Cell-specific expression of estrogen-responsive genes in the uteri of cyclic, early pregnant and ovariectomized ewes

A single physiological dose of estradiol up-regulates estrogen receptor-alpha(ER), progesterone receptor (PR), glyceraldehyde 3-phosphate dehydrogenase (GAPDH), c-fos, cyclophilin, and actin mRNAs in the endometrium of ovariectomized ewes. Therefore, we hypothesized that these genes would be up-regulated by the preovulatory surge of estrogen which occurs on the evening of Day 15 in the estrous cycle of sheep. ER and PR mRNA concentrations increased between Day 15 and Day 1 in cyclic ewes in most endometrial epithelial cells, while GAPDH mRNA increased in epithelial and stromal cells in the deep endometrium. Day 15 pregnant ewes had lower expression of ER, PR, GAPDH, cyclophilin and actin genes. For ER and GAPDH mRNAs, the greatest reduction occurred in the superficial endometrium. Ovariectomized ewes demonstrated concentrations of ER, PR, and GAPDH mRNAs that were similar to those in the cyclic ewes. While concentrations of c-fos mRNA did not differ between groups, those of cyclophilin and actin mRNAs were lower in the pregnant and ovariectomized ewes. In conclusion, ER, PR and GAPDH gene expression rose during estrus in endometrial cells with the highest ER gene expression and were repressed in pregnant ewes in superficial endometrial cells with the greatest PR gene expression.     

Immunocytochemical localization and messenger ribonucleic acid levels of a progesterone-dependent endometrial secretory protein (cathepsin L) in the pregnant cat uterus.

The purpose of this study was to localize immunocytochemically a progesterone-dependent protein (PDP) and to determine PDP mRNA levels during the initial stage of the implantation period. Uterine tissue was collected from Day 0-18 postcoital animals. The tissue was processed for immunocytochemical localization of PDP, and the endometrial RNA was isolated and analyzed for PDP gene expression by slot-blot hybridization. PDP was detected immunocytochemically as early as Day 5 postcoitus in the epithelial cells of the deep uterine glands, and the intensity of immunostaining appeared to peak by Day 12 postcoitus. PDP was absent in the endometrium obtained from implantation sites after Day 16 postcoitus, but the synthesis of PDP was maintained in the endometrium obtained from nonimplantation sites. Immunogold electron microscopy demonstrated that PDP was present in electron-dense granules of the glandular epithelial cells. PDP mRNA was detectable in the endometrium at Day 5 postcoitus and peaked around Day 10 postcoitus. PDP mRNA was absent in the endometrium from implantation sites after Day 16 postcoitus, but was maintained in the endometrium from nonimplantation sites. In summary, the results of this study illustrate that PDP is synthesized within the epithelial cells of the deep uterine glands, packaged within membrane-bound secretory granules, and released into the uterine lumen. Also, the process of implantation alters the gene expression in a very localized way since PDP mRNA and PDP-positive granules were absent in the endometrial glands obtained from the implantation site within 1-2 days of the onset of implantation, whereas both PDP mRNA and PDP-positive granules were maintained in the endometrial glands from nonimplantation-site regions.(ABSTRACT TRUNCATED AT 250 WORDS)     

Estrogen receptors, progestin receptors and DNA synthesis in the macaque endometrium during the luteal-follicular transition

We have suggested that in the nonhuman primate endometrium, stromal cells might play a role in mediating the effects of estrogen on the epithelium, especially during the luteal-follicular transition (LFT) when target cells normally escape from the inhibitory influence of progesterone (P). We now report that like estrogen receptors (ER), endometrial progestin receptors (PR) are detectable only in stromal cells until the fifth day of the LFT. With a technique that combined immunocytochemistry and autoradiography on the same sections, we characterized the cellular distribution of ER or PR coincidentally with the localization of [3H]thymidine taken up in vitro by endometria from monkeys undergoing an LFT. DNA synthesis in the glands of the upper endometrium was E2-dependent, but the distribution of [3H]thymidine was not positively correlated with the presence of ER or PR. Readministration of P to animals on days 3 or 4 of the LFT significantly reduced the [3H]thymidine labeling index of the glandular epithelium and caused stromal ER to decline, but P did not block the eventual appearance of ER in epithelial cells on day 5 of the LFT. Thus, E2 stimulated DNA synthesis in epithelial cells that lacked ER, and P suppressed DNA synthesis in these cells even though PR was only detected in the stroma when P treatment began. These data are consistent with a role for endometrial stromal cells in mediating the effects of E2 and P on the epithelium during the LFT.     

Immunohistochemical localisation of progesterone and oestrogen receptors at the placental interface in mares during early pregnancy

Previous reports documenting progesterone receptors (PR) and oestrogen receptors (ER) in the endometrium of early pregnant mares included specimens only up to Day 20 post ovulation. This study aimed to localise PR and ERα on equine feto-maternal tissues between Days 20 and 68 to encompass the period around fixation of the conceptus, development of the endometrial cups and attachment and initial interdigitation of the allantochorion. During early pregnancy mares had the same pattern of PR in the endometrium as that reported for other mammals; namely, a loss of PR from the endometrial epithelia but continued localisation in stromal cells. The spatial arrangement of ERα over the same time period showed cytoplasmic staining of endometrial epithelia and in the nuclei of occasional stromal cells. In the fetal tissues, no cells had PR although ERα was evident in some tissue compartments. No major change in localisation of either receptor was noted throughout the time period examined despite important changes occurring at the placental interface. Nevertheless, these steroid receptor molecules probably play important roles in the production of histotroph and growth factors by the endometrium which go on to stimulate differentiation and growth of the feto-maternal tissues.     

Modulation of the action of chorionic gonadotropin in the baboon (Papio anubis) uterus by a progesterone receptor antagonist (ZK 137. 316)

Signals from the developing mammalian blastocyst rescue the corpus luteum (CL) and modulate the uterine environment in preparation for implantation and early pregnancy. Our previous studies demonstrated that both short- and long-term administration of chorionic gonadotropin (CG) markedly alters the morphology and the biochemical activity of the receptive endometrium. Because the effects of CG were superimposed on a progesterone-primed endometrium, this study was undertaken to determine if the inhibition of progesterone action by progesterone receptor antagonists (PRa) in intact and ovariectomized baboons would alter the action of CG on the endometrium at the time of uterine receptivity. In the short-term hCG-treated baboons, the PRa reduced the epithelial plaque reaction, completely inhibited alpha-smooth muscle actin (alphaSMA) expression in stromal fibroblasts, and induced the reappearance of the progesterone (PR) and estrogen (ERalpha) receptors in epithelial cells. However, this treatment protocol had no effect on the expression of glycodelin in the glandular epithelium. In contrast, glycodelin expression in addition to alphaSMA was suppressed in the ovariectomized animals. In the long-term hCG-treated baboons, the PRa had a similar effect on both alphaSMA, PR, and ER. In addition, this treatment also resulted in an inhibition of glycodelin expression in the glandular epithelium. These results indicate that blocking the action of progesterone on the endometrium even for a short period of time has a profound effect on the hCG-induced response in stromal fibroblasts. In contrast, for the diminution of glandular epithelial function in the presence of an ovary requires prolonged inhibition of progesterone action, suggesting a potential paracrine effect on the endometrium from the CL in response to hCG.     

Progesterone and estrogen receptor distribution in the endometrium of the mare

An immunoperoxidase staining technique was used to localize receptors for progesterone and estrogen in the uterus of the mare. Specific staining for receptors was limited to cell nuclei. During estrus, stromal cells tended to stain more intensely for both receptor types than myometrial cells or luminal and glandular epithelial cells. During diestrus, staining intensities in stromal and myometrial cells tended to decrease. Staining intensities of epithelial cells were not affected by the cycle stage. Early pregnancy did not markedly affect the staining intensities of pregnant mares compared with the nonpregnant mares on Day 14 of diestrus. In mares susceptible to endometritis from which samples were taken during diestrus, stromal and myometrial staining for estrogen receptors was more intense than in endometrium from genitally-normal mares.     

Localization and regulation of estrogen, progestin and androgen receptors in the seminal vesicle of the rhesus monkey

We have used monoclonal antibodies against the estrogen (E), progestin (P) and androgen (A) receptors (R) to study receptor localization and regulation in the seminal vesicles of rhesus monkeys under different hormonal conditions. The antibodies caused substantial shifts of the appropriately labeled receptors on sucrose gradients. ER levels were lower in intact males than in immature, castrate, and estrogen-treated castrates. With immunocytochemistry, ER were detectable only in stromal and smooth muscle cells, not the epithelium. The number of ER-positive stromal cells was significantly lower in intact males than in immature, castrate, and estrogen-treated castrates, and low in a DHT-treated castrate animal. Androgen receptors were localized in epithelial as well as stromal and smooth muscle cells, and the number of AR-positive stromal cells was highest in intact adults and lowest in castrated and immature animals. Estrogen treatment at the time of castration induced PR in the ER-positive stromal cells, prevented a decline in the number of AR-positive stromal cells, and caused stromal hypertrophy. In summary, in the seminal vesicle, as in the prostate, ER is restricted to the fibromuscular stroma, is suppressed by androgens, and can mediate induction of PR on estrogen treatment. Androgen receptors are present in epithelial as well as stromal and smooth muscle cells, but variations in hormonal state appear to affect regulation of AR more in the stroma than the epithelium.     

Localization of estrogen and progesterone receptors in the endometrium of common marmosets Callithrix jacchus

In the present study, changes in the immunohistochemical localization of endometrial estrogen receptor (ER) and progesterone receptor (PR) during various stages of the ovarian cyclicity in common marmoset, have been reported. Ovarian cyclicity was monitored by estimating plasma estradiol and progesterone. During the early follicular phase, weak ER immunolocalization was observed in the endometrial stroma. During the late follicular phase under the influence of rising estradiol levels, stromal ER localization was intense. During the luteal phase, ER localization was absent in the stroma indicating that high concentrations of progesterone suppressed ER. PR localization was not observed in the stroma during the early follicular phase, while weak staining was seen in the stroma during the late follicular phase. PR localization was maximum during the mid luteal phase. However in marmoset, endometrial ER and PR localization was restricted only to the stroma. This unique feature may be due to the characteristic reproductive profile of this nonmenstruating species and needs to be studied further. Thus it can be hypothesized that in the marmoset endometrium, steroid hormone mediated effects possibly occur directly in the stroma and are then transmitted to the epithelium by autocrine/paracrine action of growth factors and cytokines.     

Steroid receptors in canine endometrial cells can be regulated by estrogen and progesterone under in vitro conditions

The expression of estrogen (ER) and progesterone receptors (PR) in the endometrium is regulated by steroid hormones. An increase in plasma estrogen leads to upregulation of the number of both steroid receptors, whereas a decrease in both receptors population is due to high concentration of plasma progesterone. To study the exact effect of different concentrations of beta-estradiol and progesterone on canine epithelial and stromal endometrial cells an in vitro model from dog uterus was developed and kept for 20 days. Material was obtained from healthy dogs, undergoing ovariohysterectomy. Endometrial epithelial and stromal cells were gained after collagenase treatment, followed by filtration steps. Electron microscopy and immunolabeling were used to study cell morphology and differentiation. Immunocytochemistry was used to determine proliferation rate (Ki-67), ER and PR status on Days 3, 8, 10, 13, and 20. Mitotic activity of both cells was stimulated with different concentrations of steroids and revealed high values until cells reached confluency. ER and PR expression in confluent layer from epithelial and stromal cells was upregulated with beta-estradiol. In addition progesterone significant downregulated both receptors population in stromal cells, whereas the reduction was less pronounced in epithelial cells. Results showed that our in vitro system is a useful tool to study the influence of beta-estradiol and progesterone on cell proliferation rate, ER and PR expression. The primary cell culture model helps to avoid experiments on living animals.     

Heterogeneity of progesterone receptor expression in epithelial cells of immature and differentiating quail oviduct

The localization of progesterone receptor (PR) in the quail oviduct was investigated before and after the onset of sexual maturation using an immunohistochemical technique. PR was revealed exclusively in nuclei of target cells whatever the hormonal state of the tissue (immature or not, pretreated or not with progesterone). In the immature or ovariectomized quail oviduct, PR was principally localized in the undifferentiated epithelial cells; some mesothelial cells and a very few stromal cells expressed the PR. Only 40-45% of the epithelial cells were immunoreactive. These positive cells were mainly localized in the furrows of the villi where further evagination of the epithelium will occur to form the tubular glands. The onset of sexual maturation was accompanied by an increase of the proportion of positive epithelial cells and stromal cells. In estradiol-treated animals, more than 90% of the tubular gland cells were strongly stained while only 40% of the luminal epithelial cells were immunoreactive. Our results show that there are two subpopulations of epithelial cells: those expressing the PR before the onset of sexual maturation even in ovariectomized quails (constitutive expression) and those expressing the PR during sexual maturation or after estrogen injection (inductive expression). These results, associated with previously published studies dealing with the cytodifferentiation of epithelial cells during natural development or after various hormonal treatments in ovariectomized animals, suggest that the first are the progenitors of tubular gland cells, and the second the progenitors of ciliated and goblet cells. In stromal cells, PR expression is also inducuible.     

Hormonal regulation of apoptosis in the endometrium of common marmosets (Callithrix jacchus)

Phase-dependent apoptotic changes in the human endometrium during an ovarian cycle imply a potential role of steroids in the regulation of apoptosis. The present study was undertaken to determine the direct role of hormones in endometrial apoptosis in marmosets (Callithrix jacchus), a primate species which shows similarity to humans in terms of the cycle length and pattern. Endometrial apoptosis was detected by 3'-end labeling (TUNEL) in various phases of ovarian cycle in naturally cycling healthy marmosets (n=14) and also in ovariectomized marmosets (n=13) treated with either estradiol alone (E) or progesterone alone (P) or estradiol followed by progesterone (E+P). Expressions of apoptosis associated genes such as Bcl-2 family members (Bax and Bcl-2), proliferating cell nuclear antigen (PCNA)--a proliferation marker and steroid receptors, ERalpha and PR A were analysed by immunohistochemical methods. Apoptosis was intense in the glandular epithelial cells of endometrium during the mid-luteal phase as compared to other phases in naturally cycling animals; in the E+P group as compared to other groups of ovariectomized animals (P<0.05). Pronounced apoptosis in the mid-luteal phase was accompanied by the increased expression of Bax in glandular epithelial cells; while Bcl-2 immunoreactivity remained unchanged. PCNA expression was higher in the naturally cycling animals in the follicular phase and in the E group of the ovariectomized animals as compared those in the other groups. Immunoreactive ERalpha and PR A in glandular epithelial cells were most abundant during early follicular phase in naturally cycling animals and in both E and E+P groups among the ovariectomized animals. The present study highlights the importance of apoptosis in endometrial remodeling during the ovarian cycle and secondly, the role of both estradiol and progesterone in the regulation of apoptosis.     

Estradiol restores diabetes-induced reductions in sex steroid receptor expression and distribution in the vagina of db/db mouse model

Sex steroid hormones and receptors play an important role in maintaining vaginal physiology. Disruptions in steroid receptor signaling adversely impact vaginal function. Limited studies are available investigating the effects of diabetic complications on steroid receptor expression and distribution in the vagina. The goals of this study were to investigate type 2 diabetes-induced changes in expression, localization and distribution of estrogen (ER), progesterone (PR) and androgen receptors (AR) in the vagina and to determine if estradiol treatment ameliorates these changes. Eight-week-old female diabetic (db/db) mice (strain BKS.Cg-m+/+ Lepr^db/J) were divided into two subgroups: untreated diabetic and diabetic animals treated with pellets containing estradiol. Control normoglycemic littermates were subcutaneously implanted with pellets devoid of estradiol. At 16 weeks of age, animals were sacrificed, vaginal tissues excised and analyzed by Western blot and immunohistochemical methods. Diabetes produced marked reductions in protein expression of ER, PR, and AR. Diabetes also resulted in marked differences in the distribution, staining intensity and proportion of immunoreactive cells containing these steroid receptors in the epithelium, lamina propria and muscularis. Treatment of diabetic animals with estradiol restored receptor protein expression and distribution similar to those levels observed in control animals. This study demonstrates that type 2 diabetes markedly reduces steroid receptor protein expression and distribution in the vagina. Estradiol treatment of diabetic animals ameliorates these diabetes-induced changes.     

Sex steroid receptor expression and localization in benign prostatic hyperplasia varies with tissue compartment

Androgens and estrogens, acting via their respective receptors, are important in benign prostatic hyperplasia (BPH). The goals of this study were to quantitatively characterize the tissue distribution and staining intensity of androgen receptor (AR) and estrogen receptor-alpha (ERα), and assess cells expressing both AR and ERα, in human BPH compared to normal prostate. A tissue microarray composed of normal prostate and BPH tissue was used and multiplexed immunohistochemistry was performed to detect AR and ERα. We used a multispectral imaging platform for automated scanning, tissue and cell segmentation and marker quantification. BPH specimens had an increased number of epithelial and stromal cells and increased percentage of epithelium. In both stroma and epithelium, the mean nuclear area was decreased in BPH relative to normal prostate. AR expression and staining intensity in epithelial and stromal cells was significantly increased in BPH compared to normal prostate. ERα expression was increased in BPH epithelium. However, stromal ERα expression and staining intensity was decreased in BPH compared to normal prostate. Double positive (AR and ERα) epithelial cells were more prevalent in BPH, and fewer double negative (AR and ERα) stromal and epithelial negative cells were observed in BPH. These data underscore the importance of tissue layer localization and expression of steroid hormone receptors in the prostate. Understanding the tissue-specific hormone action of androgens and estrogens will lead to a better understanding of mechanisms of pathogenesis in the prostate and may lead to better treatment for BPH.     

Immunocytochemical versus biochemical receptor determination in normal and tumorous tissues of the female reproductive tract and the breast

The development of highly specific and sensitive monoclonal antibodies directed against human estrogen (ER) and progesterone receptors (PR) provides a new approach in precise histochemical receptor location independent of hormone binding. Over the years receptor determination was the domain of the radioligand-binding assay, in which receptors are measured by tritiated ligand and unbound ligand is removed by the dextran-coated charcoal (DCC) procedure. Presented here are the results and experiences obtained by the classic DCC and the immunocytochemical method in the different normal and tumorous tissues of the female reproductive tract and the breast. The results of both methods were compared, and overall concordance of the results was found to vary considerably among the different types of tissue analyzed. Best agreement (86%) was found for PR determination in breast cancer, and the lowest rate of concordance for ER determination in fibrocystic disease of the breast. Special attention was directed toward the heterogeneity of receptor distribution in the specimens examined. In all tissues investigated, ER and PR were located in the nuclei of cells in both paraffin and frozen sections. Staining intensity varied among different cell types and from cell to cell for a single cell type, as well as in tumorous and normal tissues. In breast cancer, randomly scattered single cell receptor positivity was distinguished from focal/clonal positivity. Paraffin-embedded lymph node metastases showed significantly weaker staining as compared with their respective primary tumors. In the normal ovary, the corpus luteum and the stromal layer of the outer cortex were revealed as highly receptive elements for progestins, whereas ER was barely demonstrable in the normal ovary. Benign serous and mucinous ovarian tumors showed opposite ER and PR distribution among the stromal and epithelial components. Of special interest were the highly significant changes in ER and PR content in the stromal and glandular cells of the different layers of the normal endometrium throughout the menstrual cycle.     

同期发情处理小鼠与自然发情小鼠子宫内膜中孕激素受体分布的比较

目的从孕激素受体（PR）的角度探讨同期发情处理与自然发情小鼠的子宫内膜上,孕激素受体分布是否受内源孕激素的特异诱导而变化,两者之间是否存在差异。方法27只同日龄母鼠,根据处理方式的不同随机分为三个组：自然发情假孕组（对照组）、同期发情处理假孕组和自然发情假孕第l天摘除卵巢组,3个组的小鼠在见栓后第4、6、8天分别取样后,采用免疫组织化学法观察小鼠子宫内膜中孕激素受体的分布情况。结果免疫组化结果显示,三个处理组小鼠子宫内膜的三种细胞中都有PR存在;见栓第4天时,同期发情处理组小鼠子宫腺上皮细胞和基质细胞的PR胞核阳性率显著高于自然发情组（P〈0．05）;见栓第6天时,同期发情处理组小鼠子宫内膜三种细胞中的PR胞核阳性率显著高于自然发情组（P〈0．05）;同时自然发情假孕第1天摘除卵巢组在见栓第6和8天时的阳性率均显著低于其它两组（P〈0．05）。结论同期发情处理的小鼠子宫内膜中孕激素受体分布显著高于自然发情小鼠,且两者都受其内源性孕激素的特异诱导而变化。     

Immunocytochemical localization of transforming growth factor α, epidermal growth factor and epidermal growth factor receptor in the cat endometrium and placenta

This study was undertaken to determine the immunocytochemical localization of transforming growth factor α, epidermal growth factor and epidermal growth factor receptor in the endometrium of ovariectomized cats treated with oestradiol-17β and/or progesterone and in the endometrium and placenta of pregnant cats. Specific immunostaining was observed for all three antibodies. Moderate immunostaining for transforming growth factor α was observed in the epithelium of ovariectomized and oestrogen-treated cats. Dark epithelial staining was observed throughout pregnancy. The epithelial cells in progesterone-treated and peri-implantation animals contained dense deposits of reaction product, which were not reduced in intensity when immunoabsorbed antiserum was used. For epidermal growth factor, light--moderate epithelial staining was observed in ovariectomized and steroid-treated animals, and this increased in pregnant cats. Stromal staining for both the transforming and the epidermal growth factors was limited in steroid-treated animals and increased as pregnancy continued. Dark staining for epidermal growth factor receptor was observed in the epithelium and stroma in all the animals studied. The tips of surface epithelial convolutions in the non-implantation sites were always more darkly stained than in other regions of the surface epithelium. Staining in the placental trophoblast was limited to the syncytiotrophoblast for the two growth factors and the cytotrophoblast for the receptor during most of pregnancy and was absent late in pregnancy. The placental maternal giant cells contained specific immunoreactivity for all the immunogens from the middle of pregnancy to term. This study demonstrates that the two growth factors and the epidermal growth factor receptor are present in the endometrium and placenta of cats and suggests that these growth factors may play an autocrine/paracrine role during reproduction     

Structure and dynamics of the estrogen receptor

To evaluate the structure and function of estrogen receptor (ER) in various mammalian systems, the cytosolic forms of receptor from calf uterus and from MCF-7 human breast cancer cells have been purified to virtual homogeneity by sequential selective adsorption to estradiol-Sepharose and heparin-Sepharose. In both cases, the purified steroid-receptor complex appears to exist as an activated 5S homo- or heterodimer of mol. wt 65,000 (4S) steroid-binding subunits. Purified ER has high affinity for DNA and serves as a substrate for phosphorylation by a purified rat brain kinase. Several monoclonal antibodies prepared against affinity-purified MCF-7 cytosol ER have been used to localize receptor by an indirect immunoperoxidase technique in fixed, frozen sections of human breast tumors, human uterus, rabbit uterus and in other mammalian reproductive tissues and cancers, as well as in fixed MCF-7 cell cultures and in paraffin-embedded sections of breast tumors and human endometrium. In all cases, we have observed only nuclear localization of immunoreactive receptor in tissues and whole cells, even under conditions in which virtually all of the receptor is found in a low-salt extract (cytosol) of the target cells. Treatment of cells or tissues in vivo or in vitro with estradiol alters the intensity but not the distribution of specific staining for ER. By immunoelectron microscopy, receptor was localized in the euchromatin, but not in the marginated heterochromatin or nucleoli of MCF-7 nuclei and epithelial and stromal nuclei of postmenopausal human endometrium. These observations suggest that the majority of the unoccupied receptor may actually reside in the nucleus, rather than in the cytoplasm as previously thought. Thus, hormone action may involve binding of the steroid directly to receptor loosely associated with nuclear components, followed by conversion of the steroid-receptor complex to an activated form which becomes more tightly associated with chromatin.     

Postnatal mammary ductal growth: three-dimensional imaging of cell proliferation,effects of estrogen treatment,and expression of steroid receptors in prepubertal calves

Cows may provide insights into mammary development that are not easily obtained using mouse models. Mammary growth in control and estrogen-treated calves was investigated to evaluate general patterns of proliferation and relationship to estrogen receptor (ER) expression. After in vivo labeling with bromodeoxyuridine (BrdU), serial histological sections of mammary tissue were used to generate three-dimensional reconstructions. BrdU-labeled cells were present throughout the highly branched terminal ducts. ER and progesterone receptors (PR) were colocalized in nuclei of ductal epithelial cells. However, basal cells and epithelial cells that were located in the central region of epithelial cords and those that lined the lumen of patent ducts were ER- and PR-negative, as were stromal cells. Cells along the basal portion of the epithelium were not myoepithelial. ER in mammary epithelial cells but not stromal cells is analogous to patterns in human breast but contrasts with localization in murine mammary gland. After estrogen stimulation, 99% of BrdU-labeled (and Ki67-labeled) epithelial cells were ER-negative. Data suggest that proliferation in response to estrogen treatment was initiated within ER-positive epithelial cells of the developing mammary gland and the signal was propagated in paracrine fashion to stromal elements and ER-negative epithelial cells.     

VEGF, bFGF, and their receptors in the endometrium of rhesus monkey during menstrual cycle and early pregnancy

A number of cytokines and growth factors are known to modulate proliferation and differentiation of human endometrium. In this study, the expression of vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF), and VEGF receptors, fms-like tyrosine kinase (Flt1) and kinase insert domain-containing region (KDR), and bFGF receptor 1 (Flg) were examined in the endometrium of rhesus monkey on Day 5, 10, 16, 20, 25 of menstrual cycle and on Day 19 of early pregnancy. Western blot analysis showed the specificity of the anti-human antibodies with the monkey tissue. The expression of mRNA and protein of VEGF was correlated with that of its receptor KDR, which was detected in epithelial, vascular, and myometrial cells. The localization of bFGF and its receptor Flg was similar to that of VEGF, except that the Flg was absent in the endothelial cells. Strong expression of VEGF and bFGF in the glandular epithelial cells was observed in the proliferative phase, declined in the secretory phase during the cycle. Stronger staining of these factors was also observed in the decidual cells of the pregnant uterus, as compared with the stromal cells of cycling uterus. No expression of Flt1 was detected in the tissue examined in this study. These data suggest that VEGF, bFGF, and their receptors play important roles in epithelial and stromal development, angiogenesis, and blood vessel function in the endometrium during the menstrual cycle and early pregnancy of the rhesus monkey.     

Immunocytochemical determination of estrogen and progesterone receptors in human endometrial adenocarcinoma cells (Ishikawa cells).

The regulation of both estrogen and progesterone receptor levels in human endometrial adenocarcinoma cells of the Ishikawa line was investigated immunocytochemically by using monoclonal antibodies. Positive staining for estrogen and progesterone receptors was observed in the nuclei of Ishikawa cells. Intercellular heterogeneity in receptor content was evident from the presence of receptor-positive or -negative cells and from differences in staining intensity of positive cells. Quantitative analysis was performed by scoring the staining intensity and the proportion of positively stained cells. The time and dose-dependent stimulatory effect of estradiol added to culture media on progesterone receptor levels was studied by applying both immunocytochemical and biochemical methods. Estradiol at 10 nM (optimal concentration) increased the intensity score for PR from an initial value of 10.1 to 78.3 after 72 h incubation, and the proportion of the positive staining cells from 6.7 to 42.7%. Promegestone (R5020) was effective at 1 microM concentration in decreasing the intensity score for ER from 31.1 to 14.6 after 72 h exposure and the proportion of positive cells from 19.0 to 11.4%.