Time course of anterior pituitary estrogen receptor after low 17 beta-estradiol doses in ovariectomized rats

The present paper describes the effect of three 17-beta-estradiol (E2) doses (1, 10 and 500 ng E2/kg) on the cytosolic and nuclear estrogen receptor content of anterior pituitary (Ap) of ovariectomized rats. The estrogen receptors were measured by [3H]E2 exchange in cytosol and crude nuclear fractions. Two hours after the administration of 10 or 500 ng E2/kg the Rc showed a depletion to 20-30% of preinjection level. The 1 ng E2/kg dose did not provoke any Rc depletion. The Rc replenishment was completed 5 h after injection of 10 ng E2/kg, but it was delayed to 10 h after injection of 500 ng E2/kg. An increased amount of Rc over the control levels was produced by 1 and 10 ng E2/kg doses, but not by the 500 ng E2/kg. The Rn level in Ap increased significantly after all E2 doses, and their highest levels were similar for 1, 10 and 500 ng E2/kg. These results suggest that some estrogenic responses like synthesis of the estrogen receptor proteins, can be elicited without previous significant Rc depletion. The relationships between Rc and Rn in Ap suggest an autoregulatory mechanism for the control of the cellular level of unbound estrogen receptors, that can be altered by the exogenous E2.     

Androgen-induced nuclear accumulation of the estrogen receptor.

The effect of androgens on the nuclear uptake of both tritiated estradiol (3H-E2) and the estrogen receptor was studied in immature rat uteri. It was demonstrated that in vitro preincubation of immature rat uteri with various androgens (1 muM to 50 muM) followed by incubation with 3H-E2 (20 nM) resulted in a greatly decreased specific nuclear uptake of 3H-E2. Non-androgenic steroids had no effect. It was also confirmed that 5alpha-dihydrotestosterone (DHT) causes the accumulation of the estrogen receptor in the nuclei of uterine tissue. In vitro incubations of rat uteri with DHT (1muM and 50muM) were found to cause maximal nuclear estrogen receptor accumulation to the same degree as caused by estradiol, i.e. the nuclear uptake of approximately 100% of the estrogen receptor. Antiandrogens, which block the binding of androgens to the testosterone receptor in various tissues, did not inhibit the DHT - induced decrease in the 3H-E2 uptake by the uterine nuclei or the DHT - caused accumulation of the estrogen receptor in nuclei. These results seem to indicate that the uterine testosterone receptor has no role in the androgen - induced nuclear uptake of the estrogen receptor. However, the non-steroidal antiestrogens inhibited the DHT - induced nuclear accumulation of the estrogen receptor. This would seem to indicate that the estrogen - and androgen - induced nuclear accumulation of the estrogen receptor share a common mechanism.     

Estrogen receptors in the rat uterus. Retention of hormone-receptor complexes.

The retention pattern and biochemical characteristics of estrogen receptors in the nuclei of uterine cells were studied as a function of time after the in vivo injection of estradiol (E2) to immature female rats. One hour after the injection of 0.1 mug of tritiated E2, approximately 0.20 pmol per uterus of receptor bound hormone is retained in uterine nuclei. This dose of E2 produces a maximal uterotrophic response. Six hours after E2 administration, uterine nuclei retain 0.04-0.08 pmol of hormone per uterus. Hormone receptor complexes extracted from uterine nuclei 1, 3, and 6 h after in vivo injection of hormone have similar structural and binding characteristics. Receptors extracted at all three times sediment at 5S in high salt gradients and have a dissociation binding constant of approximately 3 nM for E2. The wash-out curves of receptors as a function of salt concentration are identical for uterine nuclei from animals treated for 1 or 6 h with estradiol, suggesting that the nature of the nuclear binding of receptors is not altered during this time interval. Experiments utilizing the injection of unlabeled estradiol, followed by an in vitro exchange procedure with tritiated estradiol, indicated that the total nuclear estrogen receptor sites, i.e., filled and vacant, decreased similarly.     

Continuous estrogen exposure in the rat does not induce loss of uterine estrogen receptor

Cytosol estrogen receptor (ERc) and nuclear estrogen receptor (ERN) levels were investigated in rat uteri under different conditions of hormonal exposure. The amount of directly assayable receptor was closely related to the serum concentration of 17 beta-[2,4,6,7-3H] estradiol ( [3H]E2). A double injection technique was established to maintain serum levels of [3H]E2 which were sufficient to saturate receptor sites. Under these conditions, stable ERC and ERN levels are maintained throughout the study period. 30% of the total ER remains cytoplasmic in localization despite continuous hormonal exposure. Properties of ERC and ERN after 6 h of continuous hormonal exposure were investigated and found to be different from receptors found in these subcellular compartments 30 min after hormone injections. ERC from uteri 30 min after injection showed a faster sedimentation coefficient than ERC prepared 6 h after hormone treatment. ERC after 6 h of hormonal exposure showed a reduction of binding to calf thymus DNA adsorbed on cellulose in a cell-free system. ERC 30 min after [3H]E2 treatment had a biphasic dissociation pattern consistent with two different receptor populations, whereas uterine ERC obtained after 6 h of in vivo exposure to estradiol showed virtually no dissociation at 22 and 28 degrees C. In contrast to ERC, ERN 6 h after hormone injection sedimented faster than ERN obtained 30 min after treatment. KCl extractable ERN obtained either at 30 min or 6 h posthormone treatment showed biphasic dissociation kinetics at 22 and 28 degrees C, whereas KCl nonextractable ERN showed virtually no dissociation. Virtually all of the specifically bound ligand in cytosol and nuclear preparations was proven to be authentic E2. We conclude that total cellular receptor is quantitatively conserved during 6 h of continuous hormonal treatment. Nuclear receptor loss is not a requisite for receptor-mediated steroid function, although important time-dependent changes in receptor properties in both cytoplasmic and nuclear compartments do occur.     

Relationship between occupied form of nuclear estrogen receptor and cytosolic progesterone receptor or DNA synthesis in uteri of estradiol implanted rats

The effect of 17 beta-estradiol (E2) implantation on the cytosolic progesterone receptor (RcP), DNA and occupied form of nuclear estrogen receptor (o- Rn) content in the uterus of ovariectomized adult rats, is described. Animals were implanted with oil or E2-oil solution in Silastic capsules. The latter group animals were divided into two subgroups: in subgroup (a), capsules remained in situ until decapitation time. In subgroup (b) they were removed 48 h after implantation. The E2 implantation caused a significant increase in uterine weight, RcP and o-Rn content 48 h later. However, the DNA content increased significantly only after 72 h, but there was no significant difference in the t-Rn concentration in relation to the non-estrogenized animals. In subgroup (a) animals, these values remained unchanged until 96 h. In subgroup (b), the removal of E2 implants 48 h later caused an almost complete return to the values before the E2 implantation in terms of uterine weight, RcP and o-Rn content. However the DNA concentration remained higher and the t-Rn level was lower than those values that were obtained for the non- estrogenized rats. These results suggest that the RcP and DNA synthesis induced by E2 would be connected to the level of o-Rn, although a closer dependency over time seems to exist between the o-Rn and RcP levels than between the o-Rn and DNA concentrations.     

Increased LH pulse frequency and estrogen secretion associated with termination of anestrus followed by enhancement of uterine estrogen receptor gene expression in the beagle bitch

The relationships among pulsatile LH secretion pattern, estrogen secretion, and expression of the uterine estrogen receptor gene were examined throughout the estrous cycle in beagle bitches. In Experiment 1, blood samples were collected from 30 bitches every 10 min for 8 h from a cephalic vein during different phases of the estrous cycle. An increase in the mean plasma levels of LH occurred from mid to late anestrus (P < 0.01). The LH pulse frequency increased (P < 0.01) from late anestrus to proestrus, and was strongly correlated (r = 0.96, P < 0.001) with the mean plasma level of estradiol-17 beta (E2). In Experiment 2, middle uterine samples, including the myometrium and endometrium, from 18 bitches were taken at 6 stages of the estrous cycle. The total number of estrogen receptors and nuclear estrogen receptor and its mRNA levels in the uterus also increased (P < 0.01) from late anestrus to proestrus. Mean plasma E2 level and the number of uterine estrogen receptor were positively correlated (r = 0.81, P < 0.05). In Experiment 3, nine bitches were ovariectomized in mid anestrus. Two weeks later they received a single injection of 10 or 50 micrograms/kg, i.m., estradiol benzoate. The number of uterine estrogen receptor and their mRNA levels for ovariectomized bitches were low, but increased (P < 0.05) after treatment with a low dose of estradiol benzoate. These results suggest that increases in LH pulse frequency and estrogen secretion are associated with termination of anestrus and that subsequent enhancement of uterine estrogen receptor expression may be up-regulated by estradiol.     

Chronic estrogen treatment causes an alteration in uterine estrogen receptor dynamics of rats

Estrogen receptor content and dynamics in the uteri obtained from chronically estrogenized rats were analyzed. 12 day treatment with a subcutaneous implantation of a diethylstilbestrol pellet resulted in maximal stimulation of uteri with regard to wet tissue weight, DNA content, as well as progesterone receptor content without significant alteration of the estrogen receptor level. Estrogen receptor dynamics in just ovariectomized or ovariectomized and diethylstilbestrol-stimulated rats elicited by a single injection of estradiol were next examined using the exchange methods. The cytosol receptor content rapidly declined, with a small and temporary accumulation of the nuclear receptor in the uterus from rats continuously exposed to diethylstilbestrol during the preceding 12 days. A relatively rapid cytosol receptor replenishment was also observed in rats pretreated with diethylstilbestrol. This was accompanied by a rapid decrease in the nuclear receptor level to 70% of the preinjection value at 5 h after estradiol administration. These data are in contrast to findings on uteri of ovariectomized and nonestrogen-treated rats, in which a single injection of estradiol resulted in a prolonged nuclear receptor retention and a delayed cytosol receptor replenishment. Adrenalectomy did not result in a significant change of receptor dynamic patterns, suggesting that adrenal steroids do not play a role in the alteration of receptor dynamics elicited by continuous stimulation with diethylstilbestrol. These observations suggest that a continuous exposure of rat uteri to the estrogen causes an altered regulation of estrogen receptor dynamics by the homologous steroid compared to those in chronically estrogen-deprived rats.     

The antiestrogen LY117018 is estrogenic in the fetal rat

LY117018 (LY) has high affinity for the adult rat uterine estrogen receptor, has little uterotrophic activity, and inhibits many estradiol (E2)-induced responses in the adult or immature uterus. In these studies, LY was injected into day 19 rat fetuses, with and without diethylstilbestrol (DES) or E2, to determine whether it could block the estrogen-induced teratogenesis. LY at 1, 25, or 50 micrograms/fetus failed to decrease the 15-70% incidences of oviduct malformation and cleft phallus induced by DES (2.5 micrograms/fetus) or E2 (50 micrograms/fetus). However, LY alone (1-50 micrograms/fetus) was more potent than E2 in eliciting these same urogenital malformations. LY also failed to compete in vitro for plasma protein-bound 3H-E2, and therefore, like DES, is more available than E2 for uptake into fetal tissues. Thus, in the fetus, unlike the adult, LY was an estrogen agonist, which indicates that the fetus has a very different sensitivity than the adult to estrogenic compounds.     

In vitro and in vivo binding of toremifene and its metabolites in rat uterus

The in vitro binding affinities of toremifene (TOR), 4-hydroxy toremifene (4-OH-TOR) and several other metabolites for the rat uterine cytosolic estrogen receptor were compared with those of tamoxifen (TAM) and 4-hydroxy tamoxifen (4-OH-TAM). Only small differences were observed and the binding affinities of both 4-hydroxy metabolites were similar to that of estradiol (E2). Uterine uptake and subcellular distribution of [3H]TOR and [3H]TAM were then compared at 1, 8 and 72 h after administration to castrated rats. The uptake and retention of both antiestrogens were similar at all times. In each case the amount of nuclear bound radioactivity declined to low levels at 8 and 72 h but the ratios of 4-OH-TAM/TAM and 4-OH-TOR/TOR determined by HPLC analysis increased dramatically at 72 h. The level of radioactivity in both plasma and uterine cytosol at 72 h was significantly higher following [3H]TAM administration. However, most of the radioactivity appeared to be in a conjugated form since it was not extractable with solvent. Finally, the ability of prior administration of each antiestrogen (100 mg/kg) to block uterine [3H]estradiol uptake was examined at 3 and 7 days. It was found that uterine wet weights were higher than control one week after administration of both compounds. Prior administration of TOR increased nuclear uptake of [3H]E2 whereas TAM had no effect. The results of these experiments suggest that toremifene and tamoxifen have very similar in vitro and in vivo binding properties but differences in metabolism exist that may be important.     

Changes in the 17 beta-hydroxysteroid dehydrogenase activity of mouse blastocysts during delayed implantation

The rate of estrone (E1)----estradiol-17 beta (E2) or E2----E1 conversion catalyzed by 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) activity was determined for each mouse embryo in modified F-10 medium containing 0.95 microM 3H-E1 or 3H-E2. During delayed implantation, the E1----E2 conversion rate was decreased (p less than 0.005) from 5.69 +/- 0.34 fmol/h/blastocyst on Day 5 to 3.50 +/- 0.46 fmol/h/blastocyst on Day 9, whereas E2----E1 was increased (p less than 0.005) from 7.44 +/- 1.08 to 18.60 +/- 2.04 fmol/h/blastocyst. After estrogen injection, the Day 9 implanting blastocyst showed an increase (p less than 0.005) in E1----E2 conversion to 9.05 +/- 0.64 fmol/h/blastocyst but a slight, insignificant decrease in E2----E1 conversion to 14.2 +/- 1.82 fmol/h/blastocyst. A similar trend was also observed in Day 5 implanting blastocysts when compared to Day 5 delayed blastocysts. Thus, 17 beta-HSD activity in delayed blastocysts favors E2----E1 over E1----E2 conversion in a ratio of 5:1. After estrogen induction of implantation, the E1----E2 conversion rate is stimulated and the ratio of E2----E1 to E1----E2 rate is decreased to 1.5:1. The results suggest that 17 beta-HSD activity may be involved in blastocyst implantation.     

Replenishment of uterine estrogen receptor in chronically estrogenized rats

Replenishment of uterine estrogen receptor (ER) following a single injection of estradiol-17 beta (E2) was examined in chronically estrogenized rats. Subcutaneous implantation of E2-pellet for 7 days in ovariectomized rats resulted in a significant stimulation of uteri with regard to wet tissue weight, DNA content and progesterone receptor content, with a shift of ER distribution. An intraperitoneal injection of 5 micrograms E2 in the E2-implanted rats induced a significant decrease in soluble ER (from 141.1 +/- 12.6 to 69.2 +/- 8.8 fmol/mg protein) with a concomitant increase in nuclear ER (from 58.2 +/- 8.6 to 129.2 +/- 11.6 fmol/100 micrograms DNA) 1 h after the injection. However, soluble ER was rapidly replenished, which was accompanied by nuclear ER reduction, and both values returned to the pre-injection levels at 4 h after the injection. An administration of 150 micrograms cycloheximide, that effectively blocked protein synthesis in the uterus of the E2-implanted rats, completely inhibited the replenishment of soluble ER induced by 5 micrograms E2. These findings, combined with our previous findings that replenishment of ER following a single E2 administration in the pituitary of chronically estrogenized rats was inhibited by cycloheximide, suggest that replenishment of ER is entirely dependent on protein synthesis in chronically estrogenized rats.     

Characterization of uterine sex steroid receptors in the pig and their variation during the oestrous cycle

The present study establishes and validates an in vitro binding and exchange assay for tissue receptors for oestradiol (E) and progesterone (P) in pig uterus. Both hormones bound to specific cytoplasmic (Rc) and nuclear (Rn) receptor proteins with high affinity. The relative concentrations of the receptors were measured in dissected samples from endometrium and myometrium obtained at late prooestrus, oestrus, and luteal phases of the oestrous cycle. The Scatchard analysis of the oestradiol and R 5020-receptor complex displayed linearity and indicated a single class of high affinity, low capacity binding sites. Significant variations were seen in the binding of E and P to their cytosolic and nuclear receptors, following the changes in the circulating levels of the hormones in blood plasma during the oestrous cycle. Both tissue components, i.e. endometrium and myometrium followed a similar pattern when related to the stage of the oestrous cycle considered. The ERc increased from prooestrus, reaching a maximum at standing oestrus, thereafter decreasing. The concentration of ERn increased from prooestrus towards the early luteal phase, with a significant reduction by day 8 of the cycle. The amounts of PRc were maximal at standing oestrus, remaining high during the early luteal phase, while the PRn showed a linear increase from oestrus onwards throughout the luteal phase.     

Rapid recovery of nuclear estrogen receptor and oxytocin receptor in the ovine uterus following progesterone withdrawal

We previously showed that progesterone rapidly down regulates nuclear estrogen receptor (Re) in the estrogen-primed rodent uterus. We have now extended these studies to test the response of the Re system in sheep uterus to progesterone withdrawal. Since the estrogen-Re complex is believed to regulate hormone-dependent gene expression, it was of interest to determine whether withdrawal of progesterone under constant estrogen stimulation would lead to the recovery of nuclear Re levels and estrogen action, i.e. oxytocin receptor (ROT) synthesis. Ovariectomized ewes were primed with estradiol-17 beta and serum steroid levels were maintained by constant infusion of estradiol (0.5 microgram/h) and progesterone (500 micrograms/h) for 5 days. The animals were anesthetized with fluothane/O2, and uterine samples were excised 1 h before and 3, 6 and 12 h after progesterone withdrawal. Estradiol infusion was continued during the experiment in order to maintain estrogen levels at a steady state (14 pg/ml plasma). Re, ROT and progesterone receptor (Rp) were measured in endometrium and myometrium using standard 3H-hormone binding assays. Following progesterone withdrawal, the nuclear Re concentration increased in both uterine compartments, and the nuclear Re level was correlated significantly with the ROT concentration in the membrane fraction of both uterine tissues (endometrium, r = 0.79; myometrium, r = 0.86). Although cytosol Re rose between 6 and 12 h in the endometrium, cytosol Re levels remained unchanged in myometrium. Cytosol Rp appeared to increase in endometrium but not in myometrium. Uterine tissue sampled from a control animal before stopping the progesterone infusion revealed that the observed changes in receptor concentration following progesterone withdrawal were not due to regional differences in receptor levels. These results demonstrate that the recovery of nuclear Re in the ovine endometrium and myometrium following progesterone withdrawal represents a selective effect on Re retention in the nucleus rather than on cytosol Re availability or Re activation which was controlled by constant estrogen infusion. Thus, these results are consistent with the hypothesis that progesterone induces an Re regulatory factor which acts to down regulate nuclear Re, and that the activity of this factor diminishes rapidly after progesterone withdrawal.     

CDRI-85/287: studies on competition to estrogen binding sites in the immature rat uterus.

Ability of compound CDRI-85/287, a new nonsteroidal antiestrogen with negligible inherent estrogenicity, to inhibit uptake of 3H-estradiol (3H-E2) by the immature rat uterus in vivo was investigated. Different doses of 85/287 were administered either intraperitoneally 30 min before 3H-E2 or orally 1 and 6 hr before 3H-E2. A dose dependent inhibition in 3H-E2 uptake was observed after administration of the compound by either route and was 69% at 50 micrograms/rat ip dose and 80% at 2.5 mg/kg po dose. In in vitro competitive binding assay, however, the compound showed poor affinity (RBA 0.42% of estradiol-17 beta) for cytosolic estrogen receptors. Considering the potent anti-estrogenic as well as anti-implantation efficacy of the compound, its action in vivo appears to be mediated via its active metabolite(s).     

Retinol-binding protein mRNA is induced by estrogen in the kidney but not in the liver

Vitamin A is mobilized from the liver and transported in plasma as retinol bound to retinol-binding protein (RBP). In addition to the liver, several extrahepatic tissues including the kidney have been shown to contain RBP mRNA. A study was conducted to explore the role of sex hormones in the regulation of RBP mRNA levels in the kidney compared to those in the liver. Treatment of female rats with a single dose of testosterone or chronic treatment with testosterone had only a slight effect on the steady-state level of RBP mRNA in the kidney and the liver. However, treatment of male rats with estrogen caused an increase in the steady-state level of RBP mRNA in the kidney but not in the liver. A single injection of 17 beta-estradiol, either 1.0 or 0.1 micrograms/g body weight, resulted in a rapid rise in the level of RBP mRNA in the kidney which was maximal at 3-6 h (fivefold induction) after treatment. In addition, treatment of ovariectomized female rats with estrogen also resulted in a rapid rise in the accumulated level of RBP mRNA in the kidney while having no influence in the liver. Finally, studies using the anti-estrogen drug, hydroxytamoxifen, resulted in blockage of the estrogen-related induction of RBP mRNA in the kidney, suggesting that the induction of RBP mRNA in the kidney by estrogen may be mediated by the nuclear estrogen receptor. Taken together these data suggest that the regulation of RBP mRNA, levels in the liver and kidney, at least with respect to estrogen, is different.     

Diabetes modulates differentially creatine kinase-specific activity responsiveness to estradiol-17beta and to raloxifene in rat organs

Diabetes mellitus increases the risk for CVD in women. While there is considerable evidence suggesting beneficial effects of estrogen on decreasing lipid peroxidation, atherosclerotic processes, and cardiovascular diseases, diabetes negates most estrogen protective effects as well as the skeletal protective effects of estrogens, which are not discernable in diabetic women. In the present study, we examined the in vivo effects of estradiol-17beta (E2), on creatine kinase (CK)-specific activity, in estrogen-responsive organs from healthy and diabetic rats. Healthy or diabetic (streptozotocin-induced) female rats were injected with either E2 (10-50 microg/rat) or raloxifene (Ral; 500-1,000 microg/rat). Twenty-four hours following the injection, animals were sacrificed; their organs removed and assayed for CK-specific activity. CK-specific activity in different organs [Left ventricle of heart (Lv), uterus (Ut), aorta (Ao), para uterine adipose tissue (Ad), epiphyseal cartilage (Ep), and diaphyseal bone (Di)] from healthy animals, was stimulated with increased doses of E2, with maximum at 20 microg/rat. Age-matched diabetic female rats exhibited a remarkable decreased response to E2 in all organs except Ut. In contrast, the response to Ral was not altered in diabetic rats. Similar results were observed in organs from ovariectomized female rats (Ovx), healthy or diabetic. These results support our previous in vitro findings, demonstrating that hyperglycemia decreases CK response to E2 but not to Ral in cultured human vascular and bone cells. In summary, diabetes mellitus decreases CK response to E2 but not that of Ral in skeletal and vascular tissues. The decreased response to E2 detected in organs derived from diabetic rats might be due to changes in nuclear and/or membrane estrogen receptors and/or other genomic and non-genomic pathways, as was shown in in vitro cellular models.     

Regulation of estrogen-dependent and estrogen-independent levels of progesterone receptor in hamster vagina and uterus

It is generally accepted that progesterone action is mediated in target cells through a specific, intracellular receptor protein. Since various progesterone target tissues respond differently to progesterone action, it may be postulated that such differences result from variations in: (1) the physicochemical properties; (2) the regulation, and/or (3) the intracellular response of the progesterone receptor (Rp) complex. A previous report demonstrated similar physicochemical properties of hamster vaginal and uterine Rp [1]. Our objective in this report was to analyze the regulation of estrogen-independent (ID-Rp) and estrogen-dependent (D-Rp) populations of receptor in different tissues of the lower reproductive tract of the golden hamster. In untreated ovariectomized animals, a basal level of (ID-Rp) was detected in endometrium, myometrium and vagina. Thus, each compartment contained a significant quantity of Rp which was maintained in the absence of continued estrogen support. Following 3 days of estradiol (E2) administration, the level of nuclear estrogen receptor increased and was related quantitatively to the amount of cytoplasmic Rp produced in these tissues. Maximal weight and D-Rp responses in endometrium, myometrium and vagina were obtained with 10-100 micrograms E2 per 100 g BW. The weight response of these tissues was due primarily to cellular proliferation in the endometrium; cellular hypertrophy in the myometrium; and cellular proliferation with concomitant nuclear pyknosis in the vagina. Although the morphological response of these tissues to estrogen action is quite different, the present study reveals no differences in the regulation of ID-Rp and D-Rp levels in these particular compartments. Furthermore, our results demonstrate a relationship between DNA content and ID-Rp and D-Rp levels in target tissues of the lower reproductive tract.     

Direct up-regulation of estrogen receptor by triiodothyronine in rat pituitary tumor MtT/F84.

To investigate a possible effect of triiodothyronine (T3) on the regulation of estrogen receptor, estrogen dependent rat pituitary tumor, MtT/F84, was studied in rats which received surgical thyroidectomy (Tx) or were given propylthiouracil (PTU) and were supplemented with T3. In T3 loaded rats, the grafted tumor showed high estrogen receptor levels (160-200% of control), whereas low estrogen receptor levels (20-35% of control) were observed in the tumors grown in Tx and PTU treated rats. A single injection of T3 to Tx rats with MtT/F84 increased the estrogen receptor level in a time dependent manner and reached the maximal level at 6 h. In primary culture of MtT/F84 cells, T3 increased the specific 3H-estrogen binding to tumor cells in a dose dependent manner (165% of control by 10(-7)M T3) and also in a time dependent (maximum at 12 h) manner. These data suggest that T3 directly up-regulates the estrogen receptor level in MtT/F84 cells.