Maturation and activation of hypothalamic-pituitary adrenal function in fetal sheep.

The progressive rise in the concentration of cortisol in the plasma of fetal sheep during late pregnancy arises from the sequential maturation of the fetal HPA axis. In addition, cortisol itself occupies a central role in accelerating this process through a series of feed-forward mechanisms. Before days 100-110 of pregnancy AVP appears to predominate over CRH as the major corticotropin-releasing factor in the fetus. Pituitary responsiveness to CRH increases progressively after day 100, and precedes maturation of fetal adrenal responsiveness to endogenous or exogenous ACTH. Cortisol accelerates the increase in the ratio of adult-fetal corticotropes in the fetal pituitary. In addition, cortisol modulates the mechanism by which ACTH activates fetal adrenal function, possibly through an action at the level of the ACTH receptor. Cortisol appears also to mediate the rise in fetal plasma CBG concentrations during late pregnancy, and may thereby alter the efficacy of the negative feedback process. In women, cortisol acts on the placenta to promote rather than to inhibit CRH output. CRH from the placenta may reach significant concentrations in the fetal circulation and augment the drive to fetal ACTH release. It may also act in a paracrine fashion to promote placental POMC gene expression. The importance of placental CRF and ACTH in the sheep is not yet apparent. These feed-forward loops establish a series of positive cascades that ensure concurrent rises in plasma ACTH and cortisol in the fetal circulation during late pregnancy. We suggest that this sequence leads to, and is broken by, the process of birth.

Maternal nutrient restriction in early pregnancy programs hepatic mRNA expression of growth-related genes and liver size in adult male sheep.

The liver is a major metabolic and endocrine organ of critical importance in the regulation of growth and metabolism. Its function is determined by a complex interaction of nutritionally regulated counter-regulatory hormones. The extent to which hepatic endocrine sensitivity can be programed in utero and whether the resultant adaptations persist into adulthood is unknown and was therefore the subject of this study. Young adult male sheep born to mothers that were fed either a control diet (i.e.100% of total live weight-maintenance requirements) throughout gestation or 50% of that intake (i.e. nutrient restricted (NR)) from 0 to 95 days gestation and thereafter 100% of requirements (taking into account increasing fetal mass) were entered into the study. All mothers gave birth normally at term, the singleton offspring were weaned at 16 weeks, and then reared at pasture until 3 years of age when their livers were sampled. NR offspring were of similar birth and body weights at 3 years of age when they had disproportionately smaller livers than controls. The abundance of mRNA for GH, prolactin, and IGF-II receptors, plus hepatocyte growth factor and suppressor of cytokine signaling-3 were all lower in livers of NR offspring. In contrast, the abundance of the mitochondrial protein voltage-dependent anion channel and the pro-apoptotic factor Bax were up regulated relative to controls. In conclusion, maternal nutrient restriction in early gestation results in adult offspring with smaller livers. This may be mediated by alterations in both hepatic mitogenic and apoptotic factors.

Pituitary and adrenal responses to pulsatile ovine corticotropin-releasing factor administered to fetal sheep.

In fetal sheep a bolus injection of ovine CRF (oCRF) elevates plasma immunoreactive ACTH (IR-ACTH) during the last 5 weeks of gestation. However, the effects of long term administration of oCRF to fetal sheep have not been studied. We examined the effects of pulsatile administration of oCRF (1 microgram every 4 h) for 7 days on fetal pituitary and adrenal responses, as reflected by plasma concentrations of IR-ACTH and cortisol (F). In addition, we examined the effects of oCRF on cAMP accumulation by dispersed pituitary cells in vitro after treatment in vivo with either oCRF or saline. Pulsed oCRF (P-CRF) treatment resulted in a significant (P less than 0.05) increase in basal IR-ACTH and F concentrations on all days of treatment. However, the pituitary response (change in IR-ACTH in response to a pulse of oCRF) decreased, and the adrenal response (change in F in response to endogenously secreted ACTH) increased as treatment progressed. A significant inverse correlation (r = 0.962) between basal F and the IR-ACTH response to oCRF was seen over the 7 days of treatment. Although P-CRF treatment resulted in an increase in fetal adrenal weight, it did not lead to premature parturition. There was a dose-dependent accumulation of cAMP in response to oCRF in vitro by dispersed pituitary cells from both groups of fetuses. However, this response was significantly greater when the fetuses had been pretreated with oCRF in vivo than after saline treatment. We conclude that the P-CRF regimen employed in this study stimulates the fetal pituitary-adrenal axis and the ability of fetal pituitary cells to accumulate cAMP in response to further oCRF in vitro. The reduced plasma IR-ACTH response after continued P-CRF in vivo may be attributed to increasing negative feedback effects of elevated endogenous F.

Maternal exposure to octylphenol suppresses ovine fetal follicle-stimulating hormone secretion, testis size, and sertoli cell number.

We have tested the hypothesis that maternal exposure to octylphenol, a putative endocrine disrupting chemical, will suppress gonadotropin secretion with a concomitant decrease in testis size and Sertoli cell number during fetal life in the lamb. In Exp 1, pregnant ewes received a continuous iv infusion of diethylstilbestrol (DES; 50 microg/kg x day), octylphenol (1000 microg/kg x day), or vehicle (1:4, alcohol-saline) from days 110-115 of gestation. The fetuses were chronically catheterized in utero, and blood samples were collected every 8 h to monitor gonadotropin secretion. In Exp 2, pregnant ewes received twice weekly sc injections of DES (0.5 microg/kg x day), octylphenol (1000 microg/kg x day), or corn oil from day 70 of gestation to birth. The pituitary gland and testes were collected from the lambs at the end of the treatment period. In Exp 1, maternal exposure to octylphenol suppressed (P < 0.05) FSH concentrations without any effect (P > 0.05) on LH concentrations compared with those in control fetuses. In Exp 2, long-term maternal exposure to octylphenol or a 1000-fold lower dose of DES suppressed (P < 0.05) FSH, messenger RNA levels and the number of FSHbeta-immunopositive cells in the pituitary gland and reduced testis weight and the number of Sertoli cells in the testis compared with those in control lambs. We conclude that maternal exposure to octylphenol inhibits the secretion of FSH in the fetus with a concomitant decrease in testis size and Sertoli cell number at birth.

Estrogenic induction of spermatogenesis in the hypogonadal mouse.

Abnormal sperm production and reduced fertility have been reported in transgenic male mice lacking the alpha-subtype of the estrogen receptor (ER)alpha or aromatase. The aim of this study was to investigate the role of estrogen in male reproductive function, by determining the effect of estradiol on testicular function in hypogonadal (hpg) mice congenitally lacking gonadotropin; and thus, sex steroid production. hpg mice were treated, at 2-3 months of age, with slow-release estradiol implants, which achieved circulating estradiol concentrations of approximately 40 pg/ml. Treatment for 35 days reliably induced a 4- to 6-fold increase in testicular weight, compared with the vestigial testes in the untreated or cholesterol-treated controls. The degree of testicular growth after 35 days was similar to that in hpg mice receiving an intrahypothalamic graft of preoptic area tissue taken from neonatal mice on the day of birth, a procedure known to induce testicular development in hpg mice by activation of the pituitary gland. Histological analysis revealed that the testes contained elongated spermatids after 35 days of estradiol treatment, whereas germ cell development never progressed beyond the pachytene stage in control hpg mice. Treatment for 70 days induced full qualitatively normal spermatogenesis in hpg mice. Testis weight increased 5-fold, reflecting a 5-fold increase in total seminiferous tubule volume and a 4- to 5-fold increase in the total volume of the seminiferous epithelium. In all experiments, spermatogenesis proceeded in the absence of measurable androgen concentrations, but circulating FSH concentrations were slightly (but significantly) elevated, relative to cholesterol-treated control hpg mice. This stimulatory action of estradiol on FSH secretion was unexpected, particularly because identical estradiol treatments significantly decreased serum FSH levels in wild-type littermates. These results indicate that estrogens may play a role in spermatogenesis, via stimulatory effects on FSH secretion. An alternative or complementary explanation, given the recent identification of estrogen receptors (ERalpha and ERbeta) and aromatase within various cell types in the testis, is that estrogens exert paracrine actions within the testis to promote spermatogenesis. The identification of effects of estradiol on testicular function provides a conceptual basis to reexamine the speculative link between increased exposure to environmental estrogens and reduced fertility in man.

Leptin acts on metabolism in a photoperiod-dependent manner, but has no effect on reproductive function in the seasonally breeding Siberian hamster (Phodopus sungorus).

Leptin may play a role in appetite regulation and metabolism, but its reproductive role is less clear. In photoperiodic Siberian hamsters, seasonal changes in fatness, leptin gene expression, and metabolism occur synchronously with activation or suppression of reproduction, analogous to puberty. Here, we test the hypothesis that seasonal changes in leptin secretion mediate the photoperiodic regulation of reproduction. Mature male and ovariectomized estrogen-treated female Siberian hamsters were kept in long (LD; 16 h of light, 8 h of darkness) or short days (SD; 8 h of light, 16 h of darkness) for 8 weeks, and recombinant murine leptin (15 microg/day) was infused for 2 weeks via osmotic minipumps. SD hamsters exhibited significant weight and fat losses, reduced serum leptin and food intake, and suppressed pituitary LH concentration. Leptin did not suppress food intake over the 2-week treatment on either photoperiod, but significantly reduced fat reserves in SD hamsters. Leptin had no significant effect on pituitary LH concentrations in either sex or photoperiod or on testicular size and testosterone concentrations in males. These results suggest hamsters are more responsive to leptin on SD than on LD and that effects on food intake and fat loss can be dissociated in this species. Our data suggest that leptin does not mediate photoperiodic reproductive changes.

Steroids modulate corticotropin-releasing hormone production in human fetal membranes and placenta.

The levels of immunoreactive CRH are elevated in both maternal and fetal plasma in late gestation and labor, but fall precipitously after parturition. The major source of this peptide is thought to be the placenta. We determined if the placenta and also the amnion, chorion, and decidua produce CRH, whether this material has biological activity, and whether CRH output is modulated by glucocorticoids and progesterone. In an in vitro monolayer culture system CRH was produced by the fetal membranes and decidua. Media immunoreactive CRH concentrations averaged 625 +/- 45 (SE) pg/10(5) cells in amnion, 701 +/- 56 pg/10(5) cells in chorion, and 580 +/- 60 pg/10(5) cells in decidual tissue obtained at cesarean section. This output was similar to that by the placenta (906 +/- 121 pg/10(5) cells). These values increased in tissue obtained after spontaneous labor. A single peak of CRH immunoreactivity eluting at the same position as synthetic human CRH, and possessing biological activity, was found in all tissues. There was a dose-dependent increase in CRH output by all tissue types when cells were maintained in the presence of increasing concentrations of cortisol and dexamethasone. In contrast, increasing concentrations of progesterone decreased CRH output by all tissue types. We conclude that immuno- and biologically active CRH is produced not only in the human placenta, but also in the fetal membranes. CRH output by the placenta/fetal membranes is moderated by steroids, and changes with labor. These findings raise the possibility of a regulatory system similar to that of the hypothalamic pituitary axis, but residing within the placenta and fetal membranes.

Placental proopiomelanocortin gene expression, adrenocorticotropin tissue concentrations, and immunostaining increase throughout gestation and are unaffected by prostaglandins, antiprogestins, or labor.

The objective of this study was to demonstrate the ontogeny of POMC gene expression, the distribution of immunoreactive ACTH, and tissue peptide content within the placenta and fetal membranes and to investigate the regulatory effects of PGs and progesterone during the first trimester and of labor at term. Tissues were collected from the following groups: 1) women undergoing first trimester (gestation 5-12 weeks) therapeutic abortion (by suction curettage with and without the synthetic PGE1 analogue, gemeprost administered vaginally 2-4 h before the procedure or with 600 mg mifepristone 48 h before receiving 1 mg gemeprost vaginally); 2) women undergoing second trimester therapeutic abortion (600 mg mifepristone; 1 mg gemeprost); 3) in association with delivery at term by spontaneous labor; 4) induced labor; or 5) elective caesarean section. ACTH was immunolocalized to the placental cytotrophoblasts in the first trimester and to the syncytiotrophoblasts in the second and third trimester. The intensity of the staining increased with advancing gestation. ACTH immunoreactivity also was localized in the epithelial layer of the amnion, the reticular layer of the chorion, and the decidual stroma. ACTH content measured by RIA in placental extracts increased significantly in the third trimester. In situ hybridization demonstrated expression of POMC messenger RNA in syncytiotrophoblasts and cytotrophoblasts from the first trimester and also demonstrated a significant increase in POMC gene expression with advancing gestation. The localization and staining intensity for ACTH and POMC gene expression were not affected by the administration of PGs or mifepristone or by labor at term. These data demonstrate the localization of ACTH immunoreactivity within the placenta throughout pregnancy, supporting the hypothesis that the placenta may activate and maintain the maternal and/or fetal hypothalamo-pituitary-adrenal axis throughout pregnancy.

Prostaglandin E2 enhances AVP-stimulated but not CRF-stimulated ACTH secretion from cultured fetal sheep pituitary cells.

This study examined the ability of prostaglandin E2 (PGE2) to regulate ACTH secretion from cultured anterior pituitary cells of fetal sheep between days 130 and 140 of gestation (term = 145 days). Corticotrophin-releasing factor (CRF) and arginine vasopressin (AVP) induced dose-dependent (0.1-1000 nmol/l) increases in ACTH secretion from fetal sheep pituitary cells maintained in culture for 6 days, with AVP being significantly (P less than 0.01) more potent than CRF. PGE2 (1000 nmol/l) significantly (P less than 0.05) enhanced the ability of AVP, but not CRF, to stimulate ACTH secretion. However, PGE2 given alone (0.1-1000 nmol/l) had no effect on ACTH secretion. Concomitant administration of CRF and AVP induced a greater release of ACTH than after treatment with either peptide alone, a synergistic interaction which was unaffected by simultaneous administration of PGE2. These results provide evidence for a direct action of PGE2 on ACTH secretion from the fetal sheep pituitary gland via a specific interaction with AVP. This interaction may allow increased fetal plasma concentrations of PGE2, seen during late gestation, to stimulate fetal pituitary-adrenal maturation.

Exogenous opioid regulation of the hypothalamic-pituitary-adrenal axis in fetal sheep.

To test the hypothesis that endogenous opioids participate in the regulation of the ontogenic development of the hypothalamic-pituitary-adrenal axis in fetal sheep, we measured changes in immunoreactive (ir) ACTH and cortisol concentrations in response to bolus injections of either the [Met]-enkephalin analogue, [D-Ala2,N-Phe4,Met(0)ol5]-enkephalin (FK 33-824; 25 micrograms), the opioid antagonist naloxone (1 mg), a combination of both, or saline vehicle, administered to chronically catheterized fetal sheep through late gestation. There were no effects of either FK 33-824, naloxone or saline on the release of ir-ACTH and cortisol at the earliest stage of gestation studied (days 110-115). By days 125-130, FK 33-824 caused a rapid but short-lived (30 min) increase in plasma ir-ACTH (P less than 0.05) which was accompanied by a smaller but nonsignificant increase in cortisol. Naloxone given concurrently with FK 33-824 abolished this response, thus providing evidence for a specific effect through opioid receptors. Naloxone given alone was without effect. At days 135-140, FK 33-824 caused a significant increase in ir-ACTH which was of similar duration and magnitude to that which occurred at days 125-130. There was a larger basal variation in plasma concentrations of cortisol than at days, 125-130, and a greater increase in cortisol after FK 33-824, although this did not reach statistical significance. Naloxone again reversed the effects of FK 33-824 but was without effect when given alone.(ABSTRACT TRUNCATED AT 250 WORDS)

Pituitary and gonadal responses to the long-term pulsatile administration of gonadotrophin-releasing hormone in fetal sheep.

The fetal hypothalamo-pituitary-gonadal axis reaches a peak in activity at mid-gestation and this is followed by a period of suppression which persists until the onset of puberty. The decline in gonadotrophic activity during late gestation is thought to reflect the maturation of central and peripheral feedback signals. In order to establish if sustained pituitary responsiveness is rate limiting to the reinstatement of reproductive function, we have examined the endocrine consequences of repeated pulsatile GnRH administration to male and fetal sheep during late gestation. Beginning on day 121 of gestation (term = 145 days) chronically catheterized fetal sheep were given i.v. pulses of either 500 ng GnRH or saline every 2 h for 14 days. Pituitary and gonadal responses were assessed by measuring changes in plasma concentrations of LH, FSH, inhibin and testosterone (in male fetuses) in response to the first pulse of GnRH on day 1 and to the corresponding pulse on days 4, 7, 10 and 14. In response to the first pulse of GnRH there was an immediate release of LH, with the peak response being significantly (P < 0.01) greater than on subsequent days. In male fetuses each pulse of LH was followed by a rise in plasma testosterone concentrations within 40-60 min. The amplitude of these testosterone responses increased significantly (P < 0.01) after 9 days of treatment despite a decline in the plasma LH response. Basal FSH concentrations increased progressively (P < 0.05) during pituitary stimulation with GnRH in both male and female fetuses. Immunoreactive inhibin concentrations were significantly (P < 0.05) higher in males than in females, and there was a gradual increase throughout the experimental period irrespective of treatment. We observed no inverse correlation between inhibin and FSH concentrations. These data show that pulsatile administration of GnRH to fetal sheep during late gestation results in sustained re-activation of pituitary-gonadal function. The decline in fetal gonadotrophins, which is a characteristic feature of late gestation, is therefore likely to result from inadequate GnRH secretion from the fetal hypothalamus rather than an inhibition of pituitary function by peripheral feedback signals.

Dopaminergic regulation of adrenocorticotrophic hormone, alpha-melanocyte-stimulating hormone and cortisol secretion in the ovine fetus.

During ovine fetal development there is a progressive maturation of the hypothalamo-pituitary-adrenal axis which culminates in the onset of birth. The role and regulation of the intermediate lobe of the fetal pituitary gland in relation to this maturational process remains controversial. To test the hypothesis that the pars intermedia of the ovine fetal pituitary is under tonic inhibitory dopaminergic control we treated fetal sheep at day 131 of gestation with a 3-day intravenous infusion of one of the following: the dopamine antagonist sulpiride (0.3 mg/ 0.5 ml/h; n = 12), the dopamine agonist bromocriptine (0.03 mg/0.5 ml/h; n = 7) or vehicle (0.1 M tartaric acid in saline; n = 8) alone. Fetal plasma concentrations of alpha-MSH were significantly (P < 0.01) increased by treatment with sulpiride and decreased (P < 0.05) by bromocriptine. The increase in alpha-MSH after sulpiride was characterised by an increase in the amplitude of alpha-MSH pulses whereas bromocriptine virtually abolished all pulses of alpha-MSH. Immunoreactive ACTH (IR-ACTH) concentrations were significantly (P < 0.05) elevated after sulpiride but were unaffected by bromocriptine. There were no changes in the pulsatile characteristics of IR-ACTH secretion. Cortisol concentrations were unchanged by either treatment. We conclude that fetal alpha-MSH and IR-ACTH are secreted in a pulsatile fashion and are tonically inhibited by dopaminergic pathways. The lack of an effect of endogenously raised alpha-MSH on plasma cortisol concentrations provides evidence that this POMC-derived peptide is not responsible for the regulation of cortisol biosynthesis and/or secretion.

Activation of pituitary-adrenal function in fetal sheep by corticotrophin-releasing factor and arginine vasopressin.

In sheep, birth is preceded by an increase in fetal plasma concentrations of ACTH and cortisol. Activation of the fetal pituitary-adrenal axis is pivotal to the onset of parturition in this species and may be regulated, at least in part, by corticotrophin-releasing factor (CRF). Pulsed administration of CRF has been shown to activate the fetal pituitary-adrenal axis in immature fetal sheep. However, pituitary ACTH responsiveness declined after continued administration of CRF, as a result of increasing negative feedback effects of increased concentrations of endogenous cortisol. To test the hypothesis that arginine vasopressin (AVP) is required, in addition to CRF, to produce the necessary trophic stimulus to the pituitary-adrenal axis, we administered saline, CRF (1 microgram), AVP (200 ng) or CRF plus AVP as pulses every 4 h for 7 days to fetal sheep beginning at days 117-120 of pregnancy (term = 145 days). Pituitary-adrenal responses were assessed by measuring plasma concentrations of immunoreactive (ir) ACTH and cortisol in response to one of the pulses on each of the 7 days of treatment. On day 1, CRF and AVP significantly increased plasma concentrations of ir-ACTH and there was a synergistic interaction when the two peptides were given together (P less than 0.05). However, as pulsed treatment continued there was a decline in the pituitary ir-ACTH response to all treatments (P less than 0.05). This decline in pituitary response occurred over a much longer period of time when CRF and AVP were given together when compared with the two peptides given separately.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of pituitary-gonadal suppression with a gonadotrophin-releasing hormone agonist on fetal gonadotrophin secretion, fetal gonadal development and maternal steroid secretion in the sheep.

In order to investigate the regulation of the hypothalamo-pituitary-gonadal axis during fetal development, sheep fetuses at day 70 of gestation were implanted subcutaneously with a biodegradable implant containing the long-acting gonadotrophin-releasing hormone (GnRH) agonist, buserelin. The treatment of fetuses with a GnRH agonist throughout the last half of gestation (term = 145 days) abolished the increase in plasma LH concentrations that was seen in 2-day-old control lambs in response to an injection of GnRH. This attenuated response was associated with corresponding reductions in the pituitary content of LH and FSH. Immunolocalization studies revealed that pituitary glands from newborn lambs implanted with a GnRH agonist during fetal development were devoid of immunopositive LH- and FSH-containing cells. At birth the testicular weights of GnRH agonist-treated ram lambs were significantly decreased by 40% when compared with controls. This was associated with a 45% reduction in the total number of Sertoli cells per testis. In newborn ewe lambs GnRH agonist treatment had no effect on ovarian weight or on the morphological appearance of the ovaries. GnRH agonist treatment had no effect on the plasma concentrations of progesterone and oestrone in the maternal circulation or on the length of gestation. These results show (1) that GnRH positively regulates the synthesis and secretion of gonadotrophins in the fetus, (2) that reduced fetal gonadotrophic support during the last half of gestation results in a reduction in testicular growth, and (3) that fetal gonadotrophins do not affect maternal steroid secretion.

Differential activation by xenoestrogens of ER alpha and ER beta when linked to different response elements.

The discovery of a second estrogen receptor (ER beta) has significant implications for our understanding of the molecular basis for the diverse actions of estrogen. Here we report the differential activation by natural and xenobiotic estrogens of ER alpha and ER beta when linked to different response elements. Receptor mediated activation of reporter constructs containing either the estrogen response element (ERE) from the vitellogenin (Vit) gene or from the luteinizing hormone beta (LH) gene were examined in transiently transfected Cos-1 cells. ER beta preferentially activated the consensus Vit ERE whereas ER alpha showed greater activation at the divergent LH ERE. This differential activation was observed for a number of ligands including estradiol, estrone, bisphenol A, octylphenol and diethystilbestrol. These findings show that the nature of the ERE, as well as the ratio of ER subtypes in a particular cell/tissue, will influence whether particular estrogen responsive genes are activated in the presence of natural or xenobiotic estrogens.

Ontogeny of anti-müllerian hormone, 3 beta-hydroxysteroid dehydrogenase and androgen receptor expression during ovine total gonadal development.

Anti-müllerian hormone (AMH) and androgenic steroids are key factors regulating the masculinisation of the internal and external genitalia during fetal development. AMH is produced in Sertoli cells and causes regression of the müllerian ducts in the male. 3 beta-Hydroxysteroid dehydrogenase (3 beta-HSD) is one of the key steroidogenic enzymes regulating testosterone production in Leydig cells. The objective of this experiment was to elucidate the development of the ovine fetal testes by identifying the spatio-temporal expression of AMH, 3 beta-HSD and androgen receptor expression within them. Fetuses from days 30 and 40 of gestation were fixed intact, while the gonads were dissected from the fetuses on days 70, 100 and 130 of gestation. Tissue was fixed in Bouin's fixative for 6 h, processed into paraffin wax and sections immunostained using rabbit anti-human AMH, 3 beta-HSD or androgen receptor antibodies. While seminiferous cords were absent on day 30 of gestation, pre-cord organisation was apparent and the gonad could be clearly distinguished from surrounding tissue by the presence of AMH and 3 beta-HSD immunopositive cells. Androgen receptor expression was not apparent at this stage. By day 40 of gestation the testis was organised into distinct seminiferous cords and intense immunostaining for AMH and 3 beta-HSD was present in Sertoli cells within the cords and Leydig cells in the interstitium respectively. Androgen receptor immunopositive cells were present in the interstititum but cells destined to develop into rete testis were immunonegative. By day 70 of gestation, the rete testis was organised in the centre of the testis and was strongly androgen receptor immunopositive. AMH and 3 beta-HSD expression was present in Sertoli and Leydig cells respectively. The expression of AMH, 3 beta-HSD and androgen receptor in the 100 and 130 day gestation fetuses was similar to that identified in the 70 day fetuses. In conclusion, Sertoli and Leydig precursor cells are present in the gonad prior to seminiferous cord formation and contain AMH and 3 beta-HSD at all stages of gestation examined. While androgen receptor immunoexpression was present in nuclei of interstitial cells from day 40 of gestation and in the rete testis from day 70 of gestation, Sertoli cells were immunonegative for androgen receptor at all of the stages examined.

Oestradiol is a potent mitogen and modulator of GnRH signalling in alphaT3-1 cells: are these effects causally related?

GnRH acts via phospholipase C (PLC) activating G-protein coupled receptors to stimulate secretion of gonadotrophins from gonadotrophs. These cells are also regulated by gonadal steroids, which act centrally to influence GnRH secretion, and peripherally to modulate GnRH action. We have shown that oestradiol can stimulate proliferation and modulate GnRH-stimulated [(3)H]inositol phosphate ([(3)H]IP(x)) accumulation (used as a measure of PLC activity) in a gonadotroph-derived cell line (alphaT3-1). Here we show that when alphaT3-1 cells were incubated in medium with 2% foetal calf serum (FCS), [(3)H]thymidine incorporation was not stimulated by oestradiol but was reduced to <2% of control by the oestrogen antagonist, raloxifene. The inhibitory effect of 10 or 1000 nM raloxifene was reversed competitively by oestradiol. A similar pattern of effects was seen when effects of oestradiol and raloxifene on the proportion of cells in the S-phase of the cell cycle (as measured by flow cytometry of propidium iodide-labelled cells) and on oestrogen receptor activity (as measured by trans-activation of the oestrogen-response elements in the vitellogenin promoter) were quantified. In addition, RT-PCR revealed expression of alpha and beta (but not beta2) subtypes of oestrogen receptors. Thus, oestrogen is an essential mitogen for alphaT3-1 cells, its mitogenic effect is oestrogen receptor mediated and is associated with a marked alteration of cell cycle distribution, and the full extent of these effects are best revealed in the presence of raloxifene. Using this strategy, we found that cells cultured for 4 days with 10 nM raloxifene expressed GnRH receptors (K(d) for (125)I-buserelin 4.33 nM) and that their activation by GnRH caused a concentration-dependent increase in [(3)H]IP(x) (in cells labelled with [(3)H]inositol) and inositol 1,4,5 trisphophate (in unlabelled cells). Addition of 10 nM oestradiol (to overcome receptor blockade by raloxifene) reduced GnRH receptor number by 31% but increased maximal effects on [(3)H]IP(x) and Ins(1,4,5)P(3) approximately 4-fold. The effects of oestradiol on GnRH receptor number and signalling were not, however, mimicked by culture for 2 days in medium with 10% FCS and the S-phase blocker, thymidine (15 mM). This treatment increased the proportion of cells in the S-phase 2- to 3-fold but did not alter GnRH receptor number or signalling. Other treatments which altered cell cycle transition (hydroxyurea, colcemid, methotrexate) also failed to alter GnRH receptor number or signalling and no correlation was seen between GnRH receptor number or GnRH-stimulated [(3)H]IP(x) accumulation and the proportion of cells in the S-phase or G2/M-phases of the cell cycle. Thus, oestradiol has pronounced effects on GnRH signalling, proliferation and cell cycle distribution in alphaT3-1 cells, but these trophic effects do not underlie the modulation of GnRH signalling.

Controls of corticotrophin-releasing factor output by hypothalamic tissue from fetal sheep in vitro.

Corticotrophin-releasing factor (CRF) is thought to be an important physiological regulator of the pituitary-adrenal axis in fetal sheep and, as such, plays a fundamental role in the initiation of parturition in this species. However, little is known of the controls of CRF secretion from the fetal hypothalamus. We looked for the presence of CRF in fetal hypothalami, and examined whether the hypothalamic CRF concentration or molecular species changed in relation to gestational age. We established an in-vitro perifusion system to examine the release of CRF from perifused hypothalami taken from fetuses at day 100 and day 140 of pregnancy, under basal conditions and in response to potassium depolarization and/or dexamethasone administration. Immunoreactive CRF was present in fetal hypothalami as early as day 100 (2.42 +/- 0.99 (S.E.M.) micrograms/g protein, n = 9) and in similar concentrations at day 140 (2.31 +/- 0.69 micrograms/g protein, n = 9). There was a significant (P less than 0.05) increase in hypothalamic CRF content to 14.79 +/- 4.09 micrograms/g protein (n = 16) between day 122 and day 135 of gestation. Using Sephadex G-75 chromatography, hypothalamic extracts at day 100, days 122-135 and day 140 eluted with a single peak of immunoreactivity which corresponded to synthetic ovine CRF(1-41). The basal release of CRF from perifused hypothalami at day 140 (76.6 +/- 10.4 pg/fraction, n = 8) was significantly (P less than 0.05) greater than at day 100 (50.1 +/- 10.2 pg/fraction, n = 11). Dexamethasone significantly inhibited basal CRF release at day 140 of gestation but not at day 100.(ABSTRACT TRUNCATED AT 250 WORDS)

Maternal undernutrition alters triiodothyronine concentrations and pituitary response to GnRH in fetal sheep.

The aims of this study were to determine which hormones may have a role in the expression of maternal undernutrition effects on reproductive function, in both the developing fetus and the adult offspring. This was undertaken by measuring the effects of long-term maternal undernutrition on metabolic hormone profiles and pituitary responses to single doses of GnRH and GH-releasing factor (GRF) in fetal sheep. From mating, groups of ewes were fed rations providing either 100% (HIGH) or 50% (LOW) of estimated metabolisable energy requirements for pregnancy throughout the experiment until slaughter at approximately 119 days of gestation. Fetal and maternal blood samples were collected from 113 until 119 days of gestation, via carotid and jugular catheters respectively, and assayed for insulin, IGF-I, GH, thyroxine and triiodothyronine (T(3)). Undernutrition had no effects on fetal weight, fetal gonad weight of either sex, fetal insulin or IGF-I concentrations. Male LOW fetuses exhibited a significantly attenuated response (P<0.05) to a bolus challenge of GnRH compared with HIGH fetuses. Basal fetal GH concentrations and the response to exogenous GRF were similar in both treatment groups, although LOW fetuses exhibited more secretory episodes (P<0.01). Mean T(3) concentrations were significantly lower in both the maternal (P<0.01) and fetal (P<0.05) plasma of LOW animals compared with HIGH animals. It is concluded that pituitary function was altered in fetal males and could influence male reproductive development. On the other hand, in female sheep, fetal gonadal abnormalities and reductions in reproductive capacity in adult life which are associated with fetal undernutrition are unlikely to be attributable to altered pituitary function. Additionally, these studies raise the possibility that thyroid hormones may have a role in the expression of maternal undernutrition effects on fetal development.

Expression of mRNA and immunocytochemical localization of inhibin alpha- and inhibin beta A-subunits in the fetal sheep testis.

In order to investigate the ontogeny of gonadal inhibin production in the male fetal sheep, testes were collected from male fetuses at days 70, 100, 130 and 140 of gestation (term = 145 days). The expression and localization of inhibin alpha- and inhibin beta A-subunit mRNA and protein were evaluated using in situ hybridization and immunocytochemistry. The expression of inhibin alpha-subunit mRNA was localized within the seminiferous cords of the developing fetal testis and progressively increased with gestational age. Immunostaining corresponding to immunoreactive inhibin alpha-subunit was detected in Sertoli cells within the seminiferous cords at days 100, 130 and 140 of gestation. In addition, immunostaining was detectable in a small proportion of Leydig cells. No expression of inhibin beta A-subunit mRNA or immunoreactivity was detected in any testicular tissue at any stage of gestation. These data show that the Sertoli cells of the developing fetal sheep testis have the capacity to produce inhibin alpha-subunit by day 100 of gestation and that production increases during late gestation.