A. Amsterdam

Leptin attenuates follicular apoptosis and accelerates the onset of puberty in immature rats.

Human and rat granulosa cells express receptors to leptin which synergies with glucocorticoid hormones in stimulation of ovarian steroidogenesis. To examine whether leptin affects follicular development and maturation, we injected recombinant ovine leptin (300 ng-10 microg/animal) daily to immature 21 day-old female rats. Non-treated rats reached puberty at 44.5+/-1.6 (n=9) days. In contrast, in leptin treated animals, puberty was reached at 34.5+/-1.6 (n=9) days. Ovarian sections revealed hypertrophy of granulosa cells in leptin treated animals. Moreover, the number of ovulations was 2-fold higher in the treated animals compared to controls (3-4 ovulations versus 7-8 on the first three estrous cycles, P<0.001). Leptin dramatically reduced incidence of follicular apoptosis measured by TUNEL, and was already evident after 7 days of leptin injection (12% of apoptosis in leptin treated group compared to 52% in controls, P<0.001). Maximal protection against apoptosis was achieved at 1-3 microg leptin/animal. The levels of FSH, LH, progesterone and the steroidogenic factors ADX and STAR were elevated earlier in development in the leptin treated animals compared to control animals which is in line with the achievement of early puberty in the leptin treated animals compared to non treated ones. To reveal whether modulation of death and survival genes is involved in leptin attenuation of follicular apoptosis, we examined the expression of the survival gene Bcl-2 and the death gene Bax in Western blots of ovarian homogenates. There was a pronounced elevation in Bcl-2 expression during 7-14 days of leptin injections up to 16.3-fold (P<0.001) compared to Bcl-2 expression in controls. Bax expression was elevated only 3.4 fold (P<0.001), leading to an increase in the Bcl-2/Bax ratio of 4.7 fold (P<0.001). Expression of the tumor suppressor gene p 53 and the oncogene Mdm2 did not change significantly. Our data suggests that leptin may be involved in accelerating follicular maturation by attenuating follicular atresia and increasing the ratio of Bcl-2/Bax.

Appearance and disappearance of acetycholine receptor during differentiation of chick skeletal muscle in vitro

During differentiation of embryonic chick skeletal muscle in culture, elaboration of acetylcholine receptor (AChR) and acetylcholinesterase occurs shortly after myoblast fusion. During further development, AChR was found to decrease markedly on the myotube surface, while acetylcholinesterase continued to increase. Surface distribution of AChR, as followed by autoradiography using 125I-alpha-bungarotoxin, was homogeneous in newly fused myotubes. With further differentiation, clusters of AChR appeared on the surface of the myotubes, and their subsequent disappearance paralleled a decrease in overall AChR levels. Quantitative autoradiography showed a reduction of over 75% in the density of AChR on the surface of well differentiated, cross-striated myotubes. Thus the appearance of AChR on the cell surface, its condensation into clusters, and finally its depletion seem to be sequential events in the differentiation of skeletal muscle in culture in the absence of direct neuronal influence.

Analysis of signal transduction stimulated by gonadotropins in granulosa cells

Gonadotropins exert their effect on ovarian follicular cells through the activation of the hormone sensitive adenylate cyclase and consequent elevation of intracellular cyclic AMP (cAMP). Desensitization to the hormone in cultured primary granulosa cells can occur within a short period and internalization of the hormone-receptor complex has been observed both in vivo and in vitro. It was recently documented that the gonadotropins as well as cAMP activate MAP kinase (MAPK) in granulosa cells. Moreover we discovered that specific inhibitors of extracellular signal-regulated kinase phosphorylation, 1 and 2, augment steroidogenesis in granulosa cells up-regulating steroidogenic acute regulatory (StAR) protein expression, and that this modulation is blocked by specific inhibitors of protein kinase A. It is therefore suggested that gonadotropins may activate both stimulatory and inhibitory pathways which regulate steroidogenesis. Moreover the ratio between the activity of these two pathways may determine the rate of steroidogenesis, and rapid activation of MAPK may account as part of the mechanism of desensitization to the hormonal action. Steroidogenic factor-1 and DAX-1 may be involved in the regulation of the MAPK-dependent attenuation of steroidogenesis, since they exhibit sites that could be potentially phosphorylated by the MAPK cascade.

Properties of LH-sensitive adenylate cyclase in purified plasma membranes from rat ovary

Abstract A procedure for the purification of ovarian plasma membranes (PM) is described and applied to ovaries from immature (25-day-old) rats stimulated with pregnant mare serum gonadotropin (PMSG). Luteinizing hormone (LH)-sensitive adenylate cyclase, 5′-nucleotidase and the binding of 125I-labeled human chorionic gonadotropin (hCG) served as PM markers. Judged by these three criteria, 8–15-fold purification of PM was achieved, with a yield of 30–40% of the activity present in the crude homogenate. Optimal conditions for the response of rat ovarian adenylate cyclase to LH and hCG were defined with respect to time, pH and the concentrations of Mg2+, ATP, GTP and β,γ-imidoguanosine-5′-triphosphate [Gpp(NH)p].

Suppression of 20α-hydroxysteroid dehydrogenase activity in cultured rat luteal cells by prolactin

20alpha-Hydroxysteroid dehydrogenase (20 alpha-SDH) activity increases in the cycling corpus luteum of the rat, beginning at 14.00 h on the day of diestrus, but remains low in corpora lutea of pregnancy throughout the first 19 days of gestation. When cells derived from 7-day-old corpora lutea of pregnant rats were cultured for 7 or 12 days, there was a spontaneous rise in 20 alpha-SDH activity from an initial value of 0.44 +/- 0.27 to 4.1 +/- 0.7 units/mg supernatant protein. Addition of LH (NIH-S-18; 2.0 mug/ml) or prostaglandin F2alpha (2.8 X 10(-5) M) to the medium from day 4 to the end of incubation period caused a slight but significant reduction in 20 alpha-SDH activity (20%, P less than 0.05). Supplementation of the medium with ovine prolactin (HIH-P-S11; 10.0 mug/ml) from the time of seeding or from the 2nd to 4th day of culture reduced the activity of 20 alpha-SDH measured on day 12 by 61% (P less than 0.001). This finding suggests that the suppression of 20 alpha-SDH by prolactin, hitherto demonstrated only in vivo results from a direct action of the hormone on the luteal cell.

Partial sequencing of the rat steroidogenic acute regulatory protein message from immortalized granulosa cells: regulation by gonadotropins and isoproterenol.

Steroidogenic acute regulatory protein (StAR), a 30-kDa protein involved in the transport of cholesterol to inner mitochondrial membrane during stimulation of steroid hormone biosynthesis, has recently been cloned from human adrenals and MA-10 mouse Leydig tumor cells. We examined the regulation of StAR mRNA accumulation upon induction of steroidogenesis in immortalized rat granulosa cells. Granulosa cells were transfected with SV40 DNA alone (POGS5); with SV40 DNA and Ha-ras oncogene (POGRS1); with SV40 DNA, Ha-ras oncogene and LH/CG receptor (GLHR15) or with FSH receptor (GFSHR17) or with the beta 2-adrenergic receptor (G beta 2AR13) expression plasmids. Cells were cultured to confluency and then stimulated for 24 h with oFSH (4 nM), hCG (2.4 nM), isoproterenol (10 microM) or forskolin (50 microM). By quantitative RT-PCR, StAR mRNA was undetectable in non-steroidogenic cells (transfected with SV40 DNA alone, POGS5) either in the presence or in the absence of forskolin. In contrast, variable amount of the message was detected in all steroidogenic cell lines cotransfected with SV40 DNA and Ha-ras. Moreover, an increase in the StAR mRNA expression was evident in all steroidogenic cells upon stimulation with their respective agonists, concomitantly with enhanced progesterone production. The RT-PCR product was sequenced and the 379 base pairs of rat StAR were found to be 93% and 86% identical to mouse and human cDNA, respectively. The deduced 126 amino acid sequence was 95%, 88% and 88% identical to the mouse, human and bovine deduced protein sequences. We conclude that StAR message is expressed only in the steroidogenic rat granulosa cells and can be upregulated by FSH, hCG, isoproterenol and forskolin in the appropriate cell lines. In addition, we find that the rat StAR cDNA exhibit a high degree of homology with the mouse and human sequences.

Novel genes regulated by gonadotropins in granulosa cells: new perspectives on their physiological functions.

Follicular stimulating hormone (FSH) is a key hormone secreted from the pituitary, which controls the development of the follicle-enclosed oocytes in the mammalian ovary by interacting with specific receptors located exclusively on granulosa cells. Its biological activity involves stimulation of intercellular communication and upregulation of steroidogenesis, yet the entire spectrum of genes which are regulated by FSH are not fully characterized. We have established rat and human FSH responsive granulosa cell lines, which express FSH receptors at 20-times higher rates compared to primary cells. Since the lines are monoclonal, they are expected to have a homogeneous composition of RNA among the entire cell population, which increases the probability of yielding a distinct view of genes modulated by FSH eliminating the possibility of other cell types contamination. Using Affymetrix DNA microarrays to uncover novel FSH-regulated genes, we discovered genes not reported earlier to be regulated by FSH. These include genes coding for (1) proteases; (2) growth factors and cytokines; (3) proteins involved in intercellular communication and connection with the nervous system; (4) protein phosphatases and kinases; (5) anti oxidants and anti-toxicants; (6) G-coupled proteins. These findings can deepen our understanding in the mechanism of FSH action in stimulation of the development of the ovarian follicular cells, in the modulation of ovarian intracellular and intercellular communication and in the process of selection of the dominant follicle. When human granulosa cells, obtained from in vitro fertilization patients were exposed to either hLH- or hFSH stimulation and mRNAs of these cells were analyzed by DNA microarrays, novel genes, similar to those found modulated by FSH in FSH responsive cell lines, were discovered in the human primary cells. This suggests that the immortalized cell systems established in our laboratory could serve as a useful system expanding the spectrum of authentic genes modulated by gonadotropin stimulation in normal ovarian function and in ovarian malfunction.

Association of Ad4BP/SF-1 transcription factor with steroidogenic activity in oncogene-transformed granulosa cells.

Adrenal binding protein 4 (Ad4BP) known also as steroidogenic factor 1 (SF-1) is a cell specific transcription factor regulating all steroidogenic P450 genes and is present exclusively in steroidogenic tissues. In this study, we examined whether Ad4BP expression is affected by oncogene-induced cell transformation. Using a gel shift assay we report here that nuclear extracts of steroidogenic granulosa cell lines, transformed by SV40 DNA and the Ha-ras oncogene show specific binding activity towards an Ad4 recognition sequence oligonucleotide. In contrast, nuclear extracts obtained from granulosa cells transformed with SV40 alone, which lost their steroidogenic activity, did not exhibit any binding to the Ad4 oligonucleotide. Using a specific antibody to Ad4BP, it was demonstrated that only the steroidogenic cell lines, i.e. transfected with SV40 + Ha-ras, expressed significant amount of the protein. No binding activity to the Ad4 oligonucleotide was evident in fibroblasts transformed with the same oncogenes (SV40 + Ha-ras). Steroidogenic activity in SV40 + Ha-ras transformed granulosa cells was markedly elevated following forskolin or follice stimulating factor (FSH) and further augmented by incubation of the cells with dexamethasone. However, no change in Ad4BP expression and binding activity was observed following such stimulations. It is suggested that Ha-ras expression in SV40 transformed granulosa cells can play an important role in restoring Ad4BP expression and activity, which are required for their steroidogenic function. Thus, expression of Ad4BP is essential for steroidogenesis both in primary and in oncogene transformed granulosa cells.

Establishment and characterization of steroidogenic granulosa cells expressing β2-adrenergic receptor: regulation of adrenodoxin and steroidogenic acute regulatory protein by adrenergic agents

Primary granulosa cells obtained from PMSG primed immature rats were triple transfected with SV40 DNA, Ha-ras oncogene and an expression vector containing human beta(2)-adrenergic receptors resulting in granulosa cell lines constitutively expressing the beta(2)-adrenergic receptors. Isoproterenol, a potent adrenergic agent, stimulated both cAMP accumulation and progesterone production in these cells in a dose dependent manner. Responsiveness of these cells was specific only to isoproterenol, while hCG (2.4 nM) and hFSH (2.4 nM) had no effect on steroid production. ED(50) for stimulation of cAMP and progesterone in these cells by isoproterenol was 2x10(-6) M and 7x10(-6) M, respectively. Forskolin also showed a dose dependent stimulation of cAMP and progesterone with ED(50) of 1.5 and 0.35 microg/ml, respectively. Epinephrine at a dose of 10(-5) M elicited maximum response to produce cAMP and progesterone. Isoproterenol induced accumulation of cAMP and progesterone in these cells were inhibited by beta(2)-adrenergic blocker, propranolol with an ED(50) of 6x10(-8) and 7x10(-9) M, respectively, whereas the beta(1)-adrenergic blocker, metoprolol was effective only at a very high concentration (ED(50)>10(-4) and 1.9x10(-5) M for inhibiting isoproterenol induced cAMP and progesterone production, respectively). Induction of steroidogenesis by isoproterenol or forskolin involved de novo synthesis of the cytochrome P450 side chain cleavage (SCC) enzyme complex, as assessed by indirect immunofluorescence staining for adrenodoxin. Western analysis indicate that expression of adrenodoxin is upregulated by forskolin, isoproterenol and adrenalin by 7.8-, 6.9- and 10.8-fold, respectively. The presence of StAR protein was identified by Western blotting. StAR expression was elevated by 8.3-, 2.5- and 4.7-fold upon stimulation with forskolin, isoproterenol and adrenalin, respectively. Thus, this cell line could serve as a good model system to study catecholamine mediated regulation of growth and differentiation of granulosa cells and the role of oncogenes in this process.