Follicle-stimulating hormone plays a role in the induction of ovarian follicular cysts in hypophysectomized rats.

Unabated stimulation by low doses of LH-like activity produces ovarian follicular cysts in both progesterone-synchronized immature rats and pregnant rats. Serum FSH is maintained in both of these models at values similar to those observed on diestrus. To determine whether unabated stimulation by basal serum FSH affects the ability of LH-like activity to induce cystic ovaries, immature hypophysectomized (HYPOXD) rats were given either no hormone (control); 2 micrograms ovine FSH (oFSH) once daily for 14 days beginning on Day 27; 0.5 IU hCG twice daily for 13 days beginning on Day 28 of age; or both oFSH and hCG (FSH + hCG) beginning on Day 27 and Day 28, respectively. By the end of the in vivo treatments (Day 40 of age), the largest follicles in the ovaries of control and hCG-treated HYPOXD rats were at the preantral stage of development, whereas the largest follicles present in ovaries from FSH-treated animals were atretic and at the small antral stage of development. In contrast, ovaries from rats treated with FSH + hCG displayed large follicular cysts by Day 37 of age. Of the serum steroids analyzed, only estradiol and androstenedione concentrations for animals treated with FSH + hCG were consistently elevated above values observed for control HYPOXD rats. Serum testosterone and dihydrotestosterone values were similar for hCG-treated and control HYPOXD rats throughout the in vivo treatments. In contrast, these steroids were elevated between Days 3 and 5 of FSH treatment (+/- hCG treatment). Serum progesterone and estrone values for all in vivo gonadotropin treatment groups were similar to those of controls. Serum insulin concentrations were not affected by any in vivo treatment. Incubates of follicles/cysts from FSH + hCG-treated HYPOXD rats contained more progesterone, androstenedione, and estradiol than incubates of follicles from any other in vivo treatment group. Follicles from all in vivo treatment groups responded to 8-bromo cAMP (cAMP) with increased in vitro progesterone accumulation. However, only follicles from FSH-treated and FSH + hCG-treated rats responded to cAMP with increased androstenedione and estradiol accumulation in vitro. Inclusion of 400 ng of either androstenedione or testosterone in the incubation medium enhanced progesterone accumulation in follicular incubates from control, hCG-treated, and FSH-treated HYPOXD rats, but did not enhance progesterone accumulation in follicular incubates from FSH + hCG-treated animals. Both androstenedione and estradiol production increased markedly under these conditions for follicles from all in vivo treatment groups.(ABSTRACT TRUNCATED AT 400 WORDS)     

Development of steroidogenic activity in the ovary of the prepubertal hamster: II. Production of steroids from steroidal precursors and response in vitro to cyclic adenosine monophosphate and luteinizing hormone

In vitro exposure for 2 h to 250 ng/ml of pregnenolone led to increased production of progesterone and 17 alpha-hydroxyprogesterone (17 alpha-OHP) by hamster ovaries on Days 5, 10 and 15 of age. Similar incubations with 250 ng/ml progesterone or androstenedione caused significant increases in 17 alpha-OHP or testosterone, respectively. When testosterone was added in doses of 32.5, 250 and 500 ng/ml to ovaries on Days 5-30, as early as Day 5 the ovaries aromatized the androgen to estradiol. Day 30 ovaries were the most efficient in the conversion because antral follicles, the principal site for aromatization, were then present. In terms of progesterone production, 400 ng/ml of luteinizing hormone (LH) during 4 h of in vitro incubation stimulated ovaries on Days 5, 10 and 15. Cyclic adenosine 3':5' monophosphate (cAMP) at a dose of 1 mM and 5 mM stimulated progesterone production by Days 5 and 10 ovaries more efficiently than LH. However, Day 15 ovaries produced more progesterone in response to LH compared to cAMP. These experiments establish that the steroidogenic enzymes differentiate at a very early age in the hamster ovary, even before the appearance of gonadotropin receptors. The inability of the early postnatal ovary to produce steroids is apparently attributable to lack of precursors such as cholesterol or cholesterol side chain cleavage enzymes.     

The role of aromatization in the development of sexual behavior of the female hamster (Mesocricetus auratus)

An aromatization inhibitor, ATD (1,4,6-andostatrien-3,17-dione) was used to test the hypothesis that aromatization of testosterone to estradiol is necessary for behavioral masculinization and defeminization of female hamsters. Pups received either 0.5 or 1.0 mg ATD or propylene glycol along with either 50 or 100 μg testosterone, 2μg estradiol, or sesame oil. Both hormones and aromatization inhibitor were given on Days 2 through 4 after birth. ATD blocked masculinization of sexual behavior produced by testosterone but did not block the masculinizing effects of estradiol. ATD also blocked the defeminizing effect of testosterone but not estradiol. These data support the aromatization hypothesis.     

Mechanisms involved in the ability of human chorionic gonadotropin to increase the responsiveness of the infant rat's testis to follicle-stimulating hormone

Pretreatment of 9-day-old rats for 3 days with human chorionic gonadotropin (hCG) increases the amount of estradiol secreted by the testis in response to in vivo or in vitro stimulation with follicle-stimulating hormone (FSH). Potential mechanisms for this sensitizing effect were studied by treating infant rats with a variety of agents and then using radioimmunoassay to determine testicular estradiol secretion. Substitution of 3 days priming with estradiol for hCG did not enhance subsequent in vitro responsiveness to FSH. Subcutaneous capsules of 1,4,6-androstatriene-3,17-dione (ATD) blocked stimulation of testicular aromatization in vivo by hCG or FSH. ATD capsules alone, or when combined with the antiestrogen tamoxifen, were not able to alter the ability of hCG pretreatment to increase responsiveness to in vitro FSH. It was concluded that estradiol was not involved in the sensitization caused by hCG in this model system. When gonadal tissue from 12-day-old rats was incubated in the presence or absence of 0.6 microM testosterone and various concentrations of FSH, more estradiol was secreted by testes in the containing testosterone. The amount secreted was not different from that noted after hCG priming. Priming of 9-day-old rats for 3 days with the nonaromatizable androgen 5 alpha-dihydrotestosterone did not influence the amount of estradiol secreted in response to FSH. It is further concluded that hCG augments the testicular aromatization response of infant rats to FSH by providing additional substrate for these reactions.     

Examination of the role of follicle stimulating hormone in estrogen biosynthesis in vivo and in vitro in the ovary of the cyclic hamster

The effect of neutralizing endogenous follicle stimulating hormone (FSH) or luteinizing hormone (LH) with specific antisera on the in vivo and in vitro synthesis of estrogen in the ovary of cycling hamster was studied. Neutralization of FSH or LH on proestrus resulted in a reduction in the estradiol concentration of the ovary on diestrus-2 and next proestrus, suggesting an impairment in follicular development. Injection of FSH antiserum at 0900 h of diestrus-2 significantly reduced the ovarian estradiol concentration within 6--7 h. Further, these ovaries on incubation with testosterone (T) in vitro at 1600 h of the same day or the next day synthesized significantly lower amounts of estradiol, compared to corresponding control ovaries. Although testosterone itself, in the absence of endogenous FSH, could stimulate estrogen synthesis to some extent, FSH had to be supplemented with T to restore estrogen synthesis to the level seen in control ovaries incubated with T. Lack of FSH thus appeared to affect the aromatization step in the estrogen biosynthetic pathway in the ovary of hamster on diestrus-2. In contrast to this, FSH antiserum given on the morning of proestrus had no effect on the in vivo and in vitro synthesis of estrogen, when examined 6--7 h later. The results suggest that there could be a difference in the need for FSH at different times of the cycle. Neutralization of LH either on diestrus-2 or proestrus resulted in a drastic reduction in estradiol concentration of the ovary. This block was at the level of androgen synthesis, since supplementing testerone alone in vitro could stimulate estrogen synthesis to a more or less similar extent as in the ovaries of control hamsters.     

The influence of portacaval anastomosis on gonadal and anterior pituitary hormones in a rat model standardized for gender, food intake, and time after surgery

Portacaval anastomosis causes delayed growth, decreased testes and liver weights, and elevated estradiol serum levels in male rats compared with sham-operated controls. Female rats treated with portacaval anastomosis grow at a normal rate despite changes in liver weight and estradiol levels similar to those observed in the male rats. This study examined the pituitary gonadal axis in both genders in this animal model. The rats receiving portacaval anastomosis were compared with both pair-fed and sham-operated control groups. Portacaval anastomosis decreased serum testosterone and increased estradiol in the male animals, while both testosterone and estradiol were increased in the females compared with gender-matched pair-fed and sham controls. Because pair feeding lowers male testosterone to a lesser extent, impaired nutrition may partially account for the decrease in the males treated with portacaval anastomosis. The ratio of estradiol to testosterone increased following anastomosis in male rats, but it was decreased in similarly treated females. Portacaval and anastomosis decreased luteinizing hormone without changing follicle-stimulating hormone in both male and female rats compared with sham-operated controls. Growth hormone was significantly decreased in male portacaval-treated rats compared with sham- and pair-fed animals. Increased insulin levels were found in both male and female pair-fed and portacaval anastomosis-treated animals. These data suggest that following portacaval anastomosis in rats, growth, serum testosterone, estradiol to testosterone ratios, and growth hormone are altered in a gender-specific manner with gender-independent changes in insulin and luteinizing hormone levels. These gender-specific effects may protect the portacaval anastomosis-treated female rat from growth retardation.     

Mating stimulates estradiol production by ovaries of the musk shrew (Suncus murinus).

Asian musk shrews (Suncus murinus) are induced ovulators, but exhibit no cyclic changes in reproductive structures or in sexual behavior. Mating behavior is induced by contact with a male. To determine if mating induces changes in ovarian steroidogenesis, ovaries removed from unmated animals and at 3, 10, 15, and 36 h after mating were cultured for 4 h in the presence or absence of gonadotropins (LH + FSH, 1 microgram/ml). Histological analysis revealed no obvious changes in follicular size or appearance at the end of culture in ovaries cultured at 3 and 10 h post-mating, as compared with ovaries from unmated shrews, and mating did not stimulate any discernable changes in steroid secretion in these two groups. However, at the end of the culture period, ovulation had occurred or was occurring in ovaries from 35% of the animals ovariectomized at 15 h after mating, and corpora lutea (CLs) were present in 39% of ovarian pairs obtained 36 h after mating. At 15 h post-mating, ovaries with ovulations secreted three times more estradiol than did ovaries that showed no evidence of stimulation by mating, but there were no differences in testosterone or progesterone production. In contrast, ovaries isolated 36 h post-mating with CLs secreted dramatically more of all three steroids than ovaries without CLs (23, 13, and 52 times more estradiol, testosterone, and progesterone, respectively). These data are consistent with plasma concentrations of estradiol at the time of ovariectomy, which were twice as high at both 15 and 36 h after mating, in animals whose ovaries showed evidence of ovarian stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sex differences and sex hormones in anxiety-like behavior of aging rats

Sex differences in the prevalence of affective disorders might be attributable to different sex hormone milieu. The effects of short-term sex hormone deficiency on behavior, especially on anxiety have been studied in numerous animal experiments, mainly on young adult rats and mice. However, sex differences in aged animals and the effects of long-term hypogonadism are understudied. The aim of our study was to analyze sex differences in anxiety-like behavior in aged rats and to prove whether they can be attributed to endogenous sex hormone production in males. A battery of tests was performed to assess anxiety-like behavior in aged female, male and gonadectomized male rats castrated before puberty. In addition, the aged gonadectomized male rats were treated with a single injection of estradiol or testosterone or supplemented with estradiol for two-weeks. Female rats displayed a less anxious behavior than male rats in most of the conducted behavioral tests except the light-dark box. Long-term androgen deficiency decreased the sex difference in anxiety either partially (open field, PhenoTyper cage) or completely (elevated plus maze). Neither single injection of sex hormones, nor two-week supplementation of estradiol in gonadectomized aged male rats significantly affected their anxiety-like behavior in the elevated plus maze. In conclusion, our results confirm sex differences in anxiety in aged rats likely mediated by endogenous testosterone production in males. Whether long-term supplementation with exogenous sex hormones could affect anxiety-like behavior in elderly individuals remains to be elucidated.     

Characterization of the estrogenic response to genistein in Japanese medaka (Oryzias latipes)

This study was designed to determine the estrogenic effect of the phytoestrogen genistein on several measures of endocrine function in adult Japanese medaka (Oryzias latipes) relative to 17-beta-estradiol. Adult animals of both sexes were exposed to 75, 750 and 30,000 ng/fish (average fish weight equals 0.26 g) of genistein by i.p. injection, with a positive control group treated with 300 ng/fish of 17-beta-estradiol, while a negative control group received a vehicle-only (corn oil) injection. Content of vitellogenin, the yolk glycoprotein made in the liver in response to estradiol stimulation, was measured using Western blots. Circulating estradiol and testosterone levels were measured using a steroid-enzyme immunosorbant assay. The ability of ovaries and testes to synthesize and release estradiol and testosterone was determined by ex vivo incubation of gonads with 25-hydroxycholesterol. Vitellogenin, while induced by 17-beta-estradiol, was not increased in the liver of individuals treated with genistein. In females, genistein treatment at 750 and 30,000 ng increased the estradiol production of ovaries more than the 17-beta-estradiol treatment. In males, genistein treatment resulted in decreased testosterone production from ex vivo testis and a comparable reduction in circulating testosterone level. The changes in vitellogenin, circulating steroids and ex vivo steroidogenesis in medaka in response to genistein are similar to that of 17-beta-estradiol. However, some endpoints are more sensitive to estradiol treatment (vitellogenin), while others are more sensitive to genistein (male testosterone and ovarian estrogenesis).     

The role of estrogen in the feedback regulation of follicle-stimulating hormone secretion in the female rat

Letrozole (CGS 20267) is a non-steroidal aromatase inhibitor which, at its maximally effective dose of 1 mg/kg p.o., elicits endocrine effects equivalent to those seen after ovariectomy. Adult, female cyclic rats were administered letrozole (1 mg/kg p.o.) once daily for 14 days. A control group of animals was ovariectomized on day 1 of treatment and a third group of animals served as untreated controls. During the experiment, vaginal smears were taken daily and at the end of 14 days all animals were sacrificed, trunk blood was taken for serum estradiol, LH and FSH measurements and the uterus and ovaries were removed and weighed. The ovaries were then fixed and prepared for histological examination. Serum hormone measurements showed that after treatment with letrozole, serum estradiol levels were reduced by 76% of untreated controls and serum LH was elevated to 378% of control values. These compared favorably with those seen after ovariectomy, serum estradiol was reduced by 78% and serum LH was elevated to 485% of untreated controls. However, FSH was unchanged after letrozole treatment (125% of control), whereas after ovariectomy FSH rose to 398% of control. Uterine weight was suppressed in the letrozole-treated animals as well as the ovariectomized animals by 60 and 70%, respectively. The histology of the ovaries of animals treated with letrozole were consistent with the serum hormone findings. Except for the effects on serum FSH, these results confirm previous findings that treatment with letrozole elicits endocrine effects similar to those seen after ovariectomy. Furthermore, these results demonstrate that FSH secretion is not under the control of estradiol whereas LH secretion is under feedback control of ovarian estrogen.     

Hormone Specificity, Androgen Metabolism, and Social Behavior

SYNOPSIS. The ability of different sex hormones to activatesocial signals can provide important clues to the biochemicalmechanisms underlying these signals. A pattern of hormone specificityin which testosterone (T) and estradiol (E), but not dihydrotestosterone(DHT), are effective suggests that conversion (aromatization)of T to E in the brain may be involved or required; a patternin which T and DHT, but not E, are effective suggests that conversionof T to DHT may be involved. The hormone specificity of socialsignals in diverse species of vertebrates is reviewed. Aromatizationseems to be of widespread behavioral significance in mammalsandbirds. A role for conversion of T to DHT is suggested forsome signals. Aromatization of T mayalso be important for theactivation of adult female behavior in mammals and lizards,and for the early organization of behavior in mammals and birds.Patterns of hormone specificity differ both across species fora given social signal, and within a given species when differentsignals are compared. An attempt is made to integrate thesefindings by relating patterns of hormone specificity to hormonelevels, steroid receptor and enzyme concentrations and distributions,signal function and dimorphism, and phylogenetic status.     

Aromatase and testosterone fatty acid esters: the search for a cryptic biosynthetic pathway to estradiol esters.

The estradiol fatty acid esters (lipoidal derivatives, LE2) are extremely potent estrogens that accumulate in fat, including fat of menopausal women. These steroidal esters are protected from metabolism and are converted to the free, biologically active steroid through the action of esterases. Previous studies have shown that biosynthetic pathways in the adrenal gland exist in which steroid fatty acid esters are substrates. This led us to determine whether a cryptic aromatase pathway exists in which testosterone esters could be converted directly into LE2. We tested a representative fatty acid ester, testosterone stearate, both as an inhibitor and as a substrate for the aromatase enzyme from human placental microsomes. This ester had neither activity. In addition, we tested [1 beta-3H]testosterone acetate as a substrate for this enzyme complex, measuring the production of 3H2O as evidence of aromatization. Although the rate of reaction was considerably slower than that of testosterone, 3H2O was produced. However, when [2, 4, 6, 7-3H]testosterone acetate was incubated and the steroidal products isolated, we found that hydrolysis of the substrate had occurred. Both [3H]-labeled testosterone and estradiol were found, and very little if any [3H]estradiol acetate was formed. Thus, we conclude that an aromatase pathway involving testosterone esters does not exist and that the sole source of LE2 is through direct esterification of estradiol.     

Ovarian hormone secretory response to gonadotropins and nitric oxide following chronic nitric oxide deficiency in the rat

Ovarian hormone secretion is regulated by gonadotropins, and it has been demonstrated that this response is modulated by nitric oxide (NO). The focus of this study was to determine the effect of chronic NO deficiency on the secretion of ovarian steroids. Female rats were given N-nitro-L-arginine (L-NNA; 0.6 g/L) in their drinking water, and vaginal smears were obtained daily. By 4 wk of treatment, all the rats were in constant estrus or proestrus. At 6-8 wk the animals were killed; the ovaries were removed and incubated in the presence of eCG (1 IU/ml) and hCG (1 IU/ml) and/or S-nitroso-L-acetyl penicillamine (an NO donor, S-NAP; 0.1 mM) for 4 h. Medium was collected at 30-min intervals, and estradiol, progesterone, and androstenedione were measured. Ovaries from proestrous rats served as controls. Ovaries from L-NNA-treated animals had a greater basal and gonadotropin-stimulated release of estradiol but not of androstenedione or progesterone in comparison to ovaries from untreated controls. S-NAP decreased the gonadotropin-stimulated estradiol, progesterone, and androstenedione in ovaries from NO-deficient rats. Steroid secretion in controls was not responsive to S-NAP. We conclude that chronic NO inhibition produces constant estrus due to increased estradiol production and that NO acts to inhibit estradiol and androstenedione production.     

Treatment with high-dose estrogen (diethylstilbestrol) significantly decreases plasma estrogen and androgen levels but does not influence in vivo aromatization in postmenopausal breast cancer patients

While growth factors and hormones are known to influence aromatase expression in experimental systems, little is know about potential factors influencing peripheral aromatization in postmenopausal women. The fact that peripheral aromatase activity is higher in old compared to young women and the finding of relatively high tissue estradiol (E₂) concentrations after the menopause suggests peripheral aromatization could be influenced by estrogen concentration. To test this hypothesis, we determined plasma hormone levels (n = 9) and in vivo aromatization (n = 3) in postmenopausal women suffering from advanced breast cancer before and during treatment (4 weeks) with diethylstilbestrol (DES) 5 mg three times daily. Plasma levels of cortisol (C), corticosteroid-binding globulin (CBG), and sex hormone binding globulin (SHBG) were significantly increased in all patients (P < 0.05 for all). While we found no change in total body aromatization and plasma estrone (E₁) levels, estradiol (E₂) and estrone sulfate (E₁S) were suppressed by a mean of 48.8 and 68.2%, respectively (P = 0.043 and 0.008). Surprisingly, plasma levels of androstenedione (A), testosterone (T), dehydroepiandrosterone (DHEA) and its sulfate (DHEAS) were also suppressed by a mean in the range of 32.1 to 52.6% (P < 0.05 for all androgens). In contrast, no change in plasma progesterone or 17-hydroxyprogesterone was found. Thus, one possible explanation to our findings could be that DES administered in high doses reduces 17,20-lyase activity in the adrenal gland.     

Neurotransmitter-controlled steroid hormone receptors in the central nervous system

Results are discussed indicating that neurotransmitters affect steroid hormone activity not only by controlling via neuroendocrine events the hypophysial-gonadal and hypophysial-adrenal axes, but also by modulating cell responsiveness to steroids in target cells. Hyper- or hypoactivity of pineal nerves result in enhancement or impairment of estradiol and testosterone effects on pineal metabolism in vivo and in vitro. Pineal cytoplasmic and nuclear estrogen and androgen receptors are modulated by norepinephrine released from nerve endings at the pinealocyte level. Neural activity affects the cycle of depletion-replenishment of pineal estrogen receptors following estradiol administration. Another site of modulation of steroid effects on the pinealocytes is the intracellular metabolism of testosterone and progesterone; nerve activity has a positive effect on testosterone aromatization and a negative effect on testosterone and progesterone 5α-reduction. NE activity on the pineal cells is mediated via β-adrenoceptors and cAMP. In the central nervous system information on the neurotransmitter modulation of steroid hormone action includes the following observations: (a) hypothalamic deafferentation depresses estrogen receptor levels in rat medial basal hypothalamus; (b) changes in noradrenergic transmission affect, via α-adrenoceptors, the estradiol-induced increase of cytosol progestin receptor concentration in guinea pig hypothalamus; (c) cAMP increases testosterone aromatization in cultured neurons from turtle brain; (d) electrical stimulation of dorsal hippocampus augments, and reserpine or 6-hydroxydopamine treatment decrease, corticoid binding in cat hypothalamus. In the adenohypophysis changes in dopaminergic input after median eminence lesions or bromocriptine treatment of rats result in opposite modifications of pituitary estrogen receptor levels. Therefore all these observations support the view that neurotransmitters can modulate the attachment of steroid hormones to their receptors in target cells.     

Androgens and bone

Testosterone is the major gonadal sex steroid produced by the testes in men. Testosterone is also produced in smaller amounts by the ovaries in women. The adrenal glands produce the weaker androgens dehydroepiandrosterone, dehydroepiandrosterone sulfate, and androstenedione. These androgens collectively affect skeletal homeostasis throughout life in both men and women, particularly at puberty and during adult life. Because testosterone can be metabolized to estradiol by the aromatase enzyme, there has been controversy as to which gonadal sex steroid has the greater skeletal effect. The current evidence suggests that estradiol plays a greater role in maintenance of skeletal health than testosterone, but that androgens also have direct beneficial effects on bone. Supraphysiological levels of testosterone likely have similar effects on bone as lower levels via direct interaction with androgen receptors, as well as effects mediated by estrogen receptors after aromatization to estradiol. Whether high doses of synthetic, non-aromatizable androgens may, in fact, be detrimental to bone due to suppression of endogenous testosterone (and estrogen) levels is a potential concern that warrants further study.     

Effect of cyanoketone on follicle-stimulating hormone (FSH) induction of receptors for FSH in granulosa cells of the rat

Follicle-stimulating hormone (FSH) enhances the conversion of testosterone or androstenedione into estradiol by stimulating the aromatase enzyme system. Estradiol also enhances FSH action. Thus, a synergistic action of FSH and estradiol may be required for maturation of ovarian follicles. We hypothesized that estradiol may be required for FSH action. Thus, blocking estrogen synthesis should prevent FSH-induced increases in FSH receptors. Hypophysectomized rats were divided into five groups and injected subcutaneously with: 1) saline, 2) cyanoketone (0.05 mg, blocks the conversion of pregnenolone to progesterone), 3) ovine FSH (oFSH, 200 micrograms), 4) cyanoketone then oFSH 24 h later, or 5) cyanoketone plus estradiol [or progesterone, testosterone, promegestrone (R5020), dihydrotestosterone (DHT), 2 mg], then FSH 24 h later. Animals were decapitated at 0, 12 or 24 h after an injection of oFSH, and membrane receptors for FSH and luteinizing hormone (LH), plus nuclear receptors for estradiol from granulosa cells, were measured. LH receptor levels were increased only after administration of FSH and estradiol. At 0 and 24 h, numbers of FSH or estradiol receptors were similar in saline- and cyanoketone-treated animals. FSH alone increased (P less than 0.01) FSH and estradiol receptors 3-fold and 4-fold, respectively, over controls by 12 and 24 h. Cyanoketone prevented these increases in FSH and estradiol receptors. Estradiol replacement fully reversed the effects of cyanoketone on FSH action. Replacement with progesterone and testosterone was able to only partially restore levels of FSH receptors; however, estradiol receptor numbers were also increased.(ABSTRACT TRUNCATED AT 250 WORDS)     

Unilateral sectioning of the superior ovarian nerve of rats with polycystic ovarian syndrome restores ovulation in the innervated ovary

The present study tested the hypothesis that if polycystic ovary syndrome (PCOS) results from activating the noradrenergic outflow to the ovary, unilaterally sectioning the superior ovarian nerve (SON) will result in ovulation by the denervated ovary, and the restoration of progesterone (P4), testosterone (T) and estradiol (E2) normal serum level. A single 2 mg dose of estradiol valerate (EV) to adult rats results in the development of a syndrome similar to the human PCOS. Ten-day old rats were injected with EV or vehicle solution (Vh) and were submitted to sham surgery, unilateral or bilateral sectioning of the SON at 24-days of age. The animals were sacrificed at 90 to 92 days of age, when they presented vaginal estrus preceded by a pro-estrus smear. In EV-treated animals, unilateral sectioning of the SON restored ovulation by the innervated ovary and unilateral or bilateral sectioning of the SON normalized testosterone and estradiol levels. These results suggest that aside from an increase in ovarian noradrenergic tone in the ovaries, in the pathogenesis of the PCOS participate other neural influences arriving to the ovaries via the SON, regulating spontaneous ovulation. Changes in P4, T and E2 serum levels induced by EV treatment seem to be controlled by neural signals arising from the abdominal wall and other signals arriving to the ovaries through the SON, and presents asymmetry.     

Reversal of the unresponsiveness of neonatal rat ovary to LH in cAMP synthesis by estrogen.

The rat ovary during the 1st postnatal week is unresponsive to luteinizing hormone (LH), but responds to prostaglandin E1 with increase of cyclic adenosine 3',5'-monophosphate synthesis. In the present experiments unresponsiveness of ovaries of 6-day-old rats to LH in synthesis of cAMP was effectively reversed by injection of depot estradiol and diethylstilbestrol on the 2nd and 4th postnatal day. Administration of testosterone, progesterone, deoxycorticosterone, pregnant mare's serum gonadotropin and human chronic gonadotropin had no stimulatory effect. The lack of response to LH also failed to be reversed when estradiol was injected 21 h before killing of the animals or the ovaries were preincubated with estradiol. These results suggest that the development of an ovarian cell system responsive to LH in newborn rat may be accelerated by long-term action of estradiol.     

Targeted disruption of luteinizing hormone/human chorionic gonadotropin receptor gene

LH/hCG receptors were disrupted by gene targeting in embryonic stem cells. The disruption resulted in infertility in both sexes. The gonads contained no receptor mRNA or receptor protein. Serum LH levels were greatly elevated, and FSH levels were moderately elevated in both sexes; estradiol and progesterone levels decreased but were not totally suppressed in females; testosterone levels were dramatically decreased and estradiol levels moderately elevated in males. The external and internal genitalia were grossly underdeveloped in both sexes. Abnormalities included ambiguous vaginal opening, abdominal testes, micropenis, dramatically decreased weights of the gonads and reproductive tract, arrested follicular growth beyond antral stage, disarray of seminiferous tubules, diminished number and hypotrophy of Leydig cells, and spermatogenic arrest beyond the round spermatid stage. LH/hCG receptor gene disruption had no effect on FSH receptor mRNA levels in ovaries and testes, progesterone receptor (PR) levels in ovaries and androgen receptor (AR) levels in testes. However, it caused a dramatic decrease in StAR and estrogen receptor-alpha (ERalpha) mRNA levels and an increase in ERbeta mRNA levels in both ovaries and testes. Estradiol and progesterone replacement therapy in females and testosterone replacement in males, to determine whether phenotype and biochemical changes were a consequence of decreased gonadal steroid levels or due to a loss of LH signaling, revealed complete restoration of some and partial restoration of others. Nevertheless, the animals remained infertile. It is anticipated that the LH receptor knockout animals will increase our current understanding of gonadal and nongonadal actions of LH and hCG.