A model system for the biochemical study of luteinizing hormone/chorionic gonadotropin receptor synthesis

A model system for the biochemical study of LH/CG receptor synthesis has been developed. Culture conditions for porcine granulosa cells were adapted that maximized the selective induction of LH/CG receptors by cAMP-inducing stimuli with an elimination of background LH/CG receptor appearance. It was found that the addition of FSH (1.5 μg/ml) or cholera toxin (10 ng/ml) 1 day after plating resulted in optimal induction of the LH/CG receptor (20–60 pg [¹²⁵I]CG bound/μg DNA 72 h after addition) with virtually no LH/CG receptor appearance in the absence of added stimuli. Later additions of FSH or cholera toxin required insulin (1.0 μg/ml) which alone caused background LH/CG receptor appearance in the absence of any additional stimuli. Furthermore, insulin increased the general rate of cellular protein synthesis, whereas FSH or cholera toxin each decreased it. Thus, the use of FSH or cholera toxin, without insulin, may enable one to detect the synthesis of the LH/CG receptor by metabolic labeling techniques where background protein synthesis has been lowered.     

Tumor necrosis factor-alpha inhibits follicle-stimulating hormone-induced differentiation in cultured rat granulosa cells

We have investigated the effects of TNF-alpha on FSH-induced LH receptor expression, cAMP and progesterone production in cultured rat granulosa cells. TNF-alpha (0.5-100 ng/ml) inhibits the stimulating action of FSH on LH receptor formation in a dose-dependent manner with an IC50 of 1 ng/ml and an almost complete suppression of LH receptor induction for 50-100 ng/ml TNF-alpha. The inhibitory effect of TNF-alpha is not due to variations in cell number or viability but rather to a reduction of the LH receptor content per cell with no change in binding affinity (KD = 0.8 x 10(-10)M). TNF-alpha also inhibits the FSH-induced cAMP production but at a lower extent, with a maximum reduction of 60% for 100 ng/ml TNF-alpha. Moreover, TNF-alpha impairs the LH receptor formation induced by forskolin, cholera toxin or 8-Bromo-cAMP, indicating that the cytokine also acts at a step distal to FSH receptor and to cAMP formation. Finally, TNF-alpha decreases dramatically the progesterone synthesis that is stimulated by FSH, with a reduction to undetectable levels on and after 10 ng/ml TNF-alpha. These results suggest that TNF-alpha may drastically reduce the capacity of granulosa cells to differentiate upon FSH stimulation and to respond to LH during the physiological ovarian follicular maturation. Such anti-gonadotropic action of TNF-alpha on granulosa cell differentiation may be also relevant to the alteration of ovarian function during physiopathological processes like inflammatory or infection diseases.     

Characterization of the homologous and heterologous desensitization of rat Leydig-tumour-cell adenylate cyclase.

The homologous and heterologous desensitization of rat Leydig-tumour-cell adenylate cyclase induced by lutropin (LH) was characterized with the aid of forskolin and cholera toxin. Forskolin stimulated cyclic AMP production in a dose-dependent manner, with linear kinetics up to 2h. Forskolin also potentiated the action of LH on cyclic AMP production, but was only additive with cholera toxin. Preincubation of rat Leydig tumour cells with LH (1.0 micrograms/ml) for 1 h produced a desensitization of the subsequent LH (1.0 micrograms/ml)-stimulated cyclic AMP production, whereas the responses to cholera toxin (5.0 micrograms/ml), forskolin (100 microM), LH plus forskolin or cholera toxin plus forskolin were unaltered. In contrast, preincubation with LH for 20h produced a desensitization to all the stimuli tested. When rat Leydig tumour cells were preincubated for 1h with forskolin or dibutyryl cyclic AMP, the only subsequent response that was significantly altered was that to LH plus forskolin after preincubation with forskolin. However, preincubation for 20h with forskolin or dibutyryl cyclic AMP induced a desensitization to all stimuli subsequently tested. LH produced a rapid (0-1h) homologous desensitization, which was followed by a slower (2-8h)-onset heterologous desensitization. Forskolin and dibutyryl cyclic AMP were only able to induce heterologous desensitization. The rate of desensitization induced by either forskolin or dibutyryl cyclic AMP was similar to the rate of heterologous desensitization induced by LH. These results demonstrate that in purified rat Leydig tumour cells LH produces an initial homologous desensitization of adenylate cyclase that involves a cyclic AMP-independent lesion at or proximal to the guanine nucleotide regulatory protein (G-protein). This is followed by heterologous desensitization, which can also be induced by forskolin or dibutyryl cyclic AMP, thus indicating that LH-induced heterologous desensitization of rat Leydig-tumour-cell adenylate cyclase involves a cyclic AMP-dependent lesion that is after the G-protein.     

Discordance in the effects of interleukin-1 on rat granulosa cell differentiation induced by follicle-stimulating hormone or activators of adenylate cyclase

Recombinant human interleukin-1 (IL-1) inhibits the follicle-stimulating hormone (FSH)-induced development of luteinizing hormone (LH) receptors and suppresses progesterone secretion in cultured rat granulosa cells. Since activation of adenylate cyclase by FSH is considered to be the primary second messenger system responsible for differentiation of granulosa cells, we examined whether IL-1 could alter the FSH, cholera toxin, or forskolin-induced accumulation of cyclic adenosine 3', 5'-monophosphate (cAMP) from these cells. In addition, we sought to determine if IL-1 could influence differentiation induced by the cAMP analog, 8-bromo cAMP. Cells collected from ovaries of immature, diethylstilbestrol-treated rats were stimulated to differentiate by addition of FSH, cholera toxin, forskolin, or 8-bromo cAMP to the cultures. IL-1 or interleukin-2 (IL-2) was added to some of the tubes, and the primary cultures were incubated for various periods of time. At the end of the culture, the tubes were centrifuged, the medium was saved for progesterone and cAMP radioimmunoassay, and the cells were assayed for specific 125I-human chorionic gonadotropin (hCG) binding to determine the number of LH receptors. In the presence of FSH, IL-1, at a dose as small as 5 ng/ml, but not IL-2, significantly inhibited LH receptor formation and suppressed progesterone secretion in a dose-related manner. IL-1 also significantly suppressed FSH-induced cAMP accumulation after 72 h of incubation but did not appear to do so in a dose-related fashion. In the presence of FSH, IL-1 did not significantly alter the protein content of granulosa cells at the end of culture. During stimulation of granulosa cells with cholera toxin, forskolin, or 8-bromo cAMP, IL-1 significantly reduced LH receptor formation compared to that observed in the absence of IL-1. However, in contrast to IL-1 in the presence of FSH, IL-1 significantly augmented the forskolin-induced secretion of progesterone and accumulation of cAMP after 72 h at subsaturating doses of forskolin. Thus, IL-1 appeared to inhibit forskolin-induced and cholera toxin-induced formation of LH receptors even when cAMP levels were elevated. Similar to forskolin, 8-bromo cAMP-stimulated progesterone secretion was significantly enhanced by IL-1, but LH receptor formation was inhibited. Over a 72-h time course at single doses of FSH or forskolin, IL-1 did not affect cAMP accumulation until 48 h of culture, at which time IL-1 significantly suppressed FSH-induced, but augmented forskolin-induced, accumulation of cAMP.(ABSTRACT TRUNCATED AT 400 WORDS)     

Follicular fluid modulation of functional LH receptor induction in pig granulosa cells

Follicular fluid was collected from small (1-2 mm), medium (3-5 mm) and large (6-12 mm) follicles of pigs, treated with charcoal to remove steroids, and tested for effects on the induction of functional LH/hCG receptors in cultures of granulosa cells from small antral pig follicles. Granulosa cells were cultured for 2, 4 or 6 days in Medium 199 + 10% pig serum. Granulosa cells cultured in the presence of purified human FSH (0.1 microgram/ml, LER 8/117), insulin (1 mU/ml), cortisol (0.01 microgram/ml) and thyroxine (10(-7) M) accumulated a 4- to 8-fold increase in LH/hCG receptors compared to control cultures. The amounts of cyclic AMP and progesterone secreted after exposure to ovine LH (1 microgram/ml: NIH-S19) were also increased 2-3-fold and 80-100-fold, respectively. Exposure to FSH alone resulted in lower amounts of LH/hCG receptors with a concomitant decrease in optimum LH responses. Addition of 12.5-50% follicular fluid obtained from small (1-2 mm) follicles led to a dose-dependent inhibition of the FSH plus insulin, cortisol and thyroxine induction of LH/hCG receptors after 4 days of culture. Fluid from medium follicles showed reduced ability to inhibit LH/hCG receptor induction, and fluid from large follicles exerted only a slight inhibition or no inhibition of receptor induction. Fluid from medium-sized and large follicles exerted a progressive dose-dependent stimulation of progesterone secretion by the granulosa cell cultures. The inhibitory activity was precipitated primarily with 70% ethanol and to a lesser degree by 36 and 90% ethanol. These studies demonstrate that induction of functional LH/hCG receptors in cultures of pig granulosa cells from immature follicles is enhanced by including insulin, cortisol and thyroxine, in addition to FSH, in the culture medium, and that follicular fluid modulates both receptor induction and progesterone secretion as a function of follicular maturation.     

Effects of partially and more highly purified platelet-derived growth factor preparations on luteinizing hormone receptor induction in granulosa cell cultures

The effects of partially and more highly purified platelet-derived growth factor (PDGF) preparations on luteinizing hormone (LH) receptor induction by follicle-stimulating hormone (FSH) and cholera toxin (CTX) were studied in cultured granulosa cells from immature, diethylstilbestrol-primed rats. Partially purified PDGF, prepared by carboxymethyl Sephadex C-50 chromatography (CMS-PDGF), and more highly purified PDGF, further purified by Cibacron Blue Sepharose chromatography (BS-PDGF), enhance FSH-dependent LH receptor induction in serum-free and in serum-containing medium. BS-PDGF is more potent than CMS-PDGF, and is relatively more efficacious in serum-free and less efficacious in serum-containing medium than CMS-PDGF. CMS-PDGF and BS-PDGF enhance LH receptor induction by CTX in serum-containing medium, but levels achieved are significantly less than those attained with FSH and CMS- or BS-PDGF. BS-PDGF does not enhance induction by CTX in serum-free medium. The results suggest that the action of PDGF to enhance LH receptor induction is complex and may represent actions of several components of PDGF preparations. These findings may also provide indirect evidence for a component of FSH action which is independent of cAMP.     

Regulation of rat proximal tubule epithelial cell growth by fibroblast growth factors, insulin-like growth factor-1 and transforming growth factor-beta, and analysis of fibroblast growth factors in rat kidney.

Growth factors may play an important role in regulating the growth of the proximal tubule epithelium. To determine which growth factors could be involved, we have investigated the mitogenicity of various purified factors in rat kidney proximal tubule epithelial (RPTE) cells cultured in defined medium. Fibroblast growth factors, aFGF (acidic FGF) and bFGF (basic FGF), stimulate DNA synthesis in a dose-dependent manner, with ED50 values of 4.5 and 3.2 ng/ml, respectively; their effects are not additive. With cholera toxin in the medium, both aFGF and bFGF can replace insulin or epidermal growth factor (EGF) to attain the maximum level of cell growth, but they cannot replace cholera toxin. Cholera toxin specifically potentiates the effects of FGFs on DNA synthesis. At high cell density, both insulin and insulin-like growth factor 1 (IGF-1) induce DNA synthesis more effectively than EGF, FGFs and cholera toxin. The high concentration (0.2-1.0 microgram/ml) of insulin required for cell growth can be replaced by a low concentration of IGF-1 (10-20 ng/ml), indicating that insulin probably acts through a low affinity interaction with the IGF-1 receptor. Transforming growth factor-beta 1 (TGF-beta 1) inhibits DNA synthesis induced by individual factors and combinations of factors in a concentration-dependent manner. Northern blot analysis shows that mRNA for TGF-beta 1, IGF-1, and aFGF, but not bFGF are present in rat kidney. Western blot analysis and bioassay data confirmed that the majority of FGF-like protein in rat kidney is aFGF. The data suggest that in addition to EGF, IGFs, and TGF-beta, FGFs may also be important kidney-derived regulators of proximal tubule epithelial cell growth in vivo and in vitro.     

Characterization and serial propagation of mouse prostate epithelial cells in serum-free medium

Epithelial cell cultures derived from the ventral prostate of normal adult mice have been propagated in serum-free medium. The cultures were initiated and maintained in Ham's F-12 nutrient mixture supplemented with insulin (5 micrograms/ml), EGF (10 ng/ml), hydrocortisone (0.5 micrograms/ml), cholera toxin (10 ng/ml), bovine pituitary extract (25 micrograms protein/ml) and antibiotics. The cells exhibited microvilli on cell surfaces, interdigitations and junctional complexes including desmosomes between cells, and cytokeratins in cytoplasm which are characteristic of epithelial cells. In addition, the cells exhibited the tissue-specific markers, prostatic acid phosphatase and prostate-specific antigen.     

Autocrine role of estrogens in the augmentation of luteinizing hormone receptor formation in cultured rat granulosa cells

The effects of estrogens on gonadotropin-stimulated luteinizing hormone (LH) receptor formation were examined in primary cultures of rat granulosa cells. Granulosa cells were cultured for 3 days with increasing concentrations of follicle-stimulating hormone (FSH) in the presence or absence of native and synthetic estrogens. Follicle-stimulating hormone stimulated LH receptor formation in a dose-dependent fashion, and estrogens enhanced the FSH-stimulated LH receptor content by decreasing the apparent ED50 of FSH. At 6.25 ng/ml FSH, the enhancement in LH receptor was estrogen dose dependent, with an ED50 value of about 3 X 10(-9) M for 17 beta-estradiol. The increased LH receptor content seen in cells treated with FSH and estrogen was correlated with increased cAMP production by these cells in response to LH stimulation. Time course studies revealed enhancement of FSH-stimulated LH receptor induction at 48 and 72 h of culture. Granulosa cells were also cultured with FSH for 2 days to induce functional LH receptors, then further cultured for 3 days with LH in the presence or absence of estrogens. At 30 ng/ml LH, increasing concentrations of estrogens maintained LH receptor content in a dose-dependent fashion, with their relative estrogenic potencies in keeping with reported binding affinities to estrogen receptors. An autocrine role of estrogens on LH receptor formation was further tested in granulosa cells treated with FSH and an aromatase substrate (androstenedione) to increase estrogen biosynthesis. Cotreatment with semipurified estrogen antibodies partially blocked the FSH stimulation of LH receptors, whereas nonimmune serum was ineffective. Also, inclusion of diethylstilbestrol prevented the inhibitory effect of the estrogen antibodies. Thus, local estrogens in ovarian follicles may play an autocrine role in granulosa cells to enhance LH receptor formation and to increase granulosa cell responsiveness to the LH surge, with subsequent ovulation and adequate corpus luteum formation.     

Metabolic responses of Sertoli cells in culture to various concentrations of follicle stimulating hormone and cholera toxin.

The concentration of cholera toxin required for half-maximal stimulation of cAMP production by Sertoli cell enriched cultures (4.48 X 10(2) microgram/ml) is greater than that required for half-maximal stimulation of 17beta-estradiol synthesis from testosterone (2.34 X 10(-4) microgram/ml), [3H]thymidine incorporation into DNA (1.48 X 10(-5) microgram/ml), or androgen binding protein production (2.43 X 10(-6) microgram/ml). The same relative dose response hierarchy was obtained with respect to stimulation of Sertoli cells with follicle stimulating hormone (FSH) preparations. Again, highest concentrations were required to elicit maximal cAMP production. The data are discussed in relation to an apparent paradox: If cAMP is the mediating 'second messenger' following stimulation by FSH or cholera toxin, why should highest concentrations of these agents be required to elicit 50% of maximal cAMP levels?     

Regulation of apolipoprotein E synthesis in rat ovarian granulosa cells

Apoprotein E (apo-E) is a surface component of several classes of plasma lipoproteins. It functions as a ligand for receptor-mediated uptake of lipoproteins. Granulosa cells from ovaries of diethylstilbestrol-stimulated hypophysectomized immature rats cultured in serum-free medium with [35S]methionine secretes a 34-kDa protein which reacts with a monospecific anti-rat apo-E antibody and represents 0.2% of total secreted protein. Protease mapping confirms that this protein is apoprotein E. The secreted apoprotein E may be complexed with lipid since it floats in the ultracentrifuge at density less than 1.21 micrograms/ml. Freshly isolated granulosa cells contain receptors for follicle stimulating hormone (FSH) but not for human chorionic gonadotropin (hCG) or prolactin. Apoprotein E secretion is stimulated 2-fold by FSH, but hCG and prolactin have no effect. When granulosa cells develop hCG and prolactin receptors after 48 h of culture with FSH, apoprotein E secretion is not stimulated by addition of FSH, hCG, or prolactin although steroidogenesis is induced. The addition of 10(-7) M androgen plus FSH stimulates a marked increase in progestin synthesis over FSH alone, but androgen has little added effect on apoprotein E secretion. Cholera toxin (1.25 micrograms/ml) and dibutyryl cAMP (5 mg/ml), both of which increase intracellular cAMP, stimulate apo-E secretion 9-fold and 12-fold, respectively. The dibutyryl cAMP effect is dependent on both dose (greater than or equal to 0.5 mg/ml required) and time (onset at 24 h, maximum at 48 h, and back to near baseline at 96 h). Isobutylmethylxanthine, a phosphodiesterase inhibitor, augments FSH-stimulated apoprotein E synthesis 2.5-fold, supporting a role for cAMP in mediating the FSH effect. This is the first demonstration of the hormonal regulation of apoprotein E synthesis in an extrahepatic tissue.     

Activation of the luteinizing hormone/choriogonadotropin hormone receptor promotes ADP ribosylation factor 6 activation in porcine ovarian follicular membranes.

Previously we demonstrated in a cell-free ovarian follicular plasma membrane model that agonist-dependent desensitization of the luteinizing hormone/choriogonadotropin receptor (LH/CG R) is GTP-dependent, mimicked by the addition of ADP-ribosylation factor (ARF) nucleotide binding site opener, which acts as a guanine nucleotide exchange factor for ARFs 1 and 6, and selectively inhibited by synthetic N-terminal ARF6 peptides. We therefore sought direct evidence that activation of the LH/CG R promotes activation of ARF1 and/or ARF6. Using a classic ARF activation assay, the cholera toxin-catalyzed ADP-ribosylation of G alpha(s), results show that LH/CG R activation stimulates an ARF protein by a brefeldin A-independent mechanism. Synthetic N-terminal inhibitory ARF6 but not ARF1 peptide blocks LH/CG R-stimulated ARF activity. LH/CG R activation also promotes the binding of a photoaffinity GTP analog to a protein that migrates on one- and two-dimensional polyacrylamide gel electrophoresis with ARF6. These results suggest that ARF6 is the predominant ARF activated by the LH/CG R. To activate ARF6, the LH/CG R does not appear to signal through the C-terminal regions of G alpha(i) or G alpha(q) or through the second or third intracellular loops or the N terminus of the cytoplasmic tail of the LH/CG R. Although exogenous recombinant ARNO promotes only a small increase in ARF6 activation in the presence of activated LH/CG R, hCG-stimulated ARF6 activation is reduced to basal levels by catalytically inactive ARF nucleotide binding-site opener. These results provide direct evidence that LH/CG R activation leads to the activation of membrane-delimited ARF6.     

cAMP-independent effects of cholera toxin on B cell activation. I. A possible role for cell surface ganglioside GM1 in B cell activation

Cholera toxin has been used as a tool to study the effects of cAMP on the activation of B cells but may have effects independent of its ability to elevate cAMP. We found five lines of evidence which suggested that cholera toxin suppressed mitogen-stimulated B cell activation through a cAMP-independent pathway. 1) Cholera toxin (1 microgram/ml) was consistently more suppressive than forskolin (100 microM) despite the induction of higher intracellular cAMP levels by forskolin. 2) Cholera toxin was more suppressive at 1 microgram/ml than at 0.1 microgram/ml despite equivalent elevations of cAMP. 3) Washing B cells following their incubation with cholera toxin reversed much of the inhibition without altering intracellular cAMP levels. 4) The A subunit of cholera toxin, which at high concentrations (10 micrograms/ml) induced levels of cAMP comparable to those induced by cholera toxin (1 and 0.1 microgram/ml), did not inhibit B cell activation. 5) cAMP derivatives at high concentrations were much less effective than was cholera toxin in suppressing B cell activation. Although the elevation of cAMP may cause a mild inhibition of B cell proliferation, we found that even a marked elevation of cAMP did not suppress B cell proliferation, unless the elevation was persistent. We did, however, observe that the degree of toxin inhibition more closely paralleled binding of the toxin to B cells than toxin stimulation of cAMP. This result raised the possibility that binding of cholera toxin to its ganglioside GM1 receptor mediated an inhibitory signal which suppressed B cell proliferation.     

Inhibition of choriogonadotropin-activated steroidogenesis in cultured Leydig tumor cells by the Rp diastereoisomer of adenosine 3',5'-cyclic phosphorothioate

The diastereoisomers of adenosine 3',5'-cyclic phosphorothioate, (Sp)-cAMPS and (Rp)-cAMPS, have been previously shown to act as agonists and antagonists, respectively, in the activation of several mammalian cAMP-dependent protein kinases. In an effort to characterize further the involvement of cAMP in the activation of Leydig cell steroidogenesis by lutropin/choriogonadotropin (LH/CG), we examined the effects of these cyclic nucleotide analogues on a clonal strain of cultured murine Leydig tumor cells (designated MA-10). Our results show that (i) (Sp)-cAMPS activates and (Rp)-cAMPS inhibits the isolated cAMP-dependent protein kinase of the MA-10 cells; (ii) both analogues inhibit the isolated cAMP phosphodiesterase(s); (iii) (Sp)-cAMPS activates steroid biosynthesis in intact cells, but (Rp)-cAMPS does not; and (iv) (Rp)-cAMPS is a competitive inhibitor of the activation of steroidogenesis by (Sp)-cAMPS, 8-bromo-cAMP, human CG, cholera toxin, and forskolin. However, (Rp)-cAMPS is a more effective inhibitor when steroidogenesis is activated by (Sp)-cAMPS or 8-bromo-cAMP than when it is activated by human CG, cholera toxin, or forskolin. This difference appears to be related to the combined effects of (Rp)-cAMPS on the cAMP-dependent protein kinases and cAMP phosphodiesterase(s). We conclude that cAMP is a quantitatively important mediator of the activation of steroidogenesis by LH/CG even at low concentrations of hormone where an increase in steroid biosynthesis cannot be easily correlated with increased cAMP accumulation. Thus, our data indicate that if other second messengers are involved in the activation of steroidogenesis by LH/CG, they must do so by acting together with, rather than independently of, cAMP.     

Hexose transport stimulation and membrane redistribution of glucose transporter isoforms in response to cholera toxin, dibutyryl cyclic AMP, and insulin in 3T3-L1 adipocytes

Exposure of 3T3-L1 adipocytes to 100 ng/ml of cholera toxin or 1 mM dibutyryl cyclic AMP caused a marked stimulation of deoxyglucose transport. A maximal increase of 10- to 15-fold was observed after 12-24 h of exposure, while 100 nM insulin elicited an increase of similar magnitude within 30 min. A short term exposure (4 h) of cells to cholera toxin or dibutyryl cyclic AMP resulted in a 3- to 4-fold increase in deoxyglucose transport which was associated with significant redistribution of both the HepG2/erythrocyte (GLUT1) and muscle/adipocyte (GLUT4) glucose transporters from low density microsomes to the plasma membrane fraction. Total cellular amounts of both transporter proteins remained constant. In contrast, cells exposed to cholera toxin or dibutyryl cyclic AMP for 12 h exhibited elevations in total cellular contents of GLUT1 (but not GLUT4) protein to about 1.5- and 2.5-fold above controls, respectively. Although such treatments of cells with cholera toxin (12 h) versus insulin (30 min) caused similar 10-fold enhancements of deoxyglucose transport, a striking discrepancy was observed with respect to the content of glucose transporter proteins in the plasma membrane fraction. While insulin elicited a 2.6-fold increase in the levels of GLUT4 protein in the plasma membrane fraction, cholera toxin increased the amount of this transporter by only 30%. Insulin or cholera toxin increased the levels of GLUT1 protein in the plasma membrane fraction equally (1.6-fold). Thus, a greater number of glucose transporters in the plasma membrane fraction is associated with transport stimulation by insulin compared to cholera toxin. We conclude that: 1) at early times (4 h) after the addition of cholera toxin or dibutyryl cyclic AMP to 3T3-L1 adipocytes, redistribution of glucose transporters to the plasma membrane appears to contribute to elevated deoxyglucose uptake rates, and 2) the stimulation of hexose uptake after prolonged treatment (12-18 h) of cells with cholera toxin may involve an additional increase in the intrinsic activity of one or both glucose transporter isoforms.     

Cholera toxin differentially decreases membrane levels of alpha and beta subunits of G proteins in NG108-15 cells

Treatment of NG108-15 neuroblastoma x glioma cells (24 h) with cholera toxin (0.1-10 micrograms/ml) resulted in a concentration-dependent reduction of the membrane levels of subunits of GTP-binding regulatory proteins (G proteins), as determined by quantitative immunoblot procedures. The extent of reduction differed for different types of subunits: the levels of Go alpha and G beta 1 were reduced by 40-50%, whereas those of G alpha common immunoreactivity and Gi2 alpha were only reduced by 10-20% following treatment with 10 micrograms/ml cholera toxin. This effect of the toxin could not be mimicked by incubation with the resolved B oligomer of cholera toxin, nor by exposure of cells to agents able to raise the intracellular levels of cAMP. Basal adenylate cyclase was stimulated in a biphasic manner by cholera toxin, being stimulated at low concentrations (0.01-10 ng/ml) and then decreased at high (0.1-10 micrograms/ml) concentrations. Thus, the down regulation of G-protein subunits produced by cholera toxin requires its (ADP-ribosyl)transferase activity but does not result from a cAMP-mediated mechanism. The toxin-mediated decrease of Go alpha in the membrane was correlated with a diminution of opioid-receptor-mediated stimulation of high-affinity GTPase activity, suggesting that opioid receptors interact with Go in native membranes of NG108-15 cells. Northern-blot analysis of cytoplasmic RNA prepared from cells treated with cholera toxin showed that the levels of mRNA coding for G beta 1 did not change. Thus, the cholera-toxin-induced decrease of G-protein subunits may not result from an alteration in mRNA levels, but may involve a direct effect of the toxin on the process of insertion and/or clearance of G proteins into and/or from the membrane. These data indicate that cholera toxin, besides catalyzing the ADP-ribosylation of Gs and Gi/Go types of G proteins, can also reduce the steady state levels of Go alpha and G beta 1 subunits in the membrane and thus alter by an additional mechanism the function of inhibitory receptor systems.     

Lutropin/choriogonadotropin down-regulates its receptor by both receptor-mediated endocytosis and a cAMP-dependent reduction in receptor mRNA.

Using MA-10 Leydig tumor cells as a model system we have examined the possibility that the lutropin/choriogonadotropin (LH/CG)-induced down-regulation of the LH/CG receptor is accompanied by changes in LH/CG receptor mRNA. We show that LH or CG are indeed capable of reducing the levels of LH/CG receptor mRNA, but that the time course and magnitude of the reduction in receptor mRNA are such that this phenomenon cannot account entirely for the down-regulation of the receptor. In fact, we estimate that LH/CG can reduce the number of LH/CG receptors by at least 80% with little or no change in the levels of LH/CG receptor mRNA. These data are consistent with our previous hypothesis that the LH/CG-induced down-regulation of the LH/CG receptor is primarily due to an increase in the rate of degradation of the receptor that occurs as a result of the receptor-mediated endocytosis of LH/CG. Our studies also show that the LH/CG-induced down-regulation of the LH/CG receptor mRNA is mediated by cAMP. Thus, addition of 8-bromo-cAMP to MA-10 cells leads to a similar reduction in the levels of LH/CG receptor and receptor mRNA; while deglycosylated human CG, a hormone derivative that binds to the LH/CG receptor but has a reduced ability to stimulate cAMP synthesis, does not reduce the levels of LH/CG receptor mRNA. Last, human CG or 8-bromo-cAMP are unable to reduce LH/Cg receptor mRNA in a mutant MA-10 cell line that express a cAMP-resistant phenotype.     

Effect of insulin-like growth factor I and its interaction with gonadotropins on in vitro maturation and embryonic development,cell proliferation,and biosynthetic activity of cumulus-oocyte complexes and granulosa cells in buffalo

In this study we have examined the effect of insulin like growth factor I (IGF-I) and its interaction with gonadotropins in the presence or absence of granulosa cell coculture on in vitro oocyte maturation (IVM) and their subsequent embryonic development in buffalo. We also have examined the role of IGF-I alone or in combination with gonadotropins on DNA synthesis, steroidogenesis, and protein synthesis of cumulus-oocytes complexes (COCs) and granulosa cells. Results showed that IGF-I stimulates oocytes maturation in a dose-dependent manner, with maximal effect at a dose of 100 ng/ml (P < 0.05). IGF-I showed positive interaction with follicle-stimulating hormone (FSH) in the presence or absence of granulosa cells on meiotic maturation and synergistically enhanced DNA synthesis, protein synthesis, and steroidogenesis in the presence of granulosa cells. This synergistic effect is mainly caused by the increase of IGF-I receptors in granulosa cells by FSH, as evident by [¹²⁵I]IGF-I binding study. Luteinizing hormone (LH), however, was found to suppress IGF-I and IGF-I + FSH stimulated oocyte maturation. Addition of LH to cultures containing IGF-I + FSH, on the contrary, caused a significant increase in oocyte maturation when cocultured with granulosa cells. Addition of IGF-I during IVM significantly improve cleavage and blastocyst development rate over the control group. However, there was no cumulative effect when IGF-I and gonadotropins were present together. Addition of granulosa cells during IVM, however, enhanced blastocyst development in the IGF-I + FSH and IGF-I + FSH + LH groups. Our results demonstrated that IGF-I is a major follicular factor responsible for stimulating oocyte maturation in the buffalo. Interaction between IGF-I and FSH suggests that they seem to act synergistically as an autocrine and paracrine regulator of granulosa cells and therefore together promote mitosis, steroidogenesis, and protein synthesis. Mol. Reprod. Dev. 49:277–285, 1998. © 1998 Wiley-Liss, Inc.