Akt, AMP-activated protein kinase (AMPK), and TBC1D1/4, key signaling proteins that regulate glucose uptake in muscle. Treatment with the estrogen receptor antagonist, ICI 182,780, only partly inhibited signaling, suggesting both an estrogen receptor-dependent and independent mechanism of estradiol action. 17β-Estradiol did not stimulate ex vivo muscle [³H]-2-deoxyglucose uptake or enhance insulin-induced glucose uptake, demonstrating discordance between the estradiol-induced stimulation of signaling proteins and muscle glucose uptake. This study is the first to demonstrate that estradiol stimulates Akt, AMPK, and TBC1D1/4 in intact skeletal muscle, but surprisingly, estradiol does not stimulate muscle glucose uptake.     

Estrogen synthesis and metabolism in the hamster blastocyst, uterus and liver near the time of implantation

The steroidogenic potential of hamster tissues, just prior to implantation of the blastocyst in the uterus, was characterized by incubating blastocysts (14) and pieces of endometrium with [1, 2-3H]-androstenedione for 24 h. [3H]-2-Methoxyestradiol was synthesized, but intermediate estrogens were not found. To obtain a more quantitative assessment and comparison of steroidogenic activity, especially aromatase activity, in these tissues as well as in the uterine myometrium and liver and to increase the possibility of recovering estradiol, microsomes were isolated from 244 blastocysts and portions of the other tissues. Microsomes were incubated with [1 alpha, 2 alpha-3H]-testosterone plus [1 beta,2 beta-3H]-testosterone for 6 h. During this time [3H]-metabolites were synthesized by all tissues as indicated by HPLC. [3H]-Androstenedione was noted and values were higher than control levels (medium alone or microsomes from uterine flush fluid) in all samples but liver. [3H]-Estradiol was detected at an elevated level only in the blastocyst sample; however, addition of unlabeled estradiol during the subsequent incubation of endometrial, myometrial and liver microsomes increased the recovery of [3H]-estradiol. Identities of [3H]-2-methoxyestradiol from the first experiment and [3H]-androstenedione and [3H]-estradiol from the second experiment were confirmed by recrystallization. The formation of 3H2O from [beta-3H]-testosterone was used as an index of aromatase activity. After subtracting control medium values, blastocysts were 24-fold more active (dpm/microgram protein) than the endometrium and myometrium in synthesizing 3H2O. While there was no difference in synthetic potential between endometrium and myometrium, aromatase activity in these tissues was greater than that of the liver. Microsomes from uterine flush fluid displayed no capacity for synthesizing 3H2O indicating that the elevated blastocyst levels were not caused by contaminating endometrial cells. These results indicate that all of the tissues examined have the capacity to metabolize C19-steroids to a variety of hormones, including estrogens, and further, that estrogen metabolism occurs rapidly in these tissues. This capacity may be important for providing a suitable hormonal milieu at the time of implantation.     

Differential blockade of estrogen-induced uterine responses by the antiestrogen nafoxidine

We have used an experimental design described by Gardner et al. [6] for dissociating early and late uterine responses to estradiol, involving pretreatment of immature rats with 5 micrograms nafoxidine (Upjohn U-11, 100 A, UA) for 24 h, before administrating estradiol. In these conditions the authors showed that responses occurring 4-h after estradiol administration were not blocked, while 24-h responses were abolished. These findings were defined and extended in the present investigation which shows that: (1) The overall wet weight response of the uterus to estradiol in UA-pretreated animals is decreased when compared to saline pretreated rats. (2) The early increase in cGMP content induced at 2-4 h by estrogen is also decreased but not abolished by the pretreatment with UA, contrary to the late increase in cGMP, which is abolished. (3) The late estrogen-induced proliferative response, measured by the [3H]thymidine labeling index, in the myometrium, stroma and luminal epithelium is maintained after pretreatment with UA. It is remarkable that this occurs in the absence of any estrogen induced uterine hypertrophy as measured by the 24-h increase in uterine weight and RNA or protein content. These results strongly support the hypothesis proposed by Gardner et al. [6] that different control mechanisms might regulate early and late uterine responses to estrogen. Our data suggest the existence of the following dissociable groups of response: (1) Wet weight increase and early increase in cGMP content, (2) Late hypertrophy and second rise in cGMP content and (3) Proliferative response; which are respectively, moderately depressed, abolished or unaffected by UA pretreatment.     

Studies on follicular growth in the immature rat and hamster: Effect of a single injection of gonadotropin or estrogen on the rate of3H-thymidine incorporation into ovarian DNAin vitro

Initiation of follicular growth by specific hormonal stimuli in ovaries of immature rats and hamsters was studied by determining the rate of incorporation of³H-thymidine into ovarian DNAin vitro. Incorporation was considered as an index of DNA synthesis and cell multiplication. A single injection of pregnant mare serum gonadotropin could thus maximally stimulate by 18 hr³H-thymidine incorporation into DNA of the ovary of immature hamsters. Neutralization of pregnant mare serum gonadotropin by an antiserum to ovine follicle stimulating hormone only during the initial 8–10 hr and not later could inhibit the increase in³H-thymidine incorporationin vitro observed at 18 hr, suggesting that the continued presence of gonadotropin stimulus was not necessary for this response. The other indices of follicular growth monitored such as ovarian weight, serum estradiol and uterine weight showed discernible increase at periods only after the above initial event. A single injection of estrogen (diethyl stilbesterol or estradiol-l7β) could similarly cause 18 hr later, a stimulation in the rate of incorporation of³H-thymidine into DNAin vitro in ovaries of immature rats. The presence of endogenous gonadotropins, however, was obligatory for observing this response to estrogen. Evidence in support of the above was two-fold: (i) administration of antiserum to follicle stimulating hormone or luteinizing hormone along with estrogen completely inhibited the increase in³H-thymidine incorporation into ovarian DNAin vitro; (ii) a radioimmunological measurement revealed following estrogen treatment, the presence of a higher concentration of endogenous follicle stimulating hormone in the ovary. Finally, administration of varying doses of ovine follicle stimulating hormone along with a constant dose of estrogen to immature rats produced a dose-dependent increment in the incorporation of³H-thymidine into ovarian DNAin vitro. These observations suggested the potentiality of this system for developing a sensitive bioassay for follicle stimulating hormone.     

Characteristics of estrogen-induced peroxidase in mouse uterine luminal fluid.

Peroxidase activity in the uterine luminal fluid of mice treated with diethylstilbestrol was measured by the guaiacol assay and also by the formation of 3H2O from [2-3H]estradiol. In the radiometric assay, the generation of 3H2O and 3H-labeled water-soluble products was dependent on H2O2 (25 to 100 microM), with higher concentrations being inhibitory. Tyrosine or 2,4-dichlorophenol strongly enhanced the reaction catalyzed either by the luminal fluid peroxidase or the enzyme in the CaCl2 extract of the uterus, but decreased the formation of 3H2O from [2-3H]estradiol by lactoperoxidase in the presence of H2O2 (80 microM). NADPH, ascorbate, and cytochrome c inhibited both luminal fluid and uterine tissue peroxidase activity to the same extent, while superoxide dismutase showed a marginal activating effect. Lactoferrin, a major protein component of uterine luminal fluid, was shown not to contribute to its peroxidative activity, and such an effect by prostaglandin synthase was also ruled out. However, it was not possible to exclude eosinophil peroxidase, brought to the uterus after estrogen stimulation, as being the source of peroxidase activity in uterine luminal fluid.