Androgen modulation of hippocampal synaptic plasticity

This review briefly summarizes recent developments in our understanding of the role of androgens in maintaining normal hippocampal structure. Studies in rats and vervet monkeys have demonstrated that removal of the testes reduces the density of synaptic contacts on dendritic spines of cornu ammonis 1 (CA1) pyramidal neurons. This effect is rapidly reversed by treatment with either testosterone or the non-aromatizable androgen dihydrotestosterone, suggesting that maintenance of normal synaptic density is androgen-dependent, via a mechanism that does not require intermediate estrogen biosynthesis. Similar effects of these androgens are observed in ovariectomized female rats, except that in the female the actions of testosterone include a substantial contribution from estrogen formation. The ability to stimulate hippocampal spine synapse density is not directly related to systemic androgenic potency: thus, weak androgens such as dehydroepiandrosterone exert effects that are comparable to those of dihydrotestosterone; while partial agonist responses are observed after injection of the synthetic antiandrogen, flutamide. These data provide a morphological counterpart to observations that androgens enhance cognitive function and mood state, suggesting that these effects may result at least in part from hippocampal neurotrophic responses. The unusual specificity of these responses raises the possibility that effects of androgens on the brain may be mediated via different mechanisms than the masculinizing actions of these steroids in non-neural androgen target organs.

Effects of testosterone on hippocampal CA1 spine synaptic density in the male rat are inhibited by fimbria/fornix transection

This study investigated the contribution of sub-cortical afferent input to the effects of testosterone (T) on spine synapse density in the CA1 subfield of the hippocampus, in adult male rats. Gonadectomized (GDX) male rats exhibited a considerably lower density of spine synapses in the CA1 region than control, intact males. The effects of GDX were reversed by treatment with testosterone propionate (TP; 500 microg/day, for 2 days). Transection of the fimbria/fornix (FF) had no significant effect on the synaptic density in non-GDX males. However, FF transection partially inhibited the responses to TP in GDX animals. These data suggest that the effects of T on spine synapse density in the CA1 region of the male rat hippocampus are partially, but not completely, dependent on afferent sub-cortical input.

Ovarian steroids reduce apoptosis induced by trophic insufficiency in nerve growth factor-differentiated PC12 cells and axotomized rat facial motoneurons

Previous studies have demonstrated that ovarian steroids exert neuroprotective effects in a variety of in vitro and in vivo systems. The mechanisms underlying these effects remain poorly understood. In the present study, the neuroprotective effects of estradiol (E(2)) and progesterone (P) were examined in two models of apoptosis induced by growth factor insufficiency: partially nerve growth factor (NGF)-differentiated PC12 cells, after serum and NGF withdrawal; and axotomized immature rat facial motor motoneurons. E(2) and P both increased the survival of trophically withdrawn NGF-differentiated PC12 cells, at physiologically relevant concentrations. However, neither steroid had a significant effect on the survival of PC12 cells that had not been NGF treated. Exposure to NGF had no effect on the expression of estrogen receptor (ER)beta, but markedly increased the levels of ERalpha and altered the expression of the progesterone receptor (PR) from predominantly PR-B in NGF naive cells, to predominantly PR-A after NGF. The survival promoting effects of E(2) and P were blocked by the specific steroid receptor antagonists Faslodex (ICI 182780) and onapristone (ZK98299), respectively. Inhibitors of RNA (actinomycin D) or protein (cycloheximide) synthesis also abrogated the protective effects of both steroids. In immature rats, E(2) and P both significantly increased the numbers of surviving facial motor neurons at 21 days after axotomy. These data demonstrate significant protective effects of E(2) and P in two well-characterized models of apoptosis induced by trophic withdrawal and suggest that, at least in PC12 cells, the effects of the steroids are mediated via interaction with nuclear steroid receptor systems. The lack of steroid responsiveness in NGF-naive PC12 cells despite the presence of abundant ERbeta and PR-B are consistent with the view that ERalpha and PR-A may be particularly important as mediators of the neuroprotective effects of their corresponding hormonal ligands.

Progestin receptors mediate progesterone suppression of epileptiform activity in tetanized hippocampal slices in vitro

Clinical and laboratory studies suggest that progesterone reduces epileptic seizure activity. The mechanisms underlying this effect are not known. The present study determined the effects of progesterone on extracellular evoked responses recorded in the CA1 field of hippocampal slices, as well as epileptiform responses recorded from tetanized slices. Slices were prepared from ovariectomized rats, with or without estrogen replacement. Hippocampal slices were superfused in vitro with one of the following treatments: progesterone with or without RU486 (a progesterone receptor antagonist); allopregnanolone (a progesterone metabolite that potentiates GABA action at GABA(A) receptors); RU5020 (a high-affinity progesterone receptor agonist); or cholesterol (control). In non-tetanized slices, a twofold increase in the excitatory postsynaptic field potential and population spike amplitude occurred during both cholesterol and progesterone superfusion. In contrast, under the same conditions, exposure to allopreganolone caused a 25% reduction in both field potential and population spike amplitude of evoked responses within 30min of treatment. In tetanized slices, progesterone and RU5020, but not allopregnanolone or cholesterol, caused significant reductions in the field potential and population spike amplitude of evoked responses. Progesterone and RU5020 also significantly reduced the duration of tetanic stimulus-induced afterdischarges and the frequency of spontaneous interictal discharges. The effects of allopregnanolone were restricted to a reduction in the primary afterdischarge duration. Estrogen replacement slightly attenuated progesterone's suppression of spontaneous discharges and depression of evoked responses. All responses to progesterone were blocked by prior or concurrent exposure to RU486. These data indicate that allopregnanolone suppresses evoked potentials in non-tetanized hippocampal slices, consistent with previous reports that this neurosteroid has marked anxiolytic and anticonvulsant effects. After tetanization, however, progesterone receptor-mediated responses become quantitatively more important as a mechanism for suppressing hippocampal electrical activity.

Gonadectomy unmasks an inhibitory effect of progesterone on amygdala kindling in male rats

Previous studies have suggested that the effects of progesterone on kindling in rats may be sexually differentiated, significant effects of physiological levels of progesterone being observed only in females. The present study demonstrates that this difference results from the hormones secreted by the testes. Thus, in orchidectomized males, progesterone induces a delay in the onset of amygdala-kindled seizures similar to that observed in females.

The effect of seizures and kindling on reproductive hormones in the rat

Reproductive dysfunction and endocrine disorders are common among both women and men with epilepsy, and, in particular, with temporal lobe epilepsy. In clinical studies, it is hard to separate the effects of seizures from the effects of medication and life style. Studies in rodents, however, suggest that seizures per se can contribute to reproductive dysfunction. In female rats, generalized seizures disrupt normal ovarian cyclicity in adults, and repeated electroshock seizures delay the onset of puberty in juveniles. Right amygdala kindling in adult female rats causes acyclicity, the development of polycystic ovaries and premature aging of the hypothalamic-pituitary neuroendocrine axis, leading to chronic anovulation and continuous estrogen exposure. In adult male rats, repeated electroshock seizures result in transient hypogonadism, characterized by decreased serum testosterone levels and lowered gonadal tissue weight. In contrast, right amygdala kindling increases serum testosterone, estradiol levels and gonadal weight. These findings suggest that reproductive dysfunction in women and men with epilepsy may result from recurrent seizure activity, due to seizure-related interference with the normal functions of the hypothalamic-pituitary-gonadal axis.

Neuroendocrine function and response to stress in mice with complete disruption of glucagon-like peptide-1 receptor signaling

Glucagon-like peptide-1 (GLP-1), a potent regulator of glucose homeostasis, is also produced in the central nervous system, where GLP-1 has been implicated in the neuroendocrine control of hypothalamic-pituitary function, food intake, and the response to stress. The finding that intracerebroventricular GLP-1 stimulates LH, TSH, corticosterone, and vasopressin secretion in rats prompted us to assess the neuroendocrine consequences of disrupting GLP-1 signaling in mice in vivo. Male GLP-1 receptor knockout (GLP-1R-/-) mice exhibit reduced gonadal weights, and females exhibit a slight delay in the onset of puberty; however, male and female GLP-1R-/- animals reproduce successfully and respond appropriately to fluid restriction. Although adrenal weights are reduced in GLP-1R-/- mice, hypothalamic CRH gene expression and circulating levels of corticosterone, thyroid hormone, testosterone, estradiol, and progesterone are normal in the absence of GLP-1R-/- signaling. Intriguingly, GLP-1R-/- mice exhibit paradoxically increased corticosterone responses to stress as well as abnormal responses to acoustic startle that are corrected by glucocorticoid treatment. These findings suggest that although GLP-1R signaling is not essential for development and basal function of the murine hypothalamic-pituitary-adrenal axis, abrogation of GLP-1 signaling is associated with impairment of the behavioral and neuroendocrine responses to stress.

Partial and generalized seizures affect reproductive physiology differentially in the male rat

PURPOSE

Reproductive dysfunction and endocrine disorders occur frequently among men with epilepsy. This study tested the hypothesis that focal limbic seizures and generalized seizures may both contribute to reproductive dysfunction.

METHODS

The rat kindling model was used to mimic focal limbic seizures. Kindling electrodes were placed in the basolateral amygdala. Male rats were either intact, gonadectomized (GDX) or GDX + testosterone (T) replaced and then kindled. Controls were left intact and sham-kindled. Maximal electroconvulsive shock (MES) treatment was used to model generalized seizures, by using eight stimulations, one every other day, for 2.5 weeks. Animals were killed either 3 h or 6 weeks after MES treatment to determine short- and long-term effects.

RESULTS

Kindled seizures resulted in an increase in serum testosterone, estradiol, and prolactin in intact males, accompanied by a significant increase in testis, epididymis, and pituitary weight, as well as a significant decrease in prostate weight. MES treatment caused a short-term reduction in serum testosterone and testis, epididymis, and prostate weight. All parameters were restored to control values within 6 weeks of the last MES seizure, with the exception of pituitary weight and serum prolactin, which remained significantly elevated 6 weeks after MES treatment.

CONCLUSIONS

Our results indicate that both focal limbic (amygdaloid) seizures and generalized MES seizures disturb normal reproductive physiology in the male rat. Amygdaloid-kindled seizures have mixed effects on different parameters of reproductive function, whereas MES seizures induce a transient hypogonadal state. These results suggest that reproductive dysfunction in men with epilepsy may result from seizure-related interference with the normal functions of the hypothalamic-pituitary-testicular axis.

Limbic seizures alter reproductive function in the female rat

PURPOSE

Reproductive dysfunction and endocrine disorders are common among women with temporal lobe epilepsy. This study used the kindled rat model to test the hypothesis that limbic seizures directly contribute to reproductive dysfunction.

METHODS

Kindling electrodes were implanted in the basolateral amygdala in adult female rats. Females were kindled by either brief, daily, suprathreshold stimulations with a bipolar electrode or sham-kindled (controls). Electrographic and behavioral seizures were monitored. Estrous cycles also were monitored with daily vaginal smears.

RESULTS

Seizures arrested ovarian cyclicity in all (n = 42) kindled animals, the rats exhibiting persistent vaginal cornification (PVC). In these animals PVC was associated with high serum estradiol, increased pituitary weight, and polyfollicular ovaries consisting of many cystic follicles, as well as follicles in various stages of growth and atresia. In 93% of females, this effect occurred after the development of stage 5 motor seizures, when focal seizures had secondarily generalized. In contrast, only five (21%) of 24 sham-kindled controls exhibited PVC. A single injection of progesterone (P4) temporarily restored cyclicity in five (18%) of 28 kindled females exhibiting PVC. In contrast, P4 administration restored cyclicity in all five sham-kindled controls that had spontaneously stopped cycling. P4 treatment to kindled females in PVC resulted in a different endocrine profile than that in non-P4-treated, kindled rats in PVC. P4-treated rats had high serum estradiol, testosterone, and prolactin levels; they showed an increase in pituitary weight; and their ovaries contained numerous corpora lutea and cystic follicles surrounded by markedly overdeveloped thecal cell layers.

CONCLUSIONS

Seizures initiated in the amygdala result in impairment of the hypothalamic-pituitary axis, resulting in loss of ovarian cyclicity.

Steroid hormones affect limbic afterdischarge thresholds and kindling rates in adult female rats

Catamenial epileptics show particular vulnerability to seizures during menstruation and at the time of ovulation, when circulating estradiol (E(2))/progesterone (P(4)) ratios are high. The present study tested the hypothesis that alterations in neuronal excitability induced by E(2) and P(4) affect thresholds and the development of secondary generalization in kindled rats.

METHODS

The effects of endogenous hormones secreted during the estrous cycle, and of exogenous exposure to E(2) and P(4) after ovariectomy (OVX), with and without adrenalectomy (ADX), were tested. Kindling electrodes were implanted in the basolateral amygdala or dorsal hippocampus in adult female rats. The anticonvulsive effects of P(4) on amygdala kindled seizures were also determined in intact subjects.

RESULTS

In intact females, afterdischarge thresholds (ADTs) in the amygdala were significantly lower (306+/-48 microA; peak to peak) at mid-day proestrus, just prior to ovulation, when serum E(2) is elevated. ADTs were more than twofold higher (808+/-95 microA) during metestrus, coincident with peak ovarian P(4) secretion. In OVX females, amygdala thresholds were lowest with E(2) replacement and highest with P(4) replacement. Hippocampal ADT was unaffected by hormone replacement after OVX. The rates of both amygdala and hippocampal kindling were significantly accelerated by E(2) and slowed by P(4). E(2) replacement significantly increased serum corticosterone (CORT) levels. In ADX rats, CORT replacement increased kindling rates, synergizing with the effects of E(2). In fully kindled animals, P(4) administration suppressed motor seizures in approximately 60% of cases.

CONCLUSIONS

E(2) lowers amygdala ADTs and facilitates kindling. This effect may involve both direct E(2) effects and indirect effects mediated via increased levels of circulating corticosterone. P(4) raises amygdala ADTs, slows kindling development and suppresses fully kindled seizures. Hence, P(4) may have potential therapeutic value for women with catamenial epilepsy.

Testosterone and its metabolites affect afterdischarge thresholds and the development of amygdala kindled seizures

In boys with epilepsy, pubertal increases in seizure frequency may be associated with rising androgen levels. The present study tested the hypothesis that testosterone (T) and/or its metabolites might affect amygdala seizure thresholds and the development of secondary generalization from amygdala foci (kindling). Afterdischarge thresholds and kindling rate were measured in gonadectomized (GDX) male rats, with or without T replacement therapy. Drugs that block either androgen or estradiol (E(2)) receptor-mediated responses were also tested.

METHODS

Kindling electrodes were implanted in the basolateral amygdala of adult male Wistar rats. In Experiment 1, subjects were GDX and implanted with a silastic capsule containing either: cholesterol (control); T; 5% E(2) in cholesterol; or 5alpha-dihydrotestosterone (DHT). In Experiment 2, intact subjects were treated with daily injections of vehicle (control); daily injections of flutamide (an androgen receptor antagonist); or Silastic implants containing 1,4,9-androstatriene 3,17-dione (ATD; an aromatase inhibitor).

RESULTS

In Experiment 1, initial afterdischarge (AD) thresholds were significantly lowered by E(2) treatment, as compared to cholesterol controls, and remained low throughout the kindling paradigm. In T replaced males, AD threshold significantly decreased over the kindling period, a response that was not observed in DHT treated rats. Rates of kindling were significantly faster as a result of T, E(2) and DHT treatment, as compared to cholesterol controls. E(2) treated males kindled the fastest of all 3 groups. In Experiment 2, initial AD thresholds were significantly lowered by flutamide treatment, as compared to cholesterol controls, and remained low throughout the kindling paradigm. AD threshold significantly decreased over the kindling period in intact males, a response that was blocked by ATD treatment. Both flutamide and ATD significantly slowed the rate of kindling, as compared to intact controls. ATD had the most dramatic inhibitory effect on kindling rate.

CONCLUSIONS

In males, T and its two metabolites, E(2) and DHT, all appear to enhance the development of amygdala-kindled seizures. E(2) has the most potent epileptogenic effect. Antagonism of E(2) mediated effects in the brain may have potential therapeutic value for males with epilepsy.

Hormonal interactions in the effects of halogenated aromatic hydrocarbons on the developing brain

Halogenated arylhydrocarbons (HAHs) exert a wide range of effects on the developing brain. These effects result in altered patterns of neuroendocrine function and behavior in adulthood, as well as changes in cognitive function. The underlying mechanisms have not yet been clearly defined. This paper briefly reviews the effects of HAHs on brain development, and proposes the hypothesis that interactions between different hormone-sensitive systems may contribute to the broad spectrum of responses observed after fetal or early postnatal HAH exposure. Physiological interactions between the effects of sex steroids, corticosteroids, and thyroid hormone are known to influence the development of the central nervous system (CNS). Since the biosynthesis and/or action of each of these hormones is sensitive to developmental HAH exposure, it is suggested that convergent effects of HAHs on different endocrine pathways may underlie some of the disruptive effects of these chemicals on CNS differentiation. Data are presented indicating that the disruptive effects of low dose dioxin exposure on sexual differentiation of the rat brain are probably not mediated through blockade of estrogen responses, but may instead involve subtle developmental changes in other endocrine systems, perhaps also affecting the feedback control of adrenocortical function. The potential for interactive endocrine effects illustrates the need for a fuller understanding of the range of biological activities of HAHs in the brain, so that the potential risks of low dose developmental exposure to these environmental toxicants can be predicted with greater certainty.

Sex and the developing brain: suppression of neuronal estrogen sensitivity by developmental androgen exposure

The developmental effects of androgen play a central role in sexual differentiation of the mammalian central nervous system. The cellular mechanisms responsible for mediating these effects remain incompletely understood. A considerable amount of evidence has accumulated indicating that one of the earliest detectable events in the mechanism of sexual differentiation is a selective and permanent reduction in estrogen receptor concentrations in specific regions of the brain. Using quantitative autoradiographic methods, it has been possible to precisely map the regional distribution of estrogen receptors in the brains of male and female rats, as well as to study the development of sexual dimorphisms in receptor distribution. Despite previous data suggesting that the left and right sides of the brain may be differentially responsive to early androgen exposure, there is no significant right-left asymmetry in estrogen receptor distribution, in either sex. Significant sex differences in receptor density are, however, observed in several regions of the preoptic area, the bed nucleus of the stria terminalis and the ventromedial nucleus of the hypothalamus, particularly in its most rostral and caudal aspects. In the periventricular preoptic area of the female, highest estrogen receptor density occurs in the anteroventral periventricular region: binding in this region is reduced by approximately 50% in the male, as compared to the female. These data are consistent with the hypothesis that androgen-induced defeminization of feminine behavioral and neuroendocrine responses to estrogen may involve selective reductions in the estrogen sensitivity of critical components of the neural circuitry regulating these responses, mediated in part through a reduction in estrogen receptor biosynthesis.

Effects of different estrogen and progestin regimens on the mechanical properties of rat femur

The purpose of this study was to examine the effects of estrogen replacement, in concert with three different progestin regimens, on the mechanical properties of rat femoral cortical bone. Ninety-two 11-month-old female Sprague-Dawley rats were randomly divided into six groups and were treated for a duration of 6 months. Group-1 rats were intact controls, group-2 rats were ovariectomized controls, and groups 3-6 were ovariectomized and given continuous doses of estrogen with 5% estradiol 17B silicone-rubber implants. Groups 4, 5, and 6 were also given different doses of progestin (norethindrone): group 4 received a continuous dose of 3 micrograms per animal per day, group 5 received a cyclic dose of 6 micrograms per animal per day for 14 days of a 28-day cycle, and group 6 received an interrupted dose of 3 micrograms per animal per day for 3 days of a 6-day cycle. Femurs from each group were mechanically tested. Bending stiffness was measured by nondestructive three-point bending tests and maximum torque capacity, by destructive torsion tests. Geometrical properties and apparent density of cortical bone were also measured. The significant differences were: the increases in elastic modulus (measured from the three-point bending stiffness) of group 5 (cyclic norethindrone) compared with those of group 2 (ovariectomized controls) and group 3 (estrogen only); the increases in the size represented by the moment of inertia, the moment of the area, and medial-lateral width of group 2 compared with those of group 5; and the increases in apparent density and decreases in moment of inertia of group 6 (interrupted norethindrone) compared with those of group 2. Cyclic or interrupted treatment of progestin along with continuous treatment of estrogen after ovariectomy likely improves material properties of cortical bone, increases its density, and reduces the size of the bone compared with ovariectomized rats.

Rationale for estrogen with interrupted progestin as a new low-dose hormonal replacement therapy

OBJECTIVE

This review outlines the basic principles of a novel interrupted progestin hormone replacement therapy (HRT) regimen in which estrogen is given continuously but the progestin is administered in a 3-days-on and 3-days-off schedule. The rationale for this regimen is to prevent receptor down-regulation and allow estrogen to increase estrogen and progestin sensitivity during the progestin-free periods.

METHODS

The reasons for poor patient acceptance of HRT are reviewed. The association of HRT with breast and endometrial cancer is discussed, as are the potential benefits of HRT on the skeleton and the cardiovascular system. Basic research studies in the rat are described that provide supporting evidence for the interrupted progestin regimen. Clinically, we review a pilot study examining symptom control, bleeding rates, and safety of the interrupted progestin regimen as well as preliminary results of the usefulness of this regimen for add-back therapy in GnRH agonist-treated patients.

RESULTS

Estrogen and progestin receptor measurements in the rat uterus demonstrate a clear up- and down-regulation in response to estrogen and interrupted progestin but not to the continuous administration of estrogen and progestin or estrogen alone. In addition, we found a significant beneficial effect of a low-dose interrupted HRT regimen on bone mineral content and density in an aged rat model of osteopenia, compared with continuous estrogen and progestin or estrogen alone. These results support the hypothesis that the interrupted progestin HRT increases tissue sensitivity to both estrogen and progestin. Clinical studies demonstrated good symptom control, low bleeding rates, endometrial protection, and excellent patient acceptance.

CONCLUSION

The combination of continuous estrogen with interrupted progestin appears to result in increased sensitivity to estrogen and progestin in estrogen-responsive tissues. As a result, lower doses of estrogen and progestin may be used for HRT with good biological effects. Further clinical studies, preferably in prospective randomized trials, are required to demonstrate reduced bleeding and improved patient acceptance of this new regimen compared to continuous combined HRT.

Sex differences in estrogen receptor and progestin receptor induction in the guinea pig hypothalamus and preoptic area

Quantitative in vitro autoradiography was used to determine if regional sex differences in estrogen receptor (ER) content and/or estrogen responsiveness, as indicated by an increase in progestin receptor (PR), are present in the adult guinea pig brain. Adult male and female guinea pigs were gonadectomized 1 week before subcutaneous injection of 25 micrograms estradiol benzoate (EB)/kg body wt or the sesame oil vehicle. Animals were killed by decapitation 44 h after injection. Unoccupied PRs, and unoccupied and occupied ERs, were measured in discrete brain regions by quantitative in vitro autoradiography using [3H]R5020 and [3H]estradiol as ligands, respectively. In vehicle-injected controls, a higher level of ER was found in the arcuate nucleus (ARC), dorsal medial nucleus (DMN) and ventrolateral nucleus (VLN) of females as compared to males. At 44 h after EB injection, 32-55% of the ERs were occupied; however, EB treatment caused a marked down-regulation of total receptor (calculated as occupied+ unoccupied receptor) in most of the brain regions examined, including the periventricular preoptic area (PVP), medial preoptic area (MPO), bed nucleus of the stria terminalis, paraventricular nucleus, ARC, ventrolateral hypothalamus (VLH), VLN, and DMN. In EB-treated animals, PR binding was detectable in the PVP, MPO, ARC, VLH, and VLN, with higher levels of binding observed in the PVP, MPO, and VLN of the female as compared to the male. No PR binding was observed in oil-injected control animals. These results demonstrate region-specific sex differences in ER as well as estrogen-induced regulation of progestin and ERs in the guinea pig brain. The discordance between the regional distributions of sex differences in ER and estrogen-induced PR implies that sex differences in ER and estrogen-induced PR implies that sex differences in estrogen response may not be clearly linked to a sex difference in receptor number. Instead, sex differences in response may involve differences in receptor number within specific subpopulations of estrogen target cells or may involve differences in ER dynamics.

Embryonic human leukocyte antigen-G expression: possible implications for human preimplantation development

OBJECTIVE

To investigate further the association between human leukocyte antigen G (HLA-G) expression in human embryos and other factors known to influence IVF pregnancy outcome.

SETTING

A university-based tertiary referral center (The Toronto Hospital).

INTERVENTIONS

Nontransferred embryos at the two- to four-cell stage were obtained from patients undergoing IVF and were cultured in Ham's F-10 medium supplemented with 10% human sera or cocultured with ovarian cancer cells in the same medium. Embryos that reached blastocyst stage (n = 148) were analyzed by reverse transcriptase-polymerase chain reaction for HLA-G and beta 2 microglobulin (beta 2m) expression. Statistical analysis was performed to identify possible factors associated with variability of expression.

RESULTS

Approximately 40% of studied blastocysts had detectable expression of both HLA-G and beta 2m messenger RNA. In 46% of blastocysts, beta 2m alone was observed. Interestingly, sibling embryos from patients that became pregnant were significantly more likely to express HLA-G than embryos from patients that did not conceive as a result of their IVF cycles. No association was found between HLA-G expression and culture conditions, patients age, or infertility diagnosis.

CONCLUSION

The population of embryos obtained through IVF is heterogeneous in expression of HLA-G and beta 2m, which may reflect overall health of the embryos. Blastocysts showing positive HLA-G expression may have increased viability and implantation potential, although the underlying mechanisms remain to be elucidated.

Sex differences in corticosteroid binding in the rat brain: an in vitro autoradiographic study

Several previous studies have raised the possibility of sex differences in the distribution of corticosteroid receptors in the brain. The direction and magnitude of these differences have, however, remained controversial. In the present study, we have re-examined the concentrations of mineralocorticoid (MR) and glucocorticoid (GR) receptors in the brains of male and female rats at varying times (1 to 6 days) after combined gonadectomy (GDX) and adrenalectomy (ADX). Cytosol binding assays confirmed the presence of higher MR levels in short-term (3-day) GDX-ADX males. This difference disappeared by 6 days after surgery, as receptor levels in females rose to be equivalent to those in males. Using an improved in vitro autoradiographic method, the distribution of MR and GR was studied in males and females 3 days after GDX-ADX. The distribution of MR and GR in the brains of these rats was similar in the two sexes. MR binding in the male, however, was significantly greater than that in the female throughout the principal cell fields of the hippocampus. Measurements of circulating corticosterone levels at the time of GDX-ADX suggest that this sex difference may reflect a more rapid recovery of the MR system in males than in females following the stress-induced rise in corticosterone secretion occurring at the time of surgery.

HLA-G expression during preimplantation human embryo development

HLA-G is a nonclassical class I major histocompatibility complex molecule with a restricted pattern of expression that includes the placental extravillus cytotrophoblast cells in direct contact with maternal tissues. Circumstantial evidence suggests that HLA-G may play a role in protection of the semiallogeneic human fetus. We examined whether HLA-G is expressed during the critical period of preimplantation human development and whether expression of this molecule could be correlated with the cleavage rate of embryos. Using reverse transcription PCR on surplus human embryos and unfertilized oocytes from patients undergoing in vitro fertilization we detected HLA-G heavy chain mRNA in 40% of 148 of blastocysts tested. The presence of HLA-G mRNA was also detected in unfertilized oocytes and in early embryos, but not in control cumulus oophorus cells. beta 2-Microglobulin mRNA was also found in those embryos expressing HLA-G. In concordance with our mRNA data, a similar proportion of embryos stained positive for HLA-G utilizing a specific monoclonal antibody. Interestingly, expression of HLA-G mRNA was associated with an increased cleavage rate, as compared to embryos lacking HLA-G transcript. Thus, HLA-G could be a functional homologue of the mouse Qa-2 antigen, which has been implicated in differences in the rate of preimplantation embryo development. To our knowledge, the presence of HLA-G mRNA and protein in human preimplantation embryos and oocytes has not been reported previously. The correlation of HLA-G mRNA expression with cleavage rate suggests that this molecule may play an important role in human pre-embryo development.

Regulation of estrogen receptor concentrations in the rat brain: effects of sustained androgen and estrogen exposure

To determine whether estrogen and androgens either alone or in combination downregulate estrogen receptors in the brain, ovariectomized/adrenalectomized female rats received one of the following four treatments: (1) one subcutaneously placed Silastic capsule containing 10% estradiol in cholesterol, (2) one capsule containing 10% estradiol and two capsules containing 100% 5 alpha-dihydrotestosterone (DHT), (3) two capsules containing DHT, or (4) empty Silastic capsules (control animals). Animals were killed 4 or 8 days after capsule insertion and the occupied, unoccupied and total estrogen receptor content in specific brain nuclei was determined by quantitative in vitro autoradiography. To determine if the effects of the androgen were reversible, DHT capsules were removed after 4 days from half of the estradiol+DHT-treated rats, and the animals were killed 4 days later. Estradiol downregulated estrogen receptor expression in the periventricular preoptic area, medial preoptic area, bed nucleus of the stria terminalis (BNST), arcuate nucleus (ARC), ventromedial nucleus (VMN), and medial and cortical amygdala, decreasing receptor content by 30-41% in animals treated for 4 days, and by 44-60% in animals treated for 8 days with estradiol alone. DHT treatment in combination with estradiol further decreased estrogen receptor content in the BNST, ARC and VMN, relative to the estradiol-only animals. DHT in the absence of estrogen was without effect. In animals in which the DHT capsules were removed after 4 days of exposure, allowing the estradiol to remain for a further 4 days, estrogen receptor levels were indistinguishable from those measured in control animals treated for 8 days with estradiol alone. These results demonstrate that sustained estrogen exposure downregulates levels of estrogen receptor in the brain and confirm that DHT synergizes with estrogen in inducing this response in some, but not all, target neuronal groups.

Hyaluronidase activity in human semen: correlation with fertilization in vitro

OBJECTIVES

To characterize the relationship between hyaluronidase activity and the currently used methods of assessing sperm function and to determine whether the measurement of hyaluronidase activity can provide a reliable index of sperm fertilizing capacity in man.

DESIGN

Nonrandomized prospective study.

SETTING

Tertiary referral IVF and andrology clinics affiliated with the University of Toronto.

SUBJECTS

Four hundred eight samples were collected, 248 from men undergoing investigation in andrology and fertility clinics and 160 from men participating in an IVF program.

INTERVENTIONS

Semen samples were treated with NP-40 in buffer to extract hyaluronidase and applied to a circular well cut into a petri dish containing a mixture of hyaluronic acid and agar. Enzyme activity was assessed by measuring the area of substrate hydrolysis.

RESULTS

Significant positive correlations were found between hyaluronidase activity and sperm concentration, motility, and the percentage of sperm with normal morphology in the studied samples. In the IVF samples, hyaluronidase activity was found to be related significantly to the fertilization rate. Moreover, we were able to establish values of hyaluronidase below which no fertilization occurred and above which fertilization of at least one oocyte was achieved.

CONCLUSION

These results suggest that measurement of hyaluronidase activity may provide a useful method for assessing the integrity of the acrosomal enzyme system, providing a simple and reliable predictor of the fertilizing potential of human sperm.

Immunocytochemical detection of androgen receptor in human temporal cortex characterization and application of polyclonal androgen receptor antibodies in frozen and paraffin-embedded tissues

Immunocytochemical and biochemical studies have demonstrated the presence of androgen receptor protein in various regions of the rodent and non-human primate cortex. Localization of androgen receptor in the human brain has, however, not been studied as extensively, because of difficulties in obtaining suitable tissue samples. In the present study, we have localized androgen receptors in both frozen and paraffin-embedded temporal cortex from epileptic patients undergoing resection. Polyclonal antibodies were raised against fusion proteins containing fragments of the human androgen receptor protein. The antibodies were affinity-purified against the corresponding fusion protein. Immunoprecipitation and Western blotting using extracts from human cell lines demonstrated the specificity of the antibodies for the human androgen receptor and lack of cross-reactivity with other steroid hormone receptors. Immunocytochemistry was performed on frozen and paraffin sections of human temporal cortex and in paraffin-embedded benign hyperplastic prostates (BPH), as well as prostate and breast carcinomas, by the streptavidin-biotin-peroxidase method. Antigen-retrieval was performed in paraffin-embedded sections using microwave irradiation. Specific nuclear and cytoplasmic immunoreactivity for androgen receptor was detected in neurons, astrocytes, oligodendrocytes, and microglia cells of the temporal cortex. In contrast, only nuclear staining was observed in BPH, prostate and breast carcinomas. Immunoprecipitation of human temporal cortex lysate and subsequent Western blot analysis demonstrated the expression of a 98 kDa immunoreactive protein, slightly smaller than the reported molecular weight of the wild-type androgen receptor. These results provide further evidence for the expression of androgen receptor in the human temporal cortex. The use of these immunocytochemical techniques should enable the retrospective determination of possible changes in androgen receptor expression in a variety of archival paraffin-embedded tissues, including samples of the human central nervous system.

Lumbar vertebral density and mechanical properties in aged ovariectomized rats treated with estrogen and norethindrone or norgestimate

OBJECTIVE

This study was designed to investigate the effects of estrogen alone or combined with two different progestins, norethindrone or norgestimate, on bone density and compressive mechanical properties in an aged rat model.

STUDY DESIGN

Twenty 11-month-old female Sprague-Dawley rats were sham operated (intact control) and 80 wee ovariectomized. Three groups of 20 ovariectomized rats were implanted with Silastic silicon rubber (Dow Corning, Midland, Mich.) capsules containing 5% estradiol (wt/wt) in cholesterol. All rats in the intact control (group 1) and the ovariectomized (group 2) and the first of the ovariectomized plus estrogen (group 3) groups were injected subcutaneously daily for 6 months with corn oil (vehicle). Two other groups of rats with estrogen capsules received daily injections of norethindrone (3 micrograms/rat/day) or norgestimate (1.5 micrograms/rat/day) in corn oil for 3 days out of every 6 days (interrupted progestin). The effects of these various treatments on bone mineral content and bone mineral density in the vertebrae were measured by dual energy x-ray absorptiometry. The L4 vertebral bodies were also tested to failure in compression.

RESULTS

The ovariectomized rats receiving corn oil alone had the lowest bone mineral density compared with intact controls. Estrogen treatment alone resulted in a lower bone mineral density than in the intact controls. In contrast, both interrupted progestin regimens resulted in vertebral bone mass index at the same level as the intact controls. Compression tests revealed that ovariectomized controls also had the lowest modulus of elasticity of all groups. However, unlike bone mineral density, estrogen alone resulted in mechanical properties similar to intact controls, whereas the vertebrae in both interrupted progestin groups had variable mechanical properties compared with the ovariectomized and intact control groups.

CONCLUSIONS

We conclude that in this experimental model hormone replacement therapy with estrogen and an androgenic (norethindrone) or nonadrogenic (norgestimate) progestin result in similar bone mineral density and mechanical properties. In addition, both interrupted progestin regimens had a better effect than estrogen alone on vertebral bone density.

In vitro labeling of gonadal steroid hormone receptors in brain tissue sections

Autoradiographic methods have been developed for measurement of gonadal steroid receptors in situ in brain tissue sections. Based on principles established previously for estrogen receptors in the rat brain using a 125I-labeled ligand, procedures have been developed for in vitro labeling of estrogen, androgen, and progestin receptors with commercially available tritiated ligands. Addition of protamine sulfate to the incubation buffer precipitates the receptors in situ in the tissue sections, allowing them to be detected autoradiographically after incubation with labeled steroid and subsequent washing to remove unbound and nonspecifically bound ligand. Occupied and unoccupied estrogen receptors can be measured selectively using appropriately modified incubation conditions. In the case of androgen and progestin receptors, unoccupied receptors are readily detected by in vitro labeling of tissue sections, but occupied receptors do not appear to label efficiently. Preliminary data suggest that these methods should be equally applicable to a variety of laboratory animals, including the rat, mouse, guinea pig, and monkey.

Sexual differentiation of estrogen receptor concentrations in the rat brain: effects of neonatal testosterone exposure

This study tests the hypothesis that sex differences in estrogen receptor (ER) expression in the rat hypothalamus and preoptic area may at least partly result from androgen exposure during the immediate postnatal period. Male rats were castrated and female rats were injected with androgen, at either 15-30 min, 24 h or 10 days after birth. ER distribution in the brain was evaluated by in vitro autoradiography at 28 days of age. Males castrated immediately after birth exhibited higher ER levels in the preoptic area and the ventromedial and arcuate nuclei of the hypothalamus than either control males or males castrated on day 10. Females injected at birth with testosterone propionate exhibited reduced ER binding in the same brain regions. These data suggest that postnatal androgen secretion prior to postnatal day 10 permanently alters patterns of ER expression in the brain.

The effect of three hormone replacement regimens on bone density in the aged ovariectomized rat

OBJECTIVE

To investigate the effects of estrogen (E) alone or with cyclic, continuous, or interrupted P regimens on bone density in an aged rat model.

DESIGN

Randomized controlled trial.

ANIMALS

Twenty 12-month-old female Sprague-Dawley rats were sham operated (intact control) and 100 were ovariectomized (OVX).

INTERVENTION

Four groups of 20 OVX rats were implanted with silastic capsules containing 5% E2 (wt/wt) in cholesterol. All rats in the intact control (group 1), OVX (group 2), and the first of the OVX plus E groups (group 3) were injected subcutaneously daily for 6 months with corn oil (vehicle). Three other groups of rats with E capsules received daily injections of norethindrone in corn oil, according to the following dosage schedules: 6 micrograms norethindrone/rat per day for 2 of every 4 weeks (cyclic; group 4); 3 micrograms norethindrone/rat per day every day (continuous; group 5); or 3 micrograms norethindrone/rat per day for 3 of every 6 days (interrupted; group 6).

MAIN OUTCOME MEASURES

Bone mineral content (BMC) and bone mineral density (BMD) in the femur and vertebrae were measured by dual-energy roentgenogram absorptiometry.

RESULTS

The OVX rats (group 2) receiving corn oil alone had the lowest BMD. Intact controls (group 1), E plus cyclic P (group 4), and E and interrupted P (group 6) were all similar and had significantly greater bone density in the vertebrae than the OVX controls. In contrast, vertebral BMD with E alone (group 3) and continuous E and P (group 5) was not significantly different from the OVX group. Femur BMD was significantly lower in the OVX group compared with the other five groups, which did not differ significantly from each other.

CONCLUSION

In this experimental model, compared with OVX controls, combined hormone replacement therapy with E and cyclic or interrupted P resulted in the best vertebral BMD whereas continuous E and P resulted in the worst BMD. In the femurs, E alone and E plus P had equal effects on BMD.

Localization and measurement of occupied androgen receptors in thaw-mounted rat and human prostate tissue sections by in vitro autoradiography

In this paper we present an in vitro exchange binding assay procedure for measurement of androgen receptors in slide-mounted tissue sections. This method allows quantitative autoradiographic determinations with an anatomical resolution approaching the cellular level. Tissue sections are incubated with the synthetic androgen [3H]R1881 in the presence of triamcinolone acetonide to suppress possible binding of the radioligand to the progestin receptor. Adjacent tissue sections are incubated with [3H]R1881 in the presence of excess unlabeled 5 alpha- dihydrotestosterone or R1881 to assess nonspecific binding. Following incubation, the tissue sections are washed to remove unbound radioligand and either scraped for immediate determination of androgen receptor binding or placed against emulsion-coated film for the production of an autoradiographic image. In validation experiments with rat prostate sections from castrated, gonad-intact, and androgen-supplemented animals, maximum levels of androgen binding were observed with incubation at 4 degrees C or 72 h. Markedly less binding was detected with shorter incubations or with incubations at even slightly elevated temperatures. Very little androgen receptor binding was detected in castrated animals whereas receptor levels in intact and androgen-supplemented animals were 79.3 fmol/mg and 143.6 fmol/mg protein, respectively, suggesting that the method is selective for occupied receptors. Saturation binding analysis revealed binding to a single class binding site with high affinity (kd = 1.475 +/- 0.12 nM). Autoradiographic images of androgen binding in the prostate reflected the findings with the scraped sections: essentially no specific binding was present in sections from castrated animals whereas much heavier labeling was present in sections from intact animals.(ABSTRACT TRUNCATED AT 250 WORDS)

The effect of different hormone replacement therapy regimens on the mechanical properties of rat vertebrae

The purpose of this study was to examine the effects of estrogen replacement, in concert with three different progestin regimens, on the mechanical properties of rat lumbar vertebrae. Ninety-two Sprague-Dawley rats (11 months old) were divided into six groups for treatment. The first group was an intact control, the second group (OVX) was ovariectomized only, and the third group (estrogen-only) was ovariectomized and received continuous estrogen through a 17 beta-estradiol implant. The remaining groups were ovariectomized and received estrogen and progestin (norethindrone, NET) therapy; 3 micrograms of NET was injected daily (estrogen plus continuous NET), or 6 micrograms of NET was injected for 14 consecutive days of a 28-day cycle (estrogen plus cyclic NET), or for 3 consecutive days of a 6-day cycle (estrogen plus interrupted NET). The animals were sacrificed after 6 months, and the vertebrae were dissected out. The vertebral processes of the fourth lumbar vertebrae were removed, and the density of the vertebral bodies was determined. They were then subjected to compression testing. We found that all three estrogen/progestin regimens maintain bone density and all mechanical properties at a level indistinguishable from the control. However, the cyclic and continuous NET treatment results were, with the exception of density, also indistinguishable from those of the ovariectomized group. The estrogen plus interrupted NET group on the other hand, has a significantly greater compressive modulus and density than the ovariectomized group. In conclusion, with respect to the ovariectomized group, the estrogen plus interrupted NET treatment resulted in a superior density and compressive modulus.(ABSTRACT TRUNCATED AT 250 WORDS)

Distribution of occupied and unoccupied estrogen receptors in the rat brain: effects of physiological gonadal steroid exposure

In vitro autoradiographic methods have been developed for selective measurement of occupied and unoccupied estrogen receptors (ERs) in brain tissue sections. Addition of protamine sulfate traps unoccupied ERs in the tissue sections, allowing them to be detected after a short period of incubation with labeled estrogen. Occupied ERs are assessed, after washing in buffer without protamine to eliminate unoccupied receptor, by incubating the sections for 2 h at 37 C to exchange isotopically labeled steroid for the endogenous unlabeled ligand. Total ER binding capacity is estimated by summing the values for occupied and unoccupied ER. In all brain regions of normal females, ER occupation is low at estrus, reflecting the very low levels of circulating estradiol present at this stage of the estrous cycle, rising to approximately 50% of binding capacity at proestrus. By contrast, in intact males ER occupation varies considerably between brain regions, from a high of 55% of binding capacity in the bed nucleus of the stria terminalis to a low of 21% in the hypothalamic arcuate nucleus. Gonadectomy or treatment of intact males with the aromatase inhibitor 4-hydroxy androstenedione greatly reduces or eliminates ER occupation, depending on the brain region. In both sexes, changes in levels of endogenous gonadal steroids have little effect on total (occupied plus unoccupied) ER concentrations, with the exception of the hypothalamic ventromedial nucleus of the female, in which total ER concentration declines at estrus. These results are consistent with the hypothesis that local aromatization may be the primary determinant of regional ER occupation in the brain of the male rat, in contrast to the female, in which high levels of ER occupation are found only during the preovulatory estrogen surge. Although physiological changes in circulating estradiol and aromatizable androgen concentrations induce large changes in ER occupation, they have little effect on total ER content in most regions of the brain, suggesting that previous reports of changes in ER messenger RNA levels under different conditions of gonadal steroid exposure may not be directly reflected in steady state levels of the cognate receptor site.

Aromatase in the cerebral cortex, hippocampus, and mid-brain: ontogeny and developmental implications

Aromatase activity was measured in explant cultures from the newborn mouse and rat brain and in homogenates of regions of the rat brain sampled between birth and 51 days of age. Conversion of 19-[3H]hydroxy-androstenedione to estradiol and estrone was detected in explant cultures from the mouse preoptic/septal region, anterior cingulate cortex, and midbrain, as well as from the rat preoptic area, septum, hippocampus, anterior cingulate cortex, and midbrain central grey. No detectable estrogen biosynthesis was observed in explants from the cerebellum and spinal cord of either species. Measurements of aromatase in tissue homogenates using 1 beta[3H]androstenedione as substrate revealed detectable enzyme activity in the hypothalamus + preoptic area, amygdala, hippocampus, anterior cingulate cortex, and midbrain, from birth onward. Aromatase activity per milligram of tissue protein was highest in the hypothalamus-preoptic area and amygdala, followed by the hippocampus, midbrain, and cingulate cortex. In all brain regions, aromatase activity was markedly higher at Postnatal Days 1 and 7 than later in life. In both the cingulate cortex and the hippocampus, aromatase was barely detectable above the assay blank in adult (51 day) animals. These results demonstrate that regions of the developing rodent neo- and archicortex have the capacity to convert androgen to estrogen, consistent with a role for local estrogen biosynthesis in the sexual differentiation of higher brain functions.

Sex differences in the development of estrogen receptors in the rat brain

The mechanisms involved in sexual differentiation of the brain remain incompletely defined. In mammals, testosterone secretion by the male during early development permanently alters the capacity of the brain to respond to circulating estrogen. In rats, this change in estrogen responsiveness is associated with a reduction in estrogen receptor (ER) levels in the periventricular region of the preoptic area (PVP), the medial preoptic nucleus (MPO), and the hypothalamic ventromedial nucleus (VMN) of the male. To determine whether these differences represent a response to early testosterone exposure or a secondary consequence of gonadal secretions at puberty, ER levels were measured by quantitative in vitro autoradiography in the brains of rats killed at intervals between 1-10 and 28-49 days of age. As early as 24 hr after birth, ER sex differences in the MPO and PVP are already quantitatively similar to those observed in adulthood. A sex difference in the VMN emerges later, between 5 and 10 days of age. Differences between brain regions are also observed in the rate of ER development after the first week of life, ER concentrations in the PVP and MPO being close to adult levels within 1 day of birth, in contrast to the VMN where they increase markedly between Day 10 and adulthood in both sexes. These observations suggest that changes in ER concentrations may be one of the earliest hallmarks of brain sexual differentiation. Sex differences in ER in different brain regions may, however, be expressed asynchronously, providing a possible mechanism for variation in the duration of "critical periods" for testosterone-mediated organization of specific CNS functions.

Dexamethasone partially protects the myometrium against beta-adrenergic agonist-induced desensitization in vivo in the rat

OBJECTIVE

Our purpose was to determine the ability of dexamethasone to prevent the onset of myometrial desensitization to beta-adrenergic agonists in vivo.

STUDY DESIGN

On day 5 post partum chronically catheterized rats were randomized to receive either dexamethasone or corn oil (vehicle), followed 12 hours later by a continuous infusion of either isoproterenol or saline solution (vehicle). Uterine contractions were monitored throughout. We measured myometrial glucocorticoid receptor levels in chronically catheterized and sham-operated rats and beta 2-adrenergic receptor densities in the experimental rats before and during the infusions.

RESULTS

Surgery did not lead to any decrease in glucocorticoid receptor number. Dexamethasone significantly increased the duration of myometrial responsiveness to isoproterenol compared with vehicle-pretreated rats, although agonist-induced down-regulation of beta-adrenergic receptor number was not prevented.

CONCLUSION

Dexamethasone partially protects the rat myometrium from desensitization induced by the continuous infusion of beta-adrenergic agonists through mechanisms independent of the beta 2-receptor.

Androgen treatment decreases estrogen receptor binding in the ventromedial nucleus of the rat brain: a quantitative in vitro autoradiographic analysis

Androgens oppose the actions of estrogen on a number of neuroendocrine functions in the rat including prolactin and gonadotropin secretion and the activation of the female pattern of sex behavior. Although in nonneural tissues antiestrogenic actions of androgens have been related to actions at the level of the estrogen receptor, previous attempts to demonstrate effects of nonaromatizable androgens on estrogen receptor levels in the brain have been unsuccessful, possibly because of the poor anatomical resolution of the methods used. We have used a new in vitro autoradiographic assay combined with an 125I-labeled estrogen receptor ligand to test the hypothesis that the nonaromatizable androgen, 5 alpha-dihydrotestosterone (5 alpha-DHT), may act to reduce estrogen binding in specific regions of the brain involved in reproductive neuroendocrine and behavioral responses. This in vitro autoradiographic method allows selective measurement of occupied estrogen receptors in tissue sections. Gonadectomized/adrenalectomized rats were divided into two groups per sex. All animals received daily injections of estradiol benzoate (EB: 40 micrograms/kg body wt) for 4 days. Animals in the 5 alpha-DHT treatment group received 5 alpha-DHT (10 mg/kg body wt) every 12 h for 4 days, while animals in the control group received vehicle injections. Animals were killed 4 h after the final EB/5 alpha-DHT injection and their brains processed for in vitro autoradiography. As previously reported, higher levels of estrogen binding were observed in the ventrolateral aspect of the ventromedial nucleus (vIVMN) and the periventricular and medial preoptic area of the female compared to the male.(ABSTRACT TRUNCATED AT 250 WORDS)

Pubertal development of estrogen receptors in the rat brain

The regional distribution of estrogen receptors (ER) was studied in the brain of the female rat over the peripubertal period. Increases were observed in nuclear ER occupation as well as cytosolic progestin receptor induction in the period leading up to the time of vaginal opening, consistent with an increased availability of estrogen to the brain. ER binding capacity, however, was remarkably similar in pre- and postpubertal rats. Using a microdissection-based nuclear ER assay, small increases in the total ER content of the hypothalamic ventromedial and arcuate nuclei were observed in the female at around the time of the onset of reproductive cyclicity. In vivo autoradiographic studies confirmed the existence of a small increase in estrogen binding in these two brain regions at around the time of vaginal opening, as well as transient increases in estrogen retention within the preoptic area and bed nucleus of the stria terminalis. These changes in estrogen binding in the brain may play a role in pubertal alterations in the feedback sensitivity of the brain to circulating estrogen.

Partial demasculinization and feminization of sex behavior in male rats by in utero and lactational exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin is not associated with alterations in estrogen receptor binding or volumes of sexually differentiated brain nuclei

In utero and lactational 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) exposure partially demasculinizes and feminizes sexual behavior in adult male rats, presumably by causing incomplete sexual differentiation of the central nervous system (CNS). Our objective was to determine if TCDD exposure affects other aspects of sexual differentiation of the CNS. Because sex differences in the estrogen receptor system are thought to play a role in sexually dimorphic estrogen-mediated responses, and because estrogen is an important activator of both male and female sex behavior, the possible effect of TCDD exposure on estrogen binding in specific brain nuclei was examined. In addition, we investigated effects of in utero and lactational TCDD exposure on sex differences in the volumes of brain nuclei which are dependent on steroid hormone stimulation during the period of CNS sexual differentiation. Pregnant Holtzman rats were given TCDD (0.7 microgram/kg, po) or vehicle (control) on gestation Day 15. Offspring were exposed to TCDD in utero and via lactation and then assessed in adulthood. Demasculinized sexual behavior was evidenced in the TCDD-exposed males by increased intromission latencies and a greater number of intromissions prior to ejaculation. These males were then castrated, primed with ovarian steroids, and tested for feminine sexual behavior. In utero and lactational TCDD exposure increased both the frequency and intensity of lordotic behavior, indicating that the males were partially feminized. To determine if TCDD exposure had a generalized effect on estrogen receptor concentrations the arcuate nucleus, cortical and medical amygdala and the bed nucleus of the stria terminalis, previously found to have equivalent numbers of estrogen receptors in males and females, were evaluated in littermates of the rats whose sexual behavior had been assessed. TCDD had no effect in either sex. To determine if TCDD exposure had an effect specific to sexual differentiation of the brain, estrogen receptor concentrations in the medial preoptic nucleus (MPO), ventrolateral aspect of the ventro-medial nucleus, and periventricular preoptic area were assessed. As expected, females had higher estrogen receptor concentrations in these nuclei than did males, but TCDD exposure did not affect estrogen receptor concentrations in any of these sexually dimorphic brain nuclei. The volumes of sexually dimorphic brain nuclei were examined in additional littermates. In control rats, the volume of the sexually dimorphic nucleus of the preoptic area (SDN-POA) is larger in males than in females whereas the MPO is larger in females than in males. TCDD exposure had no effect on the volume of either the SDN-POA or MPO in either males or females.(ABSTRACT TRUNCATED AT 400 WORDS)

Ontogenesis of prostaglandin E2 binding sites in the brainstem of the sheep

Perinatal changes in plasma prostaglandin E2 (PGE2) act at the level of the fetal brainstem to modulate respiratory activity. In-vitro receptor autoradiography was used to determine whether PGE2 binding sites (putative receptors) are located in brainstem regions responsible for respiratory control. Frozen brainstem sections were obtained from fetal sheep at 140 d of gestation, lambs at 5 h and 10 d after birth, and adults (n = 3 at each age). In the perinatal brainstem, high density binding was localized near the following nuclei: hypoglossal, tractus solitarius, parabrachial and spinal trigeminal-oral. Moderate levels of binding were localized near the nuclei of the spinal trigeminal tract, ambiguus, inferior olivary, cuneate, gracilis, facial, medial vestibular, superior vestibular, and abducens. Binding density did not change with age within the perinatal period. However, binding in three high density regions (hypoglossal, spinal trigeminal and parabrachial nuclei) decreased significantly in adulthood, whereas the binding in the nucleus of the solitary tract remained high. We hypothesize that the PGE2 binding sites that we identified near respiratory regions of the brainstem may mediate the central respiratory effects of PGE2.

Progesterone modulation of estrogen receptors in microdissected regions of the rat hypothalamus

One mechanism whereby progesterone opposes the regulatory actions of estrogen in the brain may include the down-regulation of estrogen receptors. A previous study has shown a small decrease in estrogen binding in the combined preoptic area-hypothalamic area in response to progesterone treatment. To determine if this effect is region specific, gonadectomized/adrenalectomized (GDX/ADX) estrogen-treated female rats were administered a single injection of progesterone (5.0 mg, sc) or a silastic capsule containing crystalline progesterone. Control animals were treated identically but without progesterone exposure. Animals were killed 24 or 72 h after initiating progesterone treatment and estrogen binding was measured in cytosol and cell nuclear extracts of the anterior pituitary, mediobasal hypothalamus (MBH), and preoptic area. A significant effect of progesterone injection on nuclear estrogen binding was observed in the MBH at 24 h. This effect had subsided by 72 h. No effect was observed when progesterone was administered in a continuous fashion. To further examine the regional specificity of the progesterone effect and to determine if males were similarly affected, nuclear-bound estrogen receptors were measured in microdissected brain regions from male and female estrogen-treated GDX/ADX rats treated with 5.0 mg progesterone or vehicle 24 h before sacrifice. A significant decrease in estrogen binding was found in the ventromedial nucleus of the female but not the male. A significant effect of progesterone treatment was found in the periventricular preoptic area of the male.(ABSTRACT TRUNCATED AT 250 WORDS)

In vitro autoradiographic visualization of occupied estrogen receptors in the rat brain with an iodinated estrogen ligand

Methods have been developed for the selective measurement of occupied estrogen receptors (ER) in brain tissue sections. Cryostat sections of unfixed tissue were incubated with radiolabeled estrogen at physiological temperatures, displacing endogenous receptor-bound estrogen by radioligand and thereby allowing the receptor complexes to be visualized autoradiographically after washing to remove nonspecifically bound steroid. The resultant autoradiographs were analyzed by computer-assisted densitometry. Synthetic 11 beta-methoxy-substituted radiolabeled estrogens gave the best autoradiographic images, as a result of reduced nonspecific labeling, although [3H]-estradiol was also used successfully. With the synthetic ER ligand 11 beta-methoxy 16 alpha-[125I]-iodo-estradiol, exposure times of less than 24 hr generated acceptable autoradiographs; with 3H-labeled estrogens, exposures of 3 months or more may be required. The method is sufficiently sensitive to detect physiological changes in ER occupation and to allow determination of receptor affinities and saturation binding capacities in discrete cell groups identified in sections from individual animals.

Neural aromatase activity in a marsupial, the gray short-tailed opossum (Monodelphis domestica): ontogeny during postnatal development and androgen regulation in adulthood

Neural aromatase activity (AA) was measured in gray short-tailed opossums (Monodelphis domestica) on the day of birth and at selected ages through adulthood. In adulthood, regulation by testicular androgens was examined. In mixed-sex samples of whole brain, AA was present at birth and increased until postnatal day (PD) 16. In hypothalamus-preoptic area (HPOA), significantly higher levels of AA were seen in animals on PD 16 than on PD 30 and PD 30 animals had higher levels of AA than all older ages including adults. Significant sex differences in HPOA AA with male levels higher, were seen only on PD 16 and in adulthood. While lower overall than in HPOA, AA was present also in cerebral cortex (CX). In CX, AA was higher on PDs 16 and 30 than at older ages. Significant sex differences in CX AA were observed only in adulthood. One week following castration in adulthood, AA dropped significantly in CX but not in HPOA. These findings are compared with those obtained from other marsupial and eutherian mammals with reference to the possible significance of AA in sexual differentiation of the gray opossum brain.

Dexamethasone reverses the labor-associated myometrial desensitization to beta-adrenergic agonists in the rat

OBJECTIVES

The purpose of our study was to determine the susceptibility of the myometrium to beta-adrenergic agonist-induced desensitization and to determine the ability of dexamethasone to prevent this homologous desensitization.

STUDY DESIGN

Myometrial tissue was collected from nonpregnant, pregnant, and postpartum rats (n > or = 6) 12 hours after injection of either dexamethasone (0.25 mg subcutaneously) or vehicle (corn oil). The ability of isoproterenol to induce and maintain inhibition of contractile activity was determined in vitro. In addition, the density and affinity of beta-adrenergic receptors was estimated by ligand binding and Scatchard analysis.

RESULTS

Dexamethasone significantly increased both the duration of myometrial responsiveness to isoproterenol and the beta-adrenergic receptor number at parturition, but not at other time points. Regardless of pretreatment, the susceptibility of the myometrium to beta-agonist-induced desensitization was greatest around the time of delivery.

CONCLUSIONS

In the rat, beta-adrenergic agonists are least effective in maintaining myometrial inhibition peripartum, although their effectiveness at this time only can be increased by dexamethasone.

Characterization of the first cell cycle in human zygotes: implications for cryopreservation

OBJECTIVE

To study the temporal pattern of deoxyribonucleic acid (DNA) synthesis leading up to the first mitotic division in human one-cell stage zygotes.

SETTING

In vitro fertilization program of a university hospital.

PATIENTS

Couples donating spare embryos before the existence of an embryo freezing program.

DESIGN

Incorporation of 3H-thymidine was examined between 9 to 27 hours after insemination in 72 untransferred human zygotes containing two pronuclei. Microscopic observations on an additional 978 transferred zygotes extended the 3H-thymidine incorporation data.

RESULTS

The first thymidine incorporation was seen 9 to 10 hours after insemination, and the heaviest incorporation occurred between 11 and 13 hours. Subsequently, thymidine labeling declined, and chromosomal condensation and cell division first occurred approximately 19 to 20 hours. At 20 hours after insemination, 89% of the zygotes had two visible pronuclei (PN). In contrast, by 24 hours, 41% had no visible PN, whereas 5% had cleaved to the two-cell stage. By 27 hours, 38% had cleaved to the two-cell stage, and only 25% still had two visible PN.

CONCLUSIONS

These results suggest that the DNA-synthetic, S-phase of the human zygote is initiated by approximately 9 to 10 hours after insemination and is completed approximately 3 to 5 hours later. The duration of G2 phase and mitosis is in the range of 4 to 6 and 3 to 3.5 hours, respectively. Because zygotes may be particularly susceptible to damage during the S phase of the cell cycle, these findings suggest that the optimal time for freezing of human zygotes may be approximately 20 to 22 hours after insemination when the majority of zygotes should have entered the G2 phase, before pronuclear dissolution and chromosome condensation.

7 alpha-Methyl-17 alpha-(E-2'-[125I]iodovinyl)-19-nortestosterone: a new radioligand for the detection of androgen receptor

We have synthesized two gamma-emitting, 125I-labeled steroids, E- and Z-7 alpha-methyl-17 alpha-(2'-[125I]iodovinyl)-19-nortestosterone [125I](E- and Z-MIVNT) for specific labeling of androgen receptors. [125I]E- and [125I]Z-MIVNT were synthesized stereospecifically from E- and Z-7 alpha-methyl-17 alpha-(2'-tri-n-butylstannyl-vinyl)-19-nortestosterone. The tin adducts were prepared by addition of tri-n-butyltin hydride to 7 alpha-methyl-17 alpha-ethynyl-19-nortestosterone, and after purification they were converted in high yield to the [125I]MIVNT isomers by reaction with 125I (generated in situ by oxidation of [125I]iodide with chloramine T). The 125I-labeled products were purified by high-performance liquid chromatography, and their mass determined with an ultraviolet detector (specific activity of both, approximately 2,200 Ci/mmol). In rat prostate cytosol, [125I]E-MIVNT bound with high affinity to a single class of binding sites. Nonspecific binding in the presence of 5 alpha-dihydrotestosterone was relatively low, and compared favorably with that obtained in parallel studies with [3H]methyltrienolone (R1881). The E-isomer bound prostate cytosol with at least twice the affinity of the Z-isomer; therefore, the interaction of the E-isomer with the androgen receptor as well as other steroid receptors was studied in greater detail. Complexes of the androgen receptor with [125I]E-MIVNT as well as [3H]R1881 dissociate very slowly at 4C (kdiss for both = 0.04 h-1). Displacement studies showed that the interaction of [125I]E-MIVNT with the androgen receptor is highly specific. Competition studies showed that unlabeled E-MIVNT binds poorly to other steroid receptors in rat tissue cytosols. These binding properties make [125I]E-MIVNT a promising ligand for study of the androgen receptor, and [123I]E-MIVNT a potential imaging agent for the detection of androgen-dependent tumors, such as prostate cancer.

Transmitter content and afferent connections of estrogen-sensitive progestin receptor-containing neurons in the primate hypothalamus

Progestin receptor-containing cells in the hypothalamus of the adult female green monkey (Cercopithecus aethiops) were examined by double-label immunocytochemical methods to determine their anatomical location, neurotransmitter content and afferent connections. Animals were ovariectomized and administered either estradiol valerate or the oil injection vehicle, and were sacrificed after 10 days of treatment. Using a monoclonal antibody raised against rabbit uterine progestin receptor (PR), the distribution of PR-immunoreactive cells in the mediobasal hypothalamus and the effect of estrogen treatment on this distribution was determined. PR-immunoreactive cells were found throughout the ventromedial nucleus (VMN), in the area between the VMN and fornix, and in the medial portion of the infundibular nucleus. Estrogen treatment dramatically increased both the number of labeled cells and the intensity of immunoreaction product in these regions. In double-immunostained sections, boutons immunoreactive for antigens indicative of serotonin, pro-opiomelanocortin derived peptides, GABA, catecholamine, neuropeptide Y, substance P, cholecystokinin, and somatostatin were demonstrated to establish synaptic contact with the soma of PR-immunoreactive hypothalamic neurons. In colchicine-pretreated animals, all PR-containing neurons in the mediobasal hypothalamus were found to contain immunoreactivity for glutamic acid decarboxylase, the enzyme required for synthesis of GABA. No evidence of colocalization with other antigens, including LHRH, was observed. Because LHRH neurons are known to receive a rich GABAergic innervation PR-containing GABAergic cells may represent steroid-sensitive sites of integration for inputs from other neural systems involved in the control of gonadotropin secretion.

Estrogen receptors colocalize with low-affinity nerve growth factor receptors in cholinergic neurons of the basal forebrain

The rodent and primate basal forebrain is a target of a family of endogenous peptide signaling molecules, the neurotrophins--nerve growth factor, brain-derived neurotrophic factor, and neurotrophin 3--and of the gonadal steroid hormone estrogen, both of which have been implicated in cholinergic function. To investigate whether or not these ligands may act on the same neurons in the developing and adult rodent basal forebrain, we combined autoradiography with 125I-labeled estrogen and either nonisotopic in situ hybridization histochemistry or immunohistochemistry. We now report colocalization of intranuclear estrogen binding sites with the mRNA and immunoreactive protein for the low-affinity nerve growth factor receptor, which binds all three neurotrophins, and for the cholinergic marker enzyme choline acetyltransferase (acetyl-CoA:choline O-acetyltransferase, EC 2.3.1.6). Colocalization of estrogen and low-affinity nerve growth factor receptors implies that their ligands may act on the same neuron, perhaps synergistically, to regulate the expression of specific genes or gene networks that may influence neuronal survival, differentiation, regeneration, and plasticity. That cholinergic neurons in brain regions subserving cognitive functions may be regulated not only by the neurotrophins but also by estrogen may have considerable relevance for the development and maintenance of neural substrates of cognition. If estrogen-neurotrophin interactions are important for survival of target neurons, then clinical conditions associated with estrogen deficiency could contribute to the atrophy or death of these neurons. These findings have implications for the subsequent decline in those differentiated neural functions associated with aging and Alzheimer disease.

Cellular variations in estrogen receptor mRNA translation in the developing brain: evidence from combined [125I]estrogen autoradiography and non-isotopic in situ hybridization histochemistry

The spatial distribution of cells in the adult rodent forebrain which express estrogen receptor mRNA, as shown by in situ hybridization histochemistry with isotopically-labeled probes, has been reported to overlap with regions that are known targets of estrogen and which bind estrogen. The extent to which detection of estrogen receptor mRNA within developing forebrain neurons of the postnatal day 10-12 female rat is accompanied by translation into estrogen binding sites was investigated by combining [125I]estrogen autoradiography with non-isotopic (digoxigenin) in situ hybridization, using a 48-base oligodeoxyribonucleotide probe encoding a sequence of the estrogen-binding domain of rat uterine estrogen receptor cDNA. Estrogen receptor mRNA and estrogen binding sites appeared to be restricted to neurons. No mRNA or binding was seen in ependymal cells. Cells expressing estrogen receptor mRNA were widely distributed in the developing rat forebrain and were found in brain regions generally corresponding to those previously shown in the adult, with the addition of some regions not previously described, such as the medial habenula and dorsal endopiriform nucleus. Although there was widespread overlapping of estrogen receptor mRNA expression with known estrogen binding sites, there were regional and cellular variations in the extent of receptor mRNA translation. This pattern was true for developing forebrain regions previously defined as estrogen receptor-containing (hypothalamus, preoptic area, medial and lateral septum, vertical and horizontal nuclei of the diagonal band, cerebral cortex, hippocampus and amygdala) as well as for regions heretofore not considered estrogen targets (the thalamus, dorsal endopiriform nucleus, claustrum, ventral pallidum/substantia innominata and the basal nucleus of Meynert) or characterized as estrogen-responsive in the adult without previously documented estrogen binding [caudate-putamen (striatum)]. While estrogen binding and receptor mRNA expression always co-localized, neurons expressing estrogen receptor mRNA did not always exhibit ligand binding and there was no clear-cut relationship between the intensity of the hybridization signal and estrogen binding. Little, however, is known about translational control of estrogen receptor expression in the brain. Localization of estrogen binding sites to regions not generally considered targets of estrogen would appear to reflect the greater sensitivity of the iodinated ligand than the tritiated estrogens more commonly used for autoradiography. Non-isotopic in situ hybridization histochemistry combined with [125I]estrogen autoradiography represents a very powerful tool with which to study regulation of estrogen receptor gene expression at the single cell level with an exceptional degree of cellular and anatomical resolution.(ABSTRACT TRUNCATED AT 400 WORDS)

Estrogen receptor binding in regions of the rat hypothalamus and preoptic area after inhibition of dopamine-beta-hydroxylase

Previous studies have shown that administration of diethyldithiocarbamate (DDC), a dopamine-beta-hydroxylase inhibitor, results in a decreased concentration of estrogen receptors measured in the rodent hypothalamus and preoptic area. To determine if this modulation of receptor content is region-specific, in vitro estrogen binding assays were performed on cytosol and cell nuclear extracts of microdissected brain regions from female rats treated with DDC. For cytosol binding comparisons, ovariectomized (OVX) rats were treated with 550 mg DDC/kg b. wt. or the saline vehicle 12 h before sacrifice. For cell nuclear binding comparisons, OVX rats received a maximal dose of estradiol 12 h after DDC or saline treatment and 1 h before sacrifice. No region-specific decreases in estrogen binding were observed in either cytosol or nuclear extracts. To further examine possible regional specificity, quantitative autoradiographic analysis of the in vivo hypothalamic uptake of an iodinated analog of estradiol, 11 beta-methoxy-16 alpha-[125I]iodoestradiol (MIE2), in OVX rats treated with DDC was conducted. Animals received a saturating dose of [125I]MIE2 12 h after DDC or saline treatment and 1 h before sacrifice. DDC treatment resulted in higher background levels of radioactivity and a trend toward higher uptake levels in all brain regions, but with no evidence of marked regional specific effects in any area of the brain. In tissue uptake studies, DDC treatment resulted in higher levels of radioactivity recovered from serum and neural tissues of [125I]MIE2-injected rats, suggesting that DDC slows the clearance of MIE2.(ABSTRACT TRUNCATED AT 250 WORDS)

The effect of cryopreservation on the development of S- and G2-phase mouse embryos

The survival rate and development of four-cell-stage mouse embryos frozen and thawed in S phase versus G2 phase was compared. Significantly more G2-phase than S-phase embryos survived freezing and thawing. In both groups, disruption of the zona pellucida, fusion of blastomeres, and dispersion of chromosomes were occasionally observed after thawing. Cryopreservation resulted in a longer delay in cleavage from the four- to the eight-cell stage of S (about 5 hr)- and G2-phase embryos (about 3 hr) compared to unfrozen controls. The number of frozen embryos which developed to the blastocyst stage was reduced compared to controls, and in the case of S-phase embryos, formation of the blastocyst cavity was also delayed. However, the average number of cells in the experimental and control embryos was similar. No increased incidence of chromosome abnormalities was seen. Our results suggest that freezing embryos in G2 is superior to freezing in S phase.

The synthesis and testing of E-17 alpha-(2-iodovinyl)-5 alpha-dihydrotestosterone and Z-17 alpha-(2-iodovinyl)-5 alpha-dihydrotestosterone as gamma-emitting ligands for the androgen receptor

Two iodinated steroids, E-17 alpha-(2-iodovinyl)-5 alpha-dihydrotestosterone and Z-17 alpha-(2-iodovinyl)-5 alpha-dihydrotestosterone were synthesized in a search for a gamma-emitting androgen that binds with high affinity to the androgen receptor. Such compounds would be extremely useful research tools for studies of androgen responsive tissues and as in vivo probes of androgen responsive tumors such as prostate cancer. These 17 alpha-iodovinyl steroids were synthesized because many 17 alpha-substituents do not interfere markedly with binding to the androgen receptor and because similar analogs of other steroids, estrogens and progestins, have been shown to have the requisite properties for ligands to those receptors. Both of these potential ligands were tested for their ability to compete with [3H]R1881 for binding to the androgen receptor in cytosols from prostate, hypothalamus and pituitary. The relative binding affinities ranged between 5 and 20%, depending upon the tissue and steroid. In order to test the two ligands directly, they were both synthesized labelled with 125I and tested for binding to the androgen receptor in prostatic cytosol and in vivo for specific concentration in androgen responsive tissues. While there was considerable binding in the prostatic cytosol, it was not specific because 5 alpha-dihydrotestosterone did not compete. Likewise in the in vivo experiment there was no evidence for androgen receptor mediated concentration of the tracers. While on the basis of relative binding affinity, these 2 steroids appeared to be good candidates for androgen receptor ligands, neither were useful for this purpose. These results contribute new information which will be valuable in the design of other gamma-emitting androgens and emphasises that, in this process, other factors such as metabolism and nonspecific binding must be considered.

Comparison of age- and sex-related changes in cell nuclear estrogen-binding capacity and progestin receptor induction in the rat brain

Previous studies have suggested parallels between the mechanisms underlying sexual differentiation and age-related loss of reproductive cyclicity in the female rat. Both appear to involve the actions of estrogen on the brain and are associated with a reduction in hypothalamic estrogen sensitivity. In this study the effects of sex and aging on cell nuclear estrogen receptor-binding capacity and cytosol progestin receptor induction in the pituitary gland, periventricular preoptic area (PVP), medial preoptic area (mPO), bed nucleus of the stria terminalis, arcuate median eminence region (ARC), ventromedial nucleus (VMN), and corticomedial amygdala were directly compared. Young (2.5 months old) and middle-aged (8-10 months old) male and female and old (19 months old) female rats were gonadectomized 14 days before adrenalectomy (ADX). For comparison of cell nuclear estrogen receptor-binding capacity, animals received a saturating dose of estradiol (36.0 micrograms/kg BW) 3 days after ADX and 1 h before death. Cell nuclear estrogen binding was measured by an in vitro exchange assay. For comparison of estrogen-induced progestin receptors, animals received a sc placed Silastic capsule containing 10% 17 beta-estradiol at the time of ADX and were killed 3 days later. Cytosol progestin binding was measured by an in vitro binding assay. Cell nuclear estrogen-binding capacities and cytosol progestin receptor induction were lower in the PVP, mPO, and VMN of the young male than in the young female. In the female, the level of progestin receptor induction in the pituitary and brain was unaffected by age; however, cell nuclear estrogen-binding capacity in the mPO, VMN, ARC, and pituitary gland was lower in old than in middle-aged females. These results demonstrate that the effects of sexual differentiation and aging on the hypothalamus involve similar, but not identical, region-specific reductions in cell nuclear estrogen receptor-binding capacity. The consequences of these reduced estrogen receptor binding levels in terms of the induction of progestin receptor in response to estrogen exposure are, however, very different in the male compared to those in old female rats.

Estrogen induction of a small, putative K+ channel mRNA in rat uterus

Estrogen causes dramatic long-term changes in the activity of the uterus. Here we report the molecular cloning of a small (700 base) uterine mRNA species capable of inducing a slow K+ current in Xenopus oocytes. The 130 amino acid protein encoded by this mRNA species has a predicted structure that does not resemble that of previously described voltage-dependent channels from mammalian sources. It is, however, similar to structural motifs found in certain prokaryotic ion channels. The induction of this mRNA by estrogen is rapid; this uterine mRNA species is not detectable in uteri from estrogen-deprived rats, but is substantially induced after 3 hr of estrogen treatment. These results support a critical role for regulation of ion channel expression by estrogen in the uterus.