Estrogen Responsiveness and the Estrogen Receptor during Development of the Murine Female Reproductive Tract

The developing uterus, vagina, and cervix of mice whose age ranged from 16 days of gestation to 90 days postnatal were examined for nuclear estrogen receptors (ERs) by autoradiographic and whole cell uptake techniques. ERs were present within mesenchymal cells of these organs throughout the entire period of development and maturation. By contrast, nuclear ER first became detectable by autoradiography in the epithelium of vagina and uterus at 5 and 6 days postnatal, respectively.
As a result of administration of the synthetic estrogen, diethylstilbestrol (DES), consecutively from 16 to 18 days of gestation, uterine and vaginal epithelial cell height was increased and epithelial secretory activity was elevated during the first 48 hr of postnatal life. Also, a single does of DES administered on the 2nd day after birth stimulated epithelial proliferation in the uterus as determined by ³H-thymidine incorporation. These typical estrogenic effects occurred in the absence of nuclear ER within the epithelium. Prenatal DES treatment accelerated the onset of ER activity within the epithelium by 2 to 3 days relative to controls. The possibility that certain effects of estrogen on epithelial differentiation may be mediated indirectly via ER positive mesenchymal cells is discussed.     

Regulation of Noncontact Erection in Rats by Gonadal Steroids

Male rats exhibit erections in the presence of inaccessible estrous females, and we investigated which gonadal steroids regulate these noncontact erections (NCEs). Sexually experienced Wistar males (n >/= 8/group) were tested for NCE four times (every 3 days) before castration, after castration, and after receiving subcutaneous implants of 10-mm Silastic capsules that were empty or filled with crystalline testosterone propionate (TP), dihydrotestosterone (DHT), estradiol benzoate (EB), or DHT + EB (10 mm each). Before castration, males responded with NCE in approximately 50% of tests. No males had NCEs after castration, beginning 3 days after surgery. Also, no males responded after treatment with EB or empty capsules. After receiving implants of TP, DHT, or DHT + EB, 50% of males had NCEs, beginning with the first test 3 days after treatment. On every measure of NCE, males treated with DHT or DHT + EB were indistinguishable from each other and from TP-treated males. Among the sexual responses of male rats, NCE appears to be more sensitive than other behaviors to changes in gonadal condition. In its profile of response to gonadal steroids (testosterone+, dihydrotestosterone+, estradiol-), NCE is similar to reflexive erection, for which spinal systems are sufficient, and unlike copulation (T+, DHT-, E+), which depends on discrete areas of the brain. We nonetheless conclude that NCE depends on androgen-sensitive systems in the brain, but androgen-sensitive neurons in the lumbosacral spinal cord may also play a role.     

Estrogen-Inducible Progesterone Receptors in the Rat Lumbar Spinal Cord: Regulation by Ovarian Steroids and Fluctuation across the Estrous Cycle

Ovarian hormones influence the physiology of the spinal cord through incompletely understood cellular mechanisms. To date, there has been little compelling evidence for progesterone receptors in spinal cord neurons. Using two antibodies specific for progesterone receptors in an immunohistochemical investigation, we now report the presence of estrogen-inducible progesterone receptors in the spinal cord. Estrogen-inducible progesterone receptors were observed in the neurons of lamina X and the interomedialateral cell column, which are also known to express estrogen receptors. Estrogen-inducible progesterone receptors similar to those observed in females were also apparent in lamina X and interomediolateral cell column neurons in the spinal cords of males treated with estradiol. Furthermore, the density of progesterone receptors in lamina X was observed to fluctuate across the estrous cycle in female rats, with the highest progesterone receptor expression levels occurring late in proestrus, following the estradiol surge and coincident with high circulating progesterone levels. The lowest progesterone receptor expression levels were observed late in estrus following the progesterone surge. Together, these results demonstrate that estrogen-sensitive progestin targets exist in the spinal cord, and their possible role in the nervous control of reproduction and ovarian steroid modulation of nociception is discussed.     

Estradiol Regulation of Nucleotidases in Female Reproductive Tract Epithelial Cells and Fibroblasts

The use of topical and oral adenosine derivatives in HIV prevention that need to be maintained in tissues and cells at effective levels to prevent transmission prompted us to ask whether estradiol could influence the regulation of catabolic nucleotidase enzymes in epithelial cells and fibroblasts from the upper and lower female reproductive tract (FRT) as these might affect cellular TFV-DP levels. Epithelial cells and fibroblasts were isolated from endometrium (EM), endocervix (CX) and ectocervix (ECX) tissues from hysterectomy patients, grown to confluence and treated with or without estradiol prior to RNA isolation. The expression of nucleotidase (NT) genes was measurable by RT-PCR in epithelial cells and fibroblasts from all FRT tissues. To determine if sex hormones have the potential to regulate NT, we evaluated NT gene expression and NT biological activity in FRT cells following hormone treatment. Estradiol increased expression of Cytosolic 5′-nucleotidase after 2 or 4 h in endometrial epithelial cells but not epithelial cells or fibroblasts from other sites. In studies using a modified 5′-Nucleotidase biological assay for nucleotidases, estradiol increased NT activity in epithelial cells and fibroblasts from the EM, CX and ECX at 24 and 48 h. In related studies, HUVEC primary cells and a HUVEC cell line were unresponsive to estradiol in terms of nucleotidase expression or biological activity. Our findings of an increase in nucleotidase expression and biological activity induced by estradiol do not directly assess changes in microbicide metabolism. However, they do suggest that when estradiol levels are elevated during the menstrual cycle, FRT epithelial cells and fibroblasts from the EM, CX and ECX have the potential to influence microbicide levels that could enhance protection of HIV-target cells (CD4+T cells, macrophages and dendritic cells) throughout the FRT.     

Estrogen and Progesterone Receptors in the Uterus of the Vervet Monkey

Abstract

Experimental conditions for the optimal measurement of estrogen (ER) and progesterone (PR) receptors in normal vervet monkey (Cercopithecus aethiops pygerythrus) uteri are described. The uteri of this primate were found to contain relatively high concentrations of both ER and PR. Levels of ER ranged from 151 to 822 femtomoles per mg protein (mean for group assayed is 327±165 femtomoles per mg protein). PR assays were performed on the same cytosols and the levels ranged from 444 to 2267 femtomoles per mg protein (mean of 1285±511 femtomoles per mg protein). Mean K_d values for the ER- and PR-ligand complexes were found to be 3.15±1.4x10^-10 M and 2.38±0.2x10^-9 M respectively, within the group analysed (n=21). The ratio of PR to ER varied between 1.1 and 13.1 with a mean of 4.5±2.4. Ligand specificity studies revealed that [³H]-17β-estradiol binding to the ER could only be inhibited by estrogens or estrogen analogues. The PR however exhibited an affinity for a wider range of ligand types. In low ionic strength buffers both ER and PR sedimented as ±8S type molecules in the presence or absence of 10mM sodium molybdate. Both receptors dissociated into smaller components, following a short exposure to 0.4 M KCl and subsequent centrifugation in a gradient containing 0.4 M KCl.     

Distribution and Regulation of ENaC Subunit and CFTR mRNA Expression in Murine Female Reproductive Tract

The present study investigated the regional distribution and cyclic changes in the mRNA expression of epithelial Na+ channel (ENaC) subunit and cystic fibrosis transmembrane conductance regulator (CFTR), a cAMP-activated Cl- channel, in adult female mouse reproductive tract. In situ hybridization revealed that in contrast to the abundant expression of CFTR, ENaC (alpha, beta, gamma) mRNA signal was not detected throughout the estrus cycle in the ovary and oviduct. Messenger RNA for all ENaC subunits was abundantly detected in the cervical and vaginal epithelia throughout the estrus cycle but for CFTR, mRNA was found only at proestrus. In the uterine epithelium, alphaENaC mRNA was detected at diestrus but not found at any other stage, while CFTR mRNA was only detected at early estrus but not other stages. Semi-quantitative RT-PCR detected mRNA for all ENaC subunits in the uterus throughout the cycle with maximal expression at diestrus and CFTR mRNA was only found in the early stages of the cycle. The involvement of ENaC and CFTR in Na+ absorption and Cl- secretion was demonstrated in cultured endometrial epithelia using the short-circuit current technique and found to be influenced by ovarian hormones. Taken together, these data indicate a main secretory role of the ovary and oviduct and a predominantly absorptive role of the cervix and vagina. The present results also suggest an ability of the uterus to secrete and absorb at different stages of the estrus cycle. Variations in the fluid profiles may be dictated by the regional and cyclic variations in expression of ENaC and CFTR and are likely to contribute to various reproductive events in different regions of the female reproductive tract.     

雌激素和孕激素对不同发情方式小鼠子宫内膜中孕激素受体分布的影响

目的探讨雌（Estrogen,E2）、孕激素（Progesterone,P4）对同期发情与自然发情小鼠子宫内膜中孕激素受体（Progesterone receptor,PR）分布的影响。方法45只同日龄雌鼠,根据处理方式的不同随机分为5组：自然发情组（对照组）、同期发情组、卵巢摘除组、P4处理组和E2处理组,5组小鼠在见栓后第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PR的分布变化情况。结果免疫组织化学染色结果显示,5个处理组小鼠子宫内膜的三种细胞中都有PR存在;同期发情组小鼠子宫内膜中三种类型细胞PR的表达与自然发情组差异有显著性（P〈0.05）;P4处理组小鼠子宫内膜中三种类型细胞PR的表达在见栓第4、6天显著低于卵巢摘除组（P〈0.05）;E2处理组小鼠子宫内膜腺上皮和间质中PR在第4、6、8天时都显著高于卵巢摘除组（P〈0.05）,而在腔上皮中则显著低于卵巢摘除组（P〈0.05）。结论同期发情处理与自然发情小鼠的子宫内膜上PR的分布,都受E2和P4的特异诱导而变化。     

被动吸烟下调大鼠卵巢雌、孕激素及其受体的表达

目的利用Wistar大鼠烟雾吸入模型,观察被动吸烟对Wistar大鼠卵巢结构的影响,检测生殖激素水平,分析生殖内分泌的变化,为提倡生育期妇女避免被动吸烟提供新的理论依据。方法建立大鼠烟雾吸入模型。32只健康雌性Wistar大鼠,鼠龄(60±5)d,每只体重200～250g,随机分为空白对照组和实验组,每组16只。实验组吸烟3个月,对照组正常饲养。3个月后处死两组大鼠。酶联免疫吸附试验方法 (enzyme linkedimmunosorbent assay,ELISA)检测雌鼠血清中雌激素(estrogen,E2)、孕激素(progesterone,P4)的水平;常规石蜡切片,免疫组织化学SP法检测各组雌鼠卵巢雌激素受体(estrogen receptor,ER)、孕激素受体(progesterone receptor,PR)的表达情况。所得数据采用SPSS软件作统计学处理分析,比较各组间差异程度。结果①酶联免疫吸附试验结果 :吸烟3个月大鼠血清E2水平比空白对照组显著降低,其浓度值比较差异有显著性;吸烟3个月大鼠血清P4水平比空白对照组显著降低,其浓度值比较差异有显著性。②免疫组织化学结果 :ER主要表达在大鼠卵巢组织的各级生长卵泡的颗粒细胞的细胞核内,呈棕黄色颗粒状分布,卵泡膜细胞和间质细胞也有少量表达。吸烟3个月的大鼠卵巢组织中ER的表达显著低于空白对照组。PR主要表达在大鼠卵巢组织卵泡的颗粒细胞的细胞质和细胞核中,呈棕黄色颗粒状分布,吸烟3个月的大鼠卵巢组织中PR的表达显著低于空白对照组。结论①成功的建立了大鼠被动吸烟模型。②被动吸烟可使大鼠血清中E2及P4水平明显降低,使大鼠卵巢中ER及PR的表达减少,提示被动吸烟可破坏卵巢的功能,引起生殖内分泌失调。     

Hormonal Regulation of Female Reproductive Behavior in Fish

SYNOPSIS. Fundamentally different mechanisms regulate femalesexual behavior in the ovoviviparous guppy and the oviparousgoldfish. In the female guppy, ovarian estrogen evidently synchronizescycles of sexual receptivity with endogenous cycles of ovarianmaturation and also increases female attractivity at the timeof maximum receptivity by stimulating the release of a sexualpheromone. In the goldfish, it appears that prostaglandin, releasedfrom the ovary or oviduct in conjunction with ovulation andthe presence of ovulated eggs, acts on the brain to stimulatespawning behavior. In contrast to the situation in the guppy,steroid treatments alone (in the absence of ovulated eggs) failto stimulate spawning behavior in the goldfish. It isproposedthat endocrine mechanisms regulating female sexual behaviorin the teleosts and in other vertebrates are less related tophylogeny than to the mode of reproduction employed. In thegoldfish and several other externally fertilizing teleosts,where sexual behavior involves oviposition, female sexual behaviorapparently is synchronized with ovulation by mechanisms whichrespond to elevated plasma prostaglandin as an indicator ofthe presence of ovulated eggs. In internally fertilizing species(guppy, reptiles, birds, mammals), where sexual behavior andfertilizationare temporally dissociated, female sexual behavior is synchronizedwith ovulation by mechanisms which anticipate either an imminentspontaneous ovulation, or the potential for reflex ovulation,by responding to increases in plasma estrogen associated withfolliculardevelopment.     

Folate Receptors in Malignant and Benign Tissues of Human Female Genital Tract

We have characterized the folate receptor in malignant and benign tissues of human female genital tract (Fallopian tube and benign and malignant tissues of uterus). Radioligand binding displayed characteristics similar to those of other folate binding proteins. Those include a high-affinity type of binding (K=10¹⁰M^–1), apparent positive cooperativity, a slow dissociation at pH 7.4 becoming rapid at pH 3.5, and inhibition of binding by folate analogues. The gel filtration profile of Triton X-100 solubilized tissue contained two large peaks of ³H-folate labelled protein (>=130 and 100kDa) as well as a 25 kDa peak. Only a single band of 70 kDa was seen on SDS-PAGE immunoblotting. The large molecular size forms on gel filtration appear to represent folate receptors having a hydrophobic membrane anchor inserted into Triton X-100 micelles. The folate receptor of female genital tract showed cross-reactivity in ELISA and positive immunostaining with rabbit antibodies against human milk folate binding protein. Variations in the ratio of immunoresponse to total high affinity folic acid binding suggests the presence of multiple isoforms of the receptor in different types of malignant and benign tissues.     

Reproductive Inhibition of Female Peromyscus leucopus: Female Competition and Behavioral Regulation

Maturational delay of young female mice as the result of exposureto grouped female odors and reproductive inhibition as the resultof exposure to isolated adult females have both been observed(Drickamer, 1974; Skryja, 1978). Each has the potential to reducethe growth rate of populations. Reductions in a female's reproductionfacilitated by social stimulation from other females, whileeffective in reducing population growth, may in the case, ofmaturational delay and reproductive inhibition be an epiphenomenonor exadaptation of selection for improved relative reproductivesuccess in the females possessing these abilities. The ultimateoutcome of these selective processes may be the buffering ofpopulation numbers, but the selective forces may operate tomaximize a female's relative reproductive success. A females'relative reproductive success can be maximized by either increasingher own reproduction or decreasing the reproductive output ofother females. A body of evidence exists to suggest that inPeromyscus mamculatus and Peromyscus leucopus, females are physiologicallyconstrained and unable to increase their own reproduction. Ifthe assumption of physiological restraint is correct, then themost effective way for females to maximize their relative reproductivesuccess is to reduce the reproductive output of their competitors.In this paper, maturational delay and reproductive inhibitionas they affect both the adult female and young females are discussed.Examination of these effects reveals that while they can beeffective in population regulation, their main function andthe selective process that produced them is at the level ofindividual reproduction.     

Differential Binding of IgG and IgA to Mucus of the Female Reproductive Tract

Cells of the endocervix are responsible for the secretion of mucins, which provide an additional layer of protection to the female reproductive tract (FRT). This barrier is likely fortified with IgA as has previously been shown in the gastrointestinal tract and lungs of mice. Mucus associated IgA can facilitate clearance of bacteria. While a similar function for IgG has been proposed, an association with mucus has not yet been demonstrated. Here we find that IgA and IgG are differentially associated with the different types of mucus of the FRT. We observed that while both IgA and IgG are stably associated with cervical mucus, only IgG is associated with cervicovaginal mucus. These findings reveal that antibodies can bind tightly to mucus, where they can play a significant role in the fortification of the mucus barriers of the FRT. It may be possible to harness this interaction in the development of vaccines designed to protect the FRT mucosal barriers from sexually transmitted diseases such as HIV.     

Reversibility of the Stabilization Effect of Sodium Molybdate on Uterine Estrogen and Progesterone Receptors of the Vervet Monkey

Abstract

Sodium molybdate affected the stability of vervet monkey (Cercopithecus aethiops pygerythrus) uterine estrogen (ER) and progesterone (PR) receptors. Yields of receptors were invariably higher (20 - 40 %) when cytosols were prepared in the presence of 10mM sodium molybdate. No changes were observed in the binding affinities for the natural ligands as reflected in dissociation at 0°C and 20°C was not affected in the presence or absence of molybdate. Stability studies at 37°C indicated both receptors to be more resistant to inactivation in the presence of molybdate. Dissociation of ER and PR was biphasic, indicating the existence of slow (SDC), as well as fast dissociating (FDC) complexes. Rate constants of dissociation were significantly affected by the presence of sodium molybdate Although no significant changes in the sedimentation coefficeints were observed, marked differences in the actual gradient profiles could be illustrated in the presence or absence of sodium molybdate. Observed effects could only be partially reversed in sedimentation dialysis experiments. Proteolytic inhibitors phenlymethylsulfonylfluoride (PMSF) and leupeptin had no inhibitive effect on the molybdate stabilization of ER and PR.     

Neuroendocrine Regulation of Growth Hormone Secretion in Teleost Fishes with Emphasis on the Involvement of Gonadal Sex Steroids

In teleost fishes, growth hormone (GH) appears to play an important regulatory role in several, apparently disparate, physiological events, including reproduction, osmotic or ionic regulation, metabolism, growth and development. GH secretion is regulated by hypothalamic neuroendocrine factors that either act directly on the somatotrophic cells in the pituitary gland, or modulate the secretion or activity of other neuroendocrine factors. In addition, the degree of the neuroendocrine influence on GH release is influenced by the nutritional and reproductive state of the fish; moreover, there appear to be marked species differences in some aspects of this neuroendocrine-physiological condition relationship among fish species. Thus, the neuroendocrine control of GH secretion in fishes is complex, and still poorly understood. The neuropeptides, gonadotrophin-releasing hormone, growth hormone-releasing hormone, thyrotrophin-releasing hormone, neuropeptide Y, serotonin and pituitary adenylate cyclase-activating polypeptide have all been demonstrated to stimulate GH in fish, as has the glutamate agonist, N-methyl-d,l-aspartate. Conversely, somatostatin has a potent inhibitory action on GH release in goldfish and carp, but is less effective in salmon and trout species.This review examines the interactive nature of the neuroendocrine control of GH secretion in fishes, and the manner in which gonadal steroids, directly or indirectly, modulate GH secretion and/or the release, or the activity, of the neuroendocrine factors.