Immunogold labelling of the cytoplasmic estradiol receptor in resting porcine endometrium

Summary Serial sections of resting porcine endometrium were analyzed with the monoclonal antibody 13H2 using goat antimouse IgG/5 nm gold as secondary reagent or with either polyclonal antibodies from goat #402 or the rat monoclonal antibody H222, both in combination with protein G/12 nm gold. A modestly higher labelling of nuclei than of cytoplasm was seen only with the monoclonal antibody H222. Polyclonal #402 and monoclonal 13H2 showed fewer attachments over nuclear than over cytoplasmic areas. The highest densities of attachment and of predominantly cytoplasmic labelling were obtained with the monoclonal antibody 13H2. The results confirm the earlier assumption of a restricted accessiblity of estradiol receptor in the cytoplasm of resting cells for immunoreagents.     

Dissociation studies of different forms of the estradiol-receptor complex from calf uterus: Higher stability of the complex bound to chromatin

Intact and pure nuclei were isolated by zonal centrifugation from calf uteri preincubated with [³H] estradiol at 37°C. Alternatively, labelling of nuclei was performed by cell-free incubation of filtrate homogenates with radio-active homone at 25°C. The kinetics of dissociation of the estradiol—receptor complex was studied by the tritiated estradiol—non-radioactiv estradiol-exchange method at 22°C using: (a) intact nuclei and isolated chromatin, (b) a 0.5M KCl nuclear extract (5 S) and different cytosolic preparations (4 S, 8 S or heavy aggregates), or (c) cytosolic extracts bound to an inert support like hydroxylapatite or precipitated by nuclear basic proteins. In the three groups the dissociation follows the well established two-stage first-order kinetics patterns, but whereas in Group a the operational half-life of the complex was 5 h, all the preparations of Group b, including the nuclear extract, yielded a half-life of only 10 min. Intermediate values were obtained for the preparations of Group c. Its concluded that the binding to the chromatin endows the estradiol— receptor complex with a higher stability. This might account for the characteristic retention of estradiol in uterine cells in in vivo conditions.     

Retrieval of estradiol receptor in paraffin sections of resting porcine uteri by microwave treatment. Immunostaining patterns obtained with different primary antibodies

The unmasking of estradiol receptor in paraffin sections of Bouin's-fixed uterine tissue from ovariectomized gilts was attained with microwave treatment. Immunocytochemistry of the receptor was performed using a polyclonal or five monoclonal antibodies, two of which are commercially available, reacting with different domains of the protein and an amplified-peroxidase system for detection. With five of the antibodies, a predominance of nuclear staining was observed in cells of endometrial glands, while one monoclonal antibody (13H2), reacting with the receptor's domain E, showed a preference for the cytoplasmic receptor. In stroma, all antibodies detected more receptor in nuclei than in cytoplasm. In epithelium, the commercially available antibody H222, our monoclonals 13H2 and HT65, and the polyclonal antibody 402 demonstrated more receptor in cytoplasmic than in nuclear areas. In myometrium, the nuclei from longitudinal and ring muscles were definitely stained with the antibodies. We conclude that the accessibilities of the antibody epitopes of the receptor differ according to the functional uterine cell type.Dedicated to Professor Dr. Peter W. Jungblut on the occasion of his retirement     

Nuclear estradiol binding in rat adipocytes. Regional variations and regulatory influences of hormones.

The nuclear estrogen receptor was characterised in isolated rat adipocytes. The binding reaction with [3H]estradiol was performed with intact isolated rat adipocytes and the radioactivity associated with the nucleus was subsequently determined after cell lysis. The nuclear uptake of [3H]estrogen in rat adipocytes was temperature dependent and steroid specific. The steady-state binding was achieved after 30 min at 37 degrees C and was constant for several hours. Estradiol was found to bind to a homogeneous class of nuclear receptors in epididymal adipocytes with an apparent Kd of 3.1 +/- 0.76 nM and a Bmax of 7.98 +/- 1.11 fmol/10(6) cells corresponding to about 4800 receptors per nucleus. The estradiol binding exhibited regional variations in isolated adipocytes. In lean rats the highest receptor number was found in epididymal adipocytes, whereas there was a significantly lower number of nuclear binding sites in perirenal and subcutaneous adipocytes (P less than 0.05), unlike in older and more obese rats where the nuclear estradiol binding was greatest in adipocytes from the perirenal fat depot. Incubations with isoproterenol (10 microM) and dibutyryl-cAMP (2.5 mM) both reduced estradiol binding by 56% (P less than 0.005), while insulin (1 nM) enhanced the estradiol binding by 37% (P less than 0.01). In conclusion, a specific and high affinity nuclear estradiol receptor was demonstrated in rat adipocytes and regional differences in nuclear estradiol binding were detected. Furthermore, it was demonstrated that nuclear estradiol binding could be modulated by other agents known to affect adipocyte metabolism.     

Hormonal regulation of estrogen and progestin receptors in decidual cells

Total estrogen receptor (Re) and total progestin receptor (Rp) were measured in the cytosol and nuclear fractions from hamster deciduomal tissue and decidual cell cultures. Correlation of serum steroid (estradiol and progesterone) and deciduomal receptor profiles revealed a significant loss of Re during the first four days of decidualization that was not attributable to changes in serum steroid levels. A decidual cell-tissue culture system was used to study the receptor's recovery response to progesterone withdrawal. Decidual cells were plated and grown in Ham's F12/Dulbecco's modified Eagle's medium with 5% horse serum supplemented with insulin, transferrin, selenium and progesterone (10 ng/ml). Within 48 h of culture large, multinucleate decidual cells were observed by phase microscopy. At 72 h of culture in medium containing progesterone, only Rp was detectable in decidual cells. Re was not detectable (less than 200 fmol/mg DNA) in either cytosol or nuclei from cells maintained in the presence of progesterone. However, when progesterone was deleted from the medium, cytosol Re recovered progressively from 8 h to 16 h of culture. Progesterone withdrawal also caused parallel increases in cytosol and nuclear Rp, and estradiol treatment (2 ng/ml) in combination with progesterone withdrawal further enhanced Rp levels in decidual cell cultures. These results with cultured decidual cells demonstrate that progesterone down-regulates Re and Rp, Re recovers rapidly upon progesterone withdrawal, and the Re system is competent to respond to estrogen action in terms of Rp induction. We used the density-shift method to determine that progestin increases the turnover of nuclear Re in hamster decidual cells within 3 h. Hamster decidual cells were isolated from the endometrium and cultured in progesterone-free medium containing normal amino acids (1H, 12C, 14N) for 2 days. Confluent monolayers of cells were exposed to 1 nM estradiol (E2) for 1 h to maximize the amount of occupied Re in the nuclear fraction. Then, at time 0, cells were transferred to medium supplemented with dense (2H, 13C, 15N) amino acids and either 1 nM E2 or E2 plus 100 nM progesterone. After Re was labeled with dense amino acids for 1, 3, 6 and 9 h, nuclear Re was extracted with 10 mM pyridoxal -5' phosphate and labeled with 125I-iodoestradiol (5 nM). Two radioactive peaks representing preexisting and newly synthesized Re were separated by sucrose density-gradient centrifugation. The halflife of nuclear Re in decidual cells was 3.7 h when cells were treated with E2 alone.(ABSTRACT TRUNCATED AT 400 WORDS)     

Studies on type II progesterone receptor in MCF-7 cells

These experiments demonstrate for the first time the existence of a Type II progesterone receptor (RpII) in MCF-7 human breast cancer cells. RpII was shown to have a lower affinity for tritiated progesterone ([3H]Pg) (Kd greater than or equal to 13 nM) than classical Rp (Kd less than or equal to 3 nM). RpII was detected by cytosolic, nuclear, and whole cell assays of MCF-7 cells. Scatchard analysis of [3H]Pg binding data revealed that classical Rp but not RpII could be recompartmentalized from the cytosolic to the nuclear pool by treating cells 1 h at 37 degrees C with 1 microM Pg. RpII levels were shown to be increased more than two-fold by growing MCF-7 cells for 4 days in 10 nM estradiol (E2) plus 100 nM Pg when compared to either untreated cells or to cells treated with only E2.     

Inhibition of rat uterine estradiol receptor by aurintricarboxylic acid

Estradiol-receptor complex from rat uterus has been shown to have an affinity for DNA-cellulose and ATP-Sepharose. This DNA and ATP binding of estradiol receptor was observed to be sensitive to low concentrations (0.01–0.2mM) of aurintricarboxylic acid. The inhibitor was more effective when added to preparations that contained activated estradiol-receptor complex. Steroid binding properties of the receptor remained intact under the above conditions as judged by charcoal adsorption assays and sucrose gradient analysis. In addition, a 40% inhibition in the nuclear translocation of cytosol estradiol receptor was observed when rat uteri were incubated with 10nM [³H] estradiol under an atmosphere of 95% O₂ and 5% CO₂ in the presence of aurintric-carboxylic acid. Our results suggest that aurintricarboxylic acid is an effective inhibitor of rat uterine estradiol receptor and that it may be acting by interfering with site(s) on the estradiol receptor which may be exposed upon activation and are subsequently involved in processes such as ATP binding, nuclear uptake and DNA binding.     

Cytosol and nuclear estrogen receptor binding in the preoptic area and hypothalamus of female rats during pregnancy and ovariectomized, nulliparous rats after steroid priming: correlation with maternal behavior

In a previous study, high nuclear estrogen receptor concentrations in the preoptic area (POA) were found on Day 16 of pregnancy to prime females to respond to a subsequent low dose of estradiol benzoate (EB) after hysterectomy-ovariectomy by exhibiting maternal behavior in 48 hr. Receptor concentrations in the POA were found to be higher than those in the hypothalamus (HYP). The present study investigated when nuclear estrogen receptors increase during pregnancy in POA and when the difference in receptor concentrations between POA and HYP occurs. An attempt was made to reproduce these pregnancy changes with a 16-day treatment of estrogen and progesterone in ovariectomized (OVX), nulliparous rats. In Experiment 1, we measured cytosol and nuclear estrogen receptor concentrations in the POA and HYP of female rats during pregnancy. Nuclear receptor concentrations in the POA increased beginning on Day 10, increased again on Day 16, and continued at this high level for the remainder of pregnancy. Nuclear estrogen receptor concentrations in the HYP remained at a lower level throughout most of pregnancy until Day 22 when they increased significantly. In Experiment 2, we tested the maternal behavior and measured estrogen receptor concentrations in OVX, steroid-primed, nulliparous rats after hysterectomy (H) and EB treatment. While 90% of estradiol (E) + progesterone (P)-primed females displayed short-latency maternal behavior 48 hr after H and EB treatment, 46% of E + vehicle (V)-treated controls were maternal. At 0 hr (prior to H and EB treatment), there was a significantly larger nuclear receptor accumulation in the POA but significantly attenuated receptor binding in the HYP. P treatment significantly affected cytosol and nuclear estrogen receptor dynamics. Differences in nuclear estrogen receptor concentrations were shown to be based on the number of available binding sites and not to changes in receptor affinity for estradiol.     

Effect of estradiol on expression and activation of Akt protein in rat hypothalamus exposed to chronic [D-Met2, Pro5]-enkephalinamide treatment

Adult ovariectomized rats were implanted with [D-Met2, Pro5]-enkephalinamide (ENK)-containing osmotic minipumps. Two hours prior to sacrifice, some animals were treated with estradiol-17beta (E2) at a dose 10 microg/100 g bodyweight (BW). Expression and activation of Akt proteins, nuclear [3H]estradiol binding, and the expression of estrogen receptor alpha (ERalpha) and beta (ERbeta) and of progesterone receptor (PR) were investigated. Estradiol increased the level of activated Akt protein (pAkt473) in the hypothalamus by 52 +/- 11% in comparison to the vehicle-treated controls. No such effect of E2 was observed 24 and 48 h after ENK implantation. This effect of ENK was abolished by concomitant treatment with naloxone. Time-dependent changes in nuclear [3H]estradiol binding and the expression of estrogen and progesterone receptors were also detected in the hypothalamus of ENK-implanted and E2-treated rats. At 24-48 h following ENK implantation, expression of ERalpha and high affinity [3H]estradiol binding decreased. At this time point, the PR level was also reduced, while the ERbeta level was augmented. In conclusion, these results suggest that the stimulatory effects of E2 on the expression and activation of Akt protein and the expression of ERalpha and PR are negatively regulated in rat hypothalamus exposed to chronic ENK treatment.     

Role of 17 beta-hydroxysteroid dehydrogenase in the modulation of nuclear estradiol receptor binding by progesterone in the rat anterior pituitary gland and the uterus

Progesterone has been shown to decrease occupied pituitary and uterine nuclear estradiol receptor (E2R) binding in mature and immature estrogen-primed rats. Progesterone has also been shown to stimulate pituitary but not uterine 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) in the rat. The conversion of estradiol to its less active metabolite estrone by 17 beta-HSD and activation of phosphatase are among mechanisms considered to be involved in the reduction of E2R. To determine if 17 beta-HSD stimulation was a mechanism by which progesterone induced nuclear E2R decrease, the synthetic estrogen ethinylestradiol, which is not oxidized by 17 beta-HSD, was used instead of estradiol to prime adult ovariectomized rats. When ethinylestradiol-primed rats received 0.8, 2.0 or 4.0 mg/kg body wt of progesterone 2 h before sacrifice, the total and occupied nuclear E2R accumulation in the anterior pituitary by a subsequent ethinylestradiol injection 1 h later did not show any decrease. This response was different from that observed previously in estradiol-primed animals in which progesterone showed a multiphasic decrease of occupied form of nuclear E2R. However, in the uterus of ethinylestradiol-primed rats, a partial decrease of total and occupied nuclear E2R accumulation was observed in the presence of the three doses of progesterone used. The decrease of uterine nuclear E2R with the three progesterone doses was different from the dose-dependent effect of progesterone observed in the uterus of estradiol-primed rats. Affinity constants of the interaction between [3H]estradiol and the nuclear E2R were similar among groups treated with ethinylestradiol, estradiol and progesterone. These results demonstrate the involvement of 17 beta-HSD in the reduction of anterior pituitary gland E2R by progesterone in the estradiol-treated animals. Furthermore, the mechanism of decrease of E2R by progesterone in the uterus appears to be different from the pituitary gland.     

Localization of estrogen receptors in uterine cells. An appraisal of translocation.

The nuclear localization of estrogen receptors has been examined under conditions which minimize redistribution and localization artifacts. A procedure is presented which rapidly lyses suspensions of cells from immature rat uteri by using 0.04% Triton X-100 in isotonic buffer. The ‘nuclei’ which are obtained after lysis have a median diameter of 1μm and are devoid of nuclear membranes. There is close agreement between the number of cells before lysis and the number of nuclear particles after lysis. Triton X-100 gave no interference with quantitative binding of estradiol to receptor and no alteration in the sedimentation behavior of receptor on sucrose gradients containing high or low salt. Using this procedure to monitor the dynamics of estrogen receptor distribution within uterine cells after exposure to estradiol, translocation of estrogen receptor to the nucleus was observed to occur at a rate slightly slower than the rate at which estradiol was specifically bound to free cells or receptors. The difference in these rates is compatible with a model in which estradiol must first bind to the receptor before the binding complex moves to the nucleus. The rate of nuclear translocation was temperature-dependent and was observed to occur at 0 °C, provided that enough time was allowed for steroid entry, receptor charging and transit to the nucleus. Two distinct phases were observed to characterize nuclear receptor localization. In the first phase after hormone exposure, estrogen receptor progressively accumulated in the nucleus; afterwards, estrogen receptor was progressively lost from the nucleus but could not be detected in other subcellular compartments in a form still binding hormone. Since high cell viability was maintained during these manipulations, loss of nuclear receptor was not due to cell damage during in vitro incubation. These studies suggest that this decline in nuclear receptor level after hormone interaction, which is known to occur in vivo, may be a normal event during estrogen interaction with target cells.     

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.     

Estradiol and its membrane-impermeable conjugate (estradiol-bovine serum albumin) during in vitro maturation of bovine oocytes: effects on nuclear and cytoplasmic maturation, cytoskeleton, and embryo quality

In various cell types, there is increasing evidence for nongenomic steroid effects, i.e., effects that are not mediated via the classical steroid receptors. However, little is known about the involvement of the nongenomic pathway of estradiol (E2) on mammalian oocyte in vitro maturation (IVM). The aim of this study was to investigate whether the effects of E2 on bovine oocyte IVM are mediated via a plasma membrane receptor (nongenomic). First, we investigated the expression of estradiol (classical) receptor alpha (ERalpha) and beta (ERbeta) mRNA in oocytes and cumulus cells (CC). We also studied the effects of different exposure times to E2 (before and after germinal vesicle breakdown, GVBD) on nuclear maturation. To study the possible involvement of the putative estradiol plasma membrane receptor on the IVM of oocytes, we used E2 conjugated with bovine serum albumin (E2-BSA), which cannot cross the plasma membranes. Our results demonstrate that oocytes expressed ERbeta mRNA, while CC expressed both ERalpha and ERbeta mRNA. Exposure to E2 during the first 8 h of culture (before GVBD) induced a block at the metaphase I stage (MI). However, the presence of E2 after GVBD induced an increase of oocytes with nuclear aberrations. Meiotic spindle organization was severely affected by E2 during IVM and multipolar spindle was the most frequently observed aberration. Exposure of oocytes to E2-BSA did not affect nuclear maturation, blastocyst formation rate, nor embryo quality. Our results suggest that the detrimental effects of E2 on in vitro nuclear maturation of bovine oocyte are not exerted via a plasma membrane receptor.     

Estrogen receptors in the adrenal cortex of the possum (Trichosurus vulpecula)

1. Specific [3H]estradiol binding activity with characteristics of estrogen receptors was found in the cytosols and nuclear extracts of the adrenal cortex proper and special zone of the brushtail possum (Trichosurus vulpecula). 2. The specific estradiol receptor had a sedimentation coefficient on sucrose gradients of approximately 9S and a molecular weight on gel filtration of more than 200,000. The adrenal cortex cytosol binds [3H]estradiol with high affinity (Ka 5.5 X 10(9) M-1), and limited capacity (Bmax 62.7 fmol/mg cytosol prot). In competition experiments with different steroids the receptor showed a high affinity for four estrogens and a very low affinity to androgens, progesterone and cortisol. 3. There was no difference in the affinity and maximum binding capacity of the cytosols from cortex proper in male and female animals, but the binding capacity of the special zone of females was half that of cortex proper. Estradiol receptors were found in the kidney, liver, lung, testis and muscle but only in the adrenal and prostate was the binding capacity relatively high compared with the uterus. 4. The specific binding capacity of [3H]estradiol to cytosols of adrenal cortex at different stages of the estrus cycle and pregnancy was unrelated to that of the uterus. In the adrenal the receptor concentration was lowest at estrus, when uterine concentration was high, while in late pregnancy the binding of adrenal cortex and uterus cytosols was almost the same. 5. The possible physiological significance of the presence of a specific estrogen receptor in male and female possums is discussed.     

(3H)-estradiol binding by chick liver nuclear extracts: mechanism of increase in binding following estradiol injection.

Specific high affinity binding of [3H]-estradiol by 0.5 M KCl extracts of chick liver nuclei is substantially increased by estradiol injection of the immature chick. The effect is observed shortly after estradiol injection, while the estradiol-induced production of serum phosphoproteins (vitellogenic response) is not detectable until about 24 hr. Cycloheximide given 90 min before estradiol inhibits the increase in nuclear binding for 12-15 hr. At 24-48 hr the levels of nuclear binding are similar to those in the estradiol-treated animals not given cycloheximide, but serum phosphoprotein levels are depressed by about 80% at 48 hr. By 75 hr however the serum of the cycloheximide-treated estrogenized chicks contains about twice as much phosphoprotein as does serum of chicks given estradiol alone. It is suggested that the inhibition of protein synthesis for 12-15 hr delays the vitellogenic response until sufficient levels of nuclear [3H]-estradiol binding protein can be synthesized. A correlation between the levels of nuclear [3H]-estradiol binding at 24 hr and phosphoprotein at 48 hr is shown in a dose-response experiment. In vitro, nafoxidine-HCl (Upjohn 11,100 A) inhibits binding of [3H]-estradiol by the chick liver nuclear extracts. In vivo, a single injection of nafoxidine with estradiol inhibits phosphoprotein production. Injection of nafoxidine alone results in a small but significant increase in [3H]-estradiol binding by nuclear extracts, but it is not estrogenic. A possible interpretation is that nafoxidine transfers low levels of a putative cytosol receptor to the nucleus, but is unable to induce the amplification mechanism required to give the levels of nuclear estradiol-binding protein needed for the vitellogenic response.     

Estrogen-inducible progesterone receptor in primary cultures of rat glial cells

The presence of an estrogen-inducible progesterone receptor was demonstrated in primary cultures of newborn rat glial cells by biochemical and immunohistochemical techniques. The progesterone receptor (PR) was measured 3-4 weeks after primary culture in estradiol-containing or control medium. Cells were labeled with the synthetic progestin [3H]R5020 followed by ultracentrifugation analysis of the cellular extracts. A "9 S" PR was observed in the cytosol and a "4-5 S" PR was found in the nuclear high salt, tungstate ions containing extract of estradiol-treated cells. When the antiprogestin [3H]RU486 was used instead of [3H]R5020 as a ligand, a 9 S PR was also found in the cytosol, but a nonactivated "8.5 S" receptor complex was identified in the high salt nuclear fraction in presence of tungstate ions. The levels of PR, as measured by whole cell assay, were significantly increased when glial cells were cultured in the presence of 50 nM estradiol, as compared to nonestradiol-treated controls. The estrogen induction of PR was suppressed by the antiestrogen tamoxifen, but tamoxifen by itself had no effect on PR concentration. When the glucocorticosteroid receptor and PR were measured in parallel after estradiol treatment of the same primary culture, only the levels of PR were increased. The PR was visualized inside glial cells by immunohistochemical studies with a monoclonal antibody specific for the B-form of PR (KC 146), which was recognized by fluorescein-linked or biotinylated secondary antibodies. Strong staining was observed in estradiol-treated cultures, when compared to a weaker staining in control cultures. This is the first demonstration of PR in rat glial cells, and we present evidence of its induction by estradiol in primary cultures.     

Cyclin/PCNA immunostaining as an alternative to tritiated thymidine pulse labelling for marking S phase cells in paraffin sections from animal and human tissues

Paraffin sections from animal or human tissues fixed in different fixatives were submitted to immunostaining with the mouse monoclonal antibody 19A2, developed by Ogata et al. (1987a) against cyclin/PCNA. Detection of the bound antibody was performed by the indirect method with biotinylated sheep antibody and streptavidin-biotin-peroxidase complexes. No, or faint, nuclear staining was seen in material fixed in ethanol, Bouin, Bouin-Hollande, Carnoy or formaldehyde, whereas readily detectable immunocytochemical reaction was constantly observed over nuclei of methanol-fixed tissues. Hydrolysis with 2 N HCl prior to immunocytochemistry (as currently performed to render incorporated BrdU accessible to antibodies) somewhat improved the results with Bouin or Carnoy and markedly augmented the intensity of the peroxidase reactions in formaldehyde and in methanol-fixed tissues. The distribution of the positive nuclei in the two latter cases coincided with the proliferative compartment. On the other hand, double labelling with [3H]-thymidine and with the cyclin/PCNA antibody revealed that in methanol-fixed tissues the cyclin/PCNA labelling index did not differ by more than 6% from the [3H]-thymidine index. Besides the two labels overlapped in a proportion of labelled cells that was in reasonable agreement with expectation considering cells flow in and out of S phase since the time of [3H]-thymidine injection. This indicates that both labels recognize the same cells in this material. In contrast, in formaldehyde-fixed tissues, the cyclin/PCNA labelling index markedly exceeded the [3H]-thymidine labelling index. From this it is concluded that cyclin/PCNA immunostaining can be used: (1) In formaldehyde-fixed tissues (including existing material stored as paraffin blocks): for defining and mapping the proliferative (or germinative) compartment. (2) In methanol-fixed tissues as a substitute to the [3H]-thymidine autoradiographic labelling index. From this, a method is proposed (derived from classical 'double-labelling' technique) for measuring S phase duration in tissues fixed at a known interval time after a single labelling with [3H]-thymidine (or BrdU) and submitted to cyclin/PCNA immunocytochemical detection and to autoradiography (or to BrdU immunostaining).     

Estrogenic effect of phenol red in MCF-7 cells is achieved through activation of estrogen receptor by interacting with a site distinct from the steroid binding site

MCF-7 cells serially subcultured in media containing phenol red show poor stimulation of progesterone receptor (PR) synthesis in response to estradiol compared to cells grown in phenol red-free media. Phenol red, when added to cytosol, did not compete with [3H]estradiol for estrogen binding sites in concentrations ranging from 2 microM-1 mM. However 25 microM of the dye was sufficient to increase nuclear translocation of estrogen receptor (ER) in the intact cell. Phenol red activates cytoplasmic ER as indicated by DNA-cellulose binding studies. When cells grown in phenol red-free medium were exposed to phenol red for 48 h, PR levels increased in a dose dependent manner. From these data, it may be concluded that phenol red causes estrogenic effect in MCF-7 cells through activation of cytoplasmic receptor by interacting at a site distinct from the steroid binding site.