Gonadotropin-induced loss of hormone receptors and desensitization of adenylate cyclase in the ovary.

Gonadotropin receptor sites and adenylate cyclase activity were analyzed in luteinized rat ovaries following injection of human chorionic gonadotropin (hCG). Gonadotropin binding capacity and hormonal stimulation of adenylate cyclase declined rapidly to a minimum at 6 to 12 h, remained depressed for 4 days, and returned to the control level between 5 and 7 days. Total adenylate cyclase activity measured in the presence of fluoride fell by 50% within a few hours but returned to normal by 24 h. A close correlation was observed between the number of gonadotropin receptors and the ability of adenylate cyclase to be stimulated by hormone. Assay of tissue-bound hormone showed that the initial loss of hormone sensitivity and binding capacity was associated with occupancy of luteinizing hormone receptor sites, but that the prolonged changes in these activities were not attributable to receptor occupancy. These studies have demonstrated that induction of a refractory or desensitized state in ovarian adenylate cyclase by gonadotropin results from the loss of specific hormone receptor sites.     

Basic properties and annual changes of follicle-stimulating hormone receptors in the testis of horseshoe bats, Rhinolophus ferrumequinum

The unique reproductive patterns, delayed fertilization in females, and asynchrony between spermatogenesis and mating behavior in males are well documented in bats living in temperate latitudes. The present study was undertaken to examine follicle-stimulating hormone (FSH) receptors in the testis of bats, Rhinolophus ferrumequinum, during the annual reproductive cycle. Male bats were captured at natural roosting sites and testicular preparations were subjected to a radioligand binding assay for FSH receptors. The weight of paired testes increased considerably in the spermatogenic period and decreased from the mating to hibernation periods. Meiotic division in the testis was observed in the spermatogenic period but not the mating period. Serum testosterone concentrations increased in the spermatogenic period and rapidly decreased in the mating period. The binding of FSH was specific for mammalian FSHs and detected primarily in the testis. Scatchard plot analyses of the binding of FSH to bat testicular preparations showed straight lines, suggesting the presence of a single class of binding sites. The affinities (equilibrium association constant) of FSH receptors were consistent throughout the annual reproductive cycle. The specific binding per unit weight of testis and total binding in the paired testes were highest in the mating period and in the spermatogenic period, respectively, among reproductive periods. The accumulation of cyclic adenosine 3', 5'-monophosphate to FSH stimulation was higher in the spermatogenic period than in the hibernation period. These findings suggest that testicular function of bats is associated with seasonal changes in the number of binding sites, while the number per target cell and the activation of adenylate cyclase led by FSH-receptor complex considerably decreases in the hibernation period.     

Molecular cloning, sequence and expression of follicle-stimulating hormone receptor in the lizard Podarcis sicula

The present paper reports the full nucleotide sequence of a cloned cDNA prepared from RNA of lizard ovaries. The open reading frame consists of 2019 nucleotides, which encodes a protein of 673 amino acids belonging to the G protein-coupled receptor superfamily with a large extracellular N-terminal domain involved in hormone recognition. The transmembrane domain ends with a short intracytoplasmic COOH-terminal domain involved in effector activation. Phylogenetic analysis showed that the lizard receptor belongs to the family of follicle-stimulating hormone (FSH) receptors. The hydrophobicity profile is similar to that observed for mammalian and avian FSH receptors. Northern blot analysis of total RNA revealed that the FSH receptor is expressed at high levels in the ovary. In situ hybridization experiments demonstrate that FSH receptor mRNA is specifically localized within the small cells of the follicular epithelium surrounding the oocyte.     

Mathematical model of FSH-induced cAMP production in ovarian follicles

During the terminal part of their development, ovarian follicles become totally dependent on gonadotropin supply to pursue their growth and maturation. Both gonadotropins, follicle-stimulating hormone (FSH) and luteining hormone (LH), operate mainly through stimulatory G protein-coupled receptors, their signal being transduced by the activation of the enzyme adenylyl cyclase and the production of second-messenger cAMP. In this paper, we develop a mathematical model of the dynamics of the coupling between FSH receptor stimulation and cAMP synthesis. This model takes the form of a set of nonlinear, ordinary differential equations that describe the changes in the different states of FSH receptors (free, bound, phosphorylated, and internalized), coupling efficiency (activated adenylyl cyclase), and cAMP response. Classical analysis shows that, in the case of constant FSH signal input, the system converges to a unique, stable equilibrium state, whose properties are here investigated. The system also appears to be robust to nonconstant input. Particular attention is given to the influence of biologically relevant parameters on cAMP dynamics.     

Growth hormone receptors in ovary and liver during gametogenesis in female rainbow trout (Oncorhynchus mykiss).

Changes of growth hormone receptivity in the ovary during the reproductive cycle were studied in rainbow trout (Oncorhynchus mykiss). A method for characterizing growth hormone receptors in crude ovary homogenate was required for this. Binding of radiolabelled recombinant rainbow trout growth hormone (125I-labelled rtGH) to crude ovary preparation was dependent on ovarian tissue concentration. The sites were specific to growth hormone, with no affinity for prolactins and gonadotrophins. Similar high affinities for 125I-labelled rtGH were obtained with crude ovary (4.2 x 10(9) +/- 0.3 mol l-1) and crude liver preparations (4.9 x 10(9) +/- 0.1 mol l-1) at all stages of ovogenesis, and with ovarian membrane preparations (8.2 x 10(9) mol l-1) tested at the beginning of vitellogenesis. Ovarian growth hormone receptor concentration was highest during the early phases of follicular development (endogenous vitellogenesis: 315-310 fmol g-1 ovary) and decreased regularly during oocyte and follicular growth (exogenous vitellogenesis) to reach a minimal value at oocyte maturation (42 fmol g-1 ovary). In postovulated fish, binding was at a similar level (297 fmol g-1 ovary) to that found in endogenous vitellogenesis. Conversely, the absolute binding capacity of the whole ovary was low from immaturity to early exogenous vitellogenesis (0.1-0.6 pmol per pair of gonads), increased slowly during vitellogenesis and more markedly during rapid oocyte growth and at the time of final maturation (10.8 pmol per pair of gonads). In postovulated fish, the absolute binding capacity decreased partially (4.4 pmol per pair of gonads). Mean hepatic growth hormone receptor concentration did not vary with the reproductive stage for most of the cycle (3.0-4.5 pmol g-1 liver) except in endogenous vitellogenesis where significantly higher concentrations were observed (6.7 pmol g-1 liver). Individual ovarian growth hormone receptor concentrations were correlated with hepatic growth hormone receptor concentrations, indicating that they are regulated in a similar way. We conclude that growth hormone receptors are present in the ovary during the entire ovarian cycle in rainbow trout, probably mainly in somatic cells as indicated by the same concentration of binding sites in immature and in postovulated fish. Growth hormone is potentially important during oocyte recruitment in vitellogenesis and initiation of growth and during final follicular maturation.     

Inhibition of gonadotropin-stimulated adenylate cyclase by dansyl-arginyl-(4'-ethyl)piperidine amide (DAPA)

Protease inhibitors are known to suppress basal, fluoride-, and hormone-stimulated adenylate cyclase activities. The thrombin inhibitor, dansyl-arginyl-(4'-ethyl)piperidine amide (DAPA), also specifically inhibits the binding of gonadotropins to their receptors. Our studies were undertaken to find a concentration of DAPA that would specifically inhibit gonadotropin-stimulated adenylate cyclase without significantly altering basal, fluoride-, isoproterenol-, or prostaglandin E1-stimulated cyclase. Basal adenylate cyclase activity was not inhibited by DAPA in either human chorionic gonadotropin (hCG)- or follicle-stimulating hormone (FSH)-responsive rat ovarian plasma membranes. Human chorionic gonadotropin-stimulated cyclase was completely inhibited by DAPA at a concentration of 2.96 mM; the ID50 was 1.32 mM. Follicle-stimulating hormone-stimulated cyclase was completely inhibited by a DAPA concentration of 4.44 mM, and the ID50 was 1.75 mM. Dansyl-arginyl-(4'-ethyl)piperidine amide (2.96 mM) inhibited isoproterenol-, prostaglandin E1-, and fluoride-stimulated cyclase in hCG-responsive membranes by 11%, 28%, and 35%, respectively. Dansyl-arginyl-(4'-ethyl)piperidine amide (4.44 mM) inhibited fluoride- and prostaglandin-stimulated cyclase in FSH-responsive membranes by 10% and 11%, respectively. The data show that appropriate concentrations of DAPA can antagonize gonadotropin-stimulated adenylate cyclase while only minimally affecting fluoride- and other receptor-activated cyclase activities.     

Adenosine as substrate and receptor agonist in the ovary

In the present study the possible dual effects of adenosine as substrate and adenosine receptor agonist in rat granulosa cells, cumulus-oocyte complexes, luteal cells and ovarian membranes are discussed. Adenosine is an indispensable compound in cell energy metabolism, as precursor to cofactors, second messenger and nucleic acids. Adenosine is also an agonist to adenosine receptors. The adenosine receptor can either inhibit (A1) or stimulate (A2) adenylate cyclase. Alternatively, in some cells adenosine receptor activation is linked to other cellular events like inhibition of Ca2+ fluxes. Adenosine is taken up by isolated preovulatory granulosa and luteal cells from pregnant mare serum gonadotropin-treated immature rats, but follicle stimulating hormone (FSH) decreases the uptake by granulosa cells. Adenosine, but not the non-metabolizable adenosine analogs 5'-(N-ethyl)carboxamide-adenosine (NECA), 2-chloro-adenosine (2-Clado), N6-(R-phenyl-isopropyl)-adenosine (R-PLA) and N6-(S-phenyl-isopropyl)-adenosine (S-PLA), increase granulosa cell ATP levels. FSH and luteinizing hormone (LH) decrease granulosa cell ATP levels in the presence or absence of adenosine. It has previously been shown that FSH and LH decrease oxygen consumption by cumulus-oocyte complexes and increase their lactate production. These effects have been suggested to be due to a competition of cofactors (e.g. ADP) common to glycolysis and the respiratory chain. The fact that adenosine reverse the gonadotropin-induced effects on oxygen consumption and lactate production support this theory. Adenosine and its analogs increase cAMP accumulation in luteal and granulosa cells only in the presence of gonadotropins, and this effect is antagonized by the adenosine receptor antagonist 8-phenyl-theophylline (8-PHT). Furthermore, adenylate cyclase is stimulated by adenosine analogs in membranes from non-luteinized and luteinized ovarian membranes and in luteal cell homogenates. The effect of NECA is antagonized by 8-PHT. In the membranes, the rank order of potency was NECA greater than 2-Clado greater than R-PLA greater than S-PLA, suggesting adenosine A2 receptors. In summary, it is suggested that adenosine can act both as a substrate to intracellular metabolism and as an adenosine A2 receptor agonist in granulosa and luteal cells. A paracrine short loop positive feedback model is proposed where extracellular adenosine, derived from a gonadotropin-induced extracellular increase in cAMP and a decrease in cellular ATP, enhances gonadotropin stimulation in granulosa and luteal cells.     

The follicle-stimulating hormone (FSH) receptor in testis: interaction with FSH, mechanism of signal transduction, and properties of the purified receptor

The follicle-stimulating hormone (FSH) receptor purified from calf bovine testis membranes appears to be an oligomeric glycoprotein, consisting of 4 disulfide-linked monomers of molecular weight about 60,000 each. Polyclonal antibodies to the hormone binding sites of the receptor have been developed. FSH interaction with the receptor seems to involve multiple discrete binding regions, which include amino acids 34-37 and 49-52 of the human FSH beta subunit. The interaction between FSH and the membrane-bound receptor is reversible at low temperatures but becomes increasingly irreversible as the temperature increases. FSH interaction with the soluble receptor is reversible over a wider temperature range. The hydrophobic effect is a significant factor in the initial hormone receptor interaction in each system. FSH bound to membrane receptors on cultured immature rat Sertoli cells is internalized and degraded to the level of amino acids. Current evidence suggests that the membrane receptor may exist as free receptor, and complexed with G-protein. A functional receptor/G-protein/adenylate cyclase complex has been reconstituted in liposomes. The G-protein of testis membranes contains both high and low affinity guanosine triphosphate (GTP) binding sites. Both are capable of modulating FSH receptor binding, whereas only the high affinity sites seem to be required for activation of adenylate cyclase. Although testis membranes contain a phosphatidylinositide hydrolysis system, the latter is not directly influenced by FSH.     

四眼斑水龟血浆生殖激素季节性变化

为了进一步探讨四眼斑水龟(Sacalia quadriocellata)的繁殖生理周期和生殖激素分泌特征,使用放射免疫分析测定法(RIA)分别测定了8月(夏季)、10月(秋季)、1月(冬季)、3月(春季)四眼斑水龟血浆中卵泡刺激素(FSH)、促黄体生成素(IJH)、睾酮(T)、雌二醇(E2)、孕酮(P)五种生殖激素的含量.结果显示,四眼斑水龟生殖激素分泌呈现较明显的周期性,激素水平与环境温度的变化有关;雄性T含量夏季开始升高,秋季达到高峰,与精子的发生和成熟同步;雌性T水平升高促进其接受雄性爬胯,且作为雌激素合成的前体物质,间接作用于雌激素的合成;排卵会出现LH峰,E2含量排卵前几个月开始增长,刺激肝生成卵黄;排卵期间P含量较高,可能在排卵过程中发挥作用.     

Role of carbohydrate in human chorionic gonadotropin: Deglycosylation uncouples hormone-receptor complex and adenylate cyclase system

Previous work has shown that deglycosylation of human chorionic gonadotropin (hCG) does not affect its receptor binding characteristics, but its ability to stimulate intracellular cyclic AMP accumulation and steroidogenesis in ovarian cells is abolished. To identify the site at which carbohydrate of hCG is involved in the mechanism of action of the hormone, we have studied adenylate cyclase activity in ovarian membrane preparations in response to deglycosylated and native hCG. The deglycosylated hCG does not stimulate adenylate cyclase of ovarian membrane preparation and also it acts as an inhibitor of hCG action. Data are presented to show that both hCG- and catecholamine receptors are coupled to the same adenylate cyclase complex. Since adenylate cyclase activity in the presence of deglycosylated hCG remains still responsive maximally to catecholamines, it indicates that the adenylate cyclase complex is functional and is unaffected by the interaction of deglycosylated hCG to its receptor. This is further supported by the fact that the deglycosylated hCG does not impair the maximal stimulation of adenylate cyclase by guanine nucleotides. Thus, the site of action of the carbohydrate of hCG is prior to the coupling of the hormone-receptor complex and the adenylate cyclase system.     

Isolation,characterization and molecular cloning of cathepsin D from lizard ovary: Changes in enzyme activity and mRNA expression throughout ovarian cycle

During vitellogenesis, the oocytes of oviparous species accumulate in the cytoplasm a large amount of proteic nutrients synthetized in the liver. Once incorporated into the oocytes, these nutrients, especially represented by vitellogenin (VTG) and very low‐density lipoprotein (VLDL), are cleaved into a characteristic set of polypeptides forming yolk platelets. We have studied the molecular mechanisms involved in yolk formation in a reptilian species Podarcis sicula, a lizard characterized by a seasonal reproductive cycle. Our results demonstrate the existence in the lizard ovary of an aspartic proteinase having a maximal activity at acidic pH and a molecular mass of 40 kDa. The full‐length aspartic proteinase cDNA produced from total RNA by RT‐PCR is 1,442 base pairs long and encodes a protein of 403 amino acids. A comparison of the proteic sequence with aspartic proteinases from various sources demonstrates that the lizard enzyme is a cathepsin D. Lizard ovarian cathepsin D activity is maximal in June, in coincidence with vitellogenesis and ovulation, and is especially abundant in vitellogenic follicles and in eggs. Ovarian cathepsin D activity can be enhanced during the resting period by treatment with FSH in vivo. Northern blot analysis shows that cathepsin D mRNA is exceedingly abundant during the reproductive period, and accumulates preferentially in previtellogenic oocytes. Mol. Reprod. Dev. 52:126–134, 1999. © 1999 Wiley‐Liss, Inc.     

Lysophosphatidylcholines can modulate the activity of the glucagon-stimulated adenylate cyclase from rat liver plasma membranes.

1. Synthetic lysophosphatidylcholines inhibit the glucagon-stimulated adenylate cyclase activity of rat liver plasma membranes at concentrations two to five times lower than those needed to inhibit the fluoride-stimulated activity. 2. Specific 125I-labelled glucagon binding to hormone receptors is inhibited at concentrations similar to those inhibiting the fluoride-stimulated activity. 3. At concentrations of lysophosphatidylcholines immediately below those causing inhibition, an activation of adenylate cyclase activity or hormone binding was observed. 4 These effects are essentially reversible. 5. We conclude that the increased sensitivity of glucagon-stimulated adenylate cyclase to inhibition may be due to the lysophosphatidylcholines interfering with the physical coupling between the hormone receptor and catalytic unit of adenylate cyclase. 6. We suggest that, in vivo, it is possible that lysophosphatidylcholines may modulate the activity of adenylate cyclase only when it is in the hormone-stimulated state.     

Independent regulation of beta-adrenergic receptor and nucleotide binding proteins of adenylate cyclase. Developmental and denervation-dependent responses in rat parotid

Rat parotid gland secretion cannot be activated through beta-adrenergic stimulation of adenylate cyclase until after 2 weeks postnatal. We have studied the relationship of the levels of putative guanine nucleotide-binding regulatory components (G/F) of the cyclase system to the onset of hormone responsiveness. The effect of sympathetic denervation on the components of this system during development of secretory function also has been examined. Nucleotide-dependent, hormone-stimulated, and fluoride-stimulated adenylate cyclase activities in parotid membranes are present at low levels at birth and increase 2-fold between 14 and 18 days postnatal while beta-adrenergic receptor levels remain constant. G/F proteins, regulatory for adenylate cyclase activation, were quantitated by ADP-ribosylation in the presence of cholera toxin. Labeling of two cholera toxin-specific substrates occurs at low levels in neonatal rats and increases sharply at the critical 14-18-day period. This provides a plausible explanation for the increase in adenylate cyclase sensitivity at this time, although increases in cyclase catalytic units and/or coupling efficiency of receptor and cyclase may also be involved. In previous studies we found that animals chemically sympathectomized with 6-hydroxydopamine at birth developed elevated levels of membrane-bound beta-adrenergic receptors. The functional consequence is that treated animals show a shift (1.7-fold) toward increased sensitivity in the dose-response curve for adenylate cyclase activation by isoproterenol. However, the levels of maximal hormone- and fluoride-stimulated adenylate cyclase activities do not change, suggesting that some component distal to the receptor is limiting under both control and treated conditions, or that there are deficiencies in coupling of the receptor pool.     

Cloning, functional characterization, and expression of a gonadotropin receptor cDNA in the ovary and testis of amago salmon (Oncorhynchus rhodurus).

A gonadotropin receptor was cloned from amago salmon (Oncorhynchus rhodurus) ovarian follicles. This receptor (sGTH-R) belongs to the glycoprotein hormone receptor family with a large extracellular and seven-transmembrane domains. Its sequence homology is highest with mammalian LH receptors. Phylogenetic analysis reveals that sGTH-R is grouped with mammalian and chicken FSH and LH receptors, but not with mammalian TSH receptors. sGTH-R is expressed dominantly in the ovary and testis. Functional characterization examined with transiently transfected mammalian cells revealed increased intracellular cAMP level when exposed to mammalian and fish gonadotropins; the most potent hormone was salmon GTH II. These results indicate that the cloned cDNA encodes a functional amago salmon GTH receptor protein.     

Neonatal release of gonadotropins is essential for development of ovarian follicle-stimulating hormone receptors

In the rat, ovarian follicle-stimulating hormone (FSH) receptors increase markedly during the first two postnatal weeks, when serum gonadotropin levels are most elevated. This study was conducted to evaluate the hypothesis that these high gonadotropin levels, and in particular FSH, are involved in the acquisition of FSH receptors by the developing ovary. Gonadotropin release was suppressed by administration of several non-aromatizable androgens, among which dihydrotestosterone propionate (DHTP) was the most effective. In one series of experiments the steroids were administered from Days 5 to 11, and serum FSH and luteinizing hormone (LH) were measured on Day 12. Surprisingly, FSH receptor content was greater in rats with suppressed serum gonadotropins than in controls. The greatest increase in available receptors was observed in DHTP-treated rats in which serum FSH was reduced to 20% of control values and LH suppressed to undetectable values. DHTP failed to directly increase available FSH receptors in hypophysectomized immature rats. Magnesium chloride (MgCl2) treatment of ovarian membranes removed bound 125I-hFSH by 87% without affecting receptor viability. Exposure of control 12-day-old ovaries to MgCl2 increased available FSH receptors to a level similar to that of ovaries from DHTP-treated rats not exposed to MgCl2, suggesting that more receptors were available in DHTP-treated rats because serum FSH was suppressed. Earlier initation of DHTP treatment (postnatal Day 1) suppressed serum FSH and LH to undetectable values by Day 5 and decreased FSH receptor content below control values by Day 12. MgCl2 treatment only slightly increased available receptors in these DHTP-treated animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Solubilization of functional and stable follitropin receptors from light membranes of bovine calf testis

Rapid destabilization of FSH receptor after solubilization by detergents is a serious problem complicating its purification and further study. We have developed a procedure for the solubilization of stable and functional FSH receptors with Triton X-100. The new protocol selectively utilizes pure lighter membranes isolated from bovine calf testes by preparative sucrose density gradient centrifugation as the source of receptor. The conditions of detergent solubilization were optimized to reduce the required ratio of Triton X-100 to membrane protein to a minimum. In addition, during detergent extraction the membranes were treated with petroleum ether to remove interfering neutral lipids, thus facilitating solubilization of FSH receptors by the detergent. FSH receptors so obtained appeared to be soluble by criteria such as failure to sediment at 145,000 X g after 90 min, passage through 0.22-micron Millipore filters, and retardation upon chromatography on Sepharose 6B column. Approximately 86% of receptors originally present in the light membranes were recovered after solubilization, with a 24-fold increase in specific activity. The detergent-soluble fraction has several interesting properties not previously reported. It contains only high affinity receptors for FSH (Ka = 1.02 X 10(10) M-1), which are stable in the absence of glycerol for 4 days at 1 degree C or 6 months at -80 degrees C. Luteinizing hormone and human chorionic gonadotropin receptor activity usually associated with detergent-solubilized extracts of testes is low due to incomplete solubility of these receptors under the conditions utilized for solubilization of FSH receptors. Of particular interest is the ability of the receptor in the detergent extract to respond to added FSH with stimulation of adenylate cyclase activity. Adenylate cyclase activity also responds to F- stimulation and the detergent extract retains full guanosine 5'-imidotriphosphate-binding activity. This suggests that under the extraction conditions employed, a high proportion of soluble receptors are associated with related components of the adenylate cyclase system. Our data are consistent with the notion that the solubilized hormone-binding sites represent the physiologically relevant and functional receptors originally present in the light membrane fraction of calf testis. The availability of this detergent-soluble, stable and functional receptor fraction in larger amounts (2.2 g of protein from each batch of 11.5 kg bovine calf testes) than heretofore possible should facilitate further studies on FSH receptor purification and its mechanism of action.     

Mechanism of delayed ovulation in a vespertilionid bat, scotophilus heathi: role of gonadotropin, insulin, and insulin-like growth factor-1

The aim of this study was to evaluate the effects of luteinizing hormone (LH), follicle-stimulating hormone (FSH), insulin, and insulin-like growth factor-1 (IGF-1) on ovarian androstenedione synthesis to understand the mechanism responsible for delayed ovulation in Scotophilus heathi. We found that LH stimulated a dose-dependent increase in androstenedione synthesis by the ovary in vitro. This study also showed a clear seasonal variation in the ability of the ovary to produce androstenedione in vitro in response to LH and FSH stimulation. In response to LH and FSH, maximum quantities of androstenedione were produced during recrudescence in November. The same doses of gonadotropins during the preovulatory period in February stimulated comparatively low androstenedione secretion by the ovary. On the basis of these data, we suggest that in S. heathi, ovarian responsiveness to LH and FSH peaks during recrudescence. This study also showed a seasonal variation in the effects of insulin and IGF-1 on ovarian androstenedione production in vitro. Peak ovarian responsiveness to insulin and IGF-1 was observed during quiescence in September. It is hypothesized that increased insulin/IGF-1 sensitivity during September may be responsible for increased responsiveness to LH. Increased LH release, if coincident with the period of enhanced ovarian responsiveness to LH, may result in the excessive androstenedione production responsible for delayed ovulation in S. heathi.     

Estradiol-stimulated nitric oxide release in nervous tissue, vasculature, and gonads of the giant cockroach Blaberus craniifer

The vertebrate system of steroid hormones appears to have been conserved widely throughout the animal kingdom. The sex hormone estrogen, 17-beta-estradiol (E2), long considered to be exclusively a vertebrate hormone, is found also in invertebrates related to reproductive and developmental processes such as spawning, vitellogenesis and molting. These processes are affected by estrogen induced changes at the genomic level and take place at a large time scale. The discovery of surface membrane receptors for E2 has opened new possibilities for the involvement of estrogen in biological functions other than reproductive. These processes take place within a few seconds to minutes and involve sudden cytosolic calcium transients, activation of adenylate cyclase or activation of phospholipase C (PLC). E2 can modulate the production of nitric oxide (NO) in endotheliar and other cells. A similar mechanism linking estrogen to cNOS catalized nitric oxide (NO) release is reported herein for the first time in several tissues of the giant cockroach Blaberus craniifer. This process has been identified in the brain, nerve cord, vasculature and ovaries. This effect is concentration dependent and is inhibited by tamoxifen an estrogen receptor blocker.     

Transforming growth factor beta regulates the inhibitory actions of epidermal growth factor during granulosa cell differentiation

The effects of transforming growth factor beta (TGF-beta) on epidermal growth factor (EGF) receptor content and EGF action were studied in cultured granulosa cells from immature diethylstilbestrol-implanted rats. During follicle-stimulating hormone (FSH)-induced differentiation in vitro, EGF receptors increased by 20-fold as measured by the binding of 125I-EGF to the intact cells. Addition of TGF-beta during the 48-h culture period amplified the stimulatory effects of FSH on EGF receptors up to 2-fold, with ED50 and maximal concentrations of 2.5 and 8 pM, respectively. Also TGF-beta alone in amounts from 1.6 to 16 pM increased EGF receptor content 4-fold. The stimulatory effects of TGF-beta were due to increased numbers of EGF receptors/cell, since the growth factor had no effect on the Kd (3-5 X 10(-11) M) of the high-affinity EGF binding site. TGF-beta action was observed within 20 h of granulosa cell culture and was maximal by 48 h of a 96-h culture. The stimulatory actions of TGF-beta in gonadotropin-induced cells were exerted through the cAMP effector system of the granulosa cell, since the growth factor also amplified the induction of EGF receptors by cholera toxin, forskolin, and 8-bromo-cAMP. The augmentation of EGF receptors by TGF-beta resulted in a parallel 2-fold increase in the inhibitory effects of EGF on FSH-induced cAMP production and luteinizing hormone receptor expression during granulosa cell development. TGF-beta did not increase granulosa cell numbers during culture although it elevated [3H]thymidine incorporation into DNA by 2-fold over that of FSH-treated cells. These results indicate that TGF-beta regulates the effects of both FSH and EGF during granulosa cell differentiation and provides evidence that ovarian function may be controlled by the combined actions of gonadotropins and multiple growth factors.