Evidence that constitutively active luteinizing hormone/human chorionic gonadotropin receptors are rapidly internalized.

The luteinizing hormone/human chorionic gonadotropin (LH/hCG) receptor, which belongs to the family of G-protein coupled receptors, plays an important role in gonadal steroidogenesis. Substitution of aspartic acid 556 of the LH/hCG receptor with glycine (D556G) creates a constitutively active receptor that activates adenylyl cyclase in the absence of hormone. To examine receptor internalization, human embryonic kidney cells (293 T) expressing wild type (WT) or D556G mutant receptors were incubated with [125I]hCG and subsequently analyzed for cell surface bound and internalized radioactivity. Comparison of the rate constants of internalization of the D556G mutant and WT receptors revealed that the rate of internalization of the D556G mutant was five times greater than that of the WT receptor. Although the D556G receptor internalizes [125I]hCG rapidly, a corresponding increase in [125I]hCG degradation was not seen. The internalization of another constitutively active LH/hCG receptor (aspartic acid 556 to tyrosine) was also greater than that of the WT receptor. Internalization of receptor bound [125I]hCG was inhibited by a hypertonic sucrose solution, confirming that the ligand enters the cell by receptor-mediated endocytosis. Furthermore, the constitutively active D556G and D556Y LH/hCG receptors utilize the arrestin dependent internalization pathway. These results suggest that the active state conformation of the constitutively active receptor is conducive to rapid internalization.     

Functional states of the luteinizing hormone/choriogonadotropin-receptor complex in rat Leydig cells

Three classes of gonadotropins with different ratios of stimulating to binding activities (S/B ratio) in rat Leydig cells have been identified. An S/B ratio of 1 was observed for rat luteinizing hormone (LH), porcine LH, and equine choriogonadotropin (CG) (class I), whereas ovine and equine LH exhibited and S/B ratio of 10-20 (class II) and human CG (hCG) (class III) an S/B ratio of 60. We coined the term "superactivity" to designate this particular behavior. This phenomenon was further studied by comparing the competitive activities of porcine LH (pLH) and hCG in radioreceptor assays using rat Leydig cell membranes and either radiolabeled oLH or hCG as the tracer, in the presence or absence of 150 mM NaCl. At equilibrium, both native hormones were equipotent in competing with 125I-oLH binding, but hCG was 4-fold more potent than pLH when 125I-hCG was used. Moreover, the binding rates of both hormones were considerably diminished in the presence of NaCl, but hCG binding at equilibrium was not affected, whereas that of oLH was almost completely abolished. From these results and previous data on the binding and internalization of these hormones, we suggest the existence of two interconvertible functional states of the hormone-receptor complex: (formula; see text). The equilibrium constant k3/k4 would be extremely high for hCG and lower and lower for the hormones in class II and class I, respectively. The equilibrium constant k1/k2 would be the one affected by the presence of NaCl and seems to be similar for all the hormones tested. The normal activity or superactivity of gonadotropins would thus be primarily dependent on the equilibrium between HR1 and HR2.     

Internalization and recycling of lutropin receptors upon stimulation by porcine lutropin and human choriogonadotropin in porcine Leydig cells

Porcine lutropin (pLH) and human choriogonadotropin (hCG) recognize the same hormonal receptor and elicit the same steroidogenic response in porcine Leydig cells in primary culture. We compared the variation in the number of occupied and free receptors present on the cell surface under short-term stimulation by the two hormones at 35 degrees C. Both hormones produced a rapid dose-dependent decrease in the total number of the gonadotropin receptors present on the cell surface with a half-life of 8-10 min. This decrease was reversible upon hormone removal and receptors were recovered on the cell surface with the same half-life of 8-10 min. With pLH, the receptors were recycled in a free state, but in the presence of hCG the receptors were recycled in an occupied state. This difference could be related to the higher affinity of hCG for the receptor in 150 mM NaCl buffer (Ka = 1.6 X 10(9) for hCG and 1.5 X 10(7) for pLH) and higher stability to acid pH of the hCG-receptor complex (dissociation pK = 3.7 for hCG and 4.5 for pLH).     

Multiple inhibitory effects of a luteinizing hormone-releasing hormone agonist on hCG-dependent steroidogenesis and on FSH-dependent responses in ovarian cells in vivo and in vitro

[125I] labelled [D-Leu6, des-Gly-NH10(2)] LH-RH ethylamide (LH-RHa), when injected into immature female rats, bound specifically not only to the pituitary but also to the ovaries. LH-RHa inhibited hCG-stimulated progesterone production and ovarian weight augmentation in hypophysectomized immature female rats in vivo. FSH-induced ovarian hCG receptors and ovarian weight gain in diethylstilbestrol (DES)-treated hypophysectomized immature female rats were also suppressed by LH-RHa. Progesterone production by rat luteal cells in vitro was inhibited by LH-RHa. LH-RHa did not change the affinity or population of LH/hCG receptor in porcine granulosa cells in short term incubation. However, LH-RHa inhibited induction of LH/hCG receptor stimulated by FSH and insulin in long term culture of porcine granulosa cells. LH-RHa delayed hCG-stimulated cyclic AMP accumulation in porcine granulosa cells. These findings suggest that LH-RHa inhibits hCG-stimulated cyclic AMP accumulation and subsequent progesterone production as well as FSH-stimulated LH/hCG receptor induction by acting directly on ovarian cells.     

Lutropin is processed much more rapidly than human choriogonadotropin by porcine Leydig cells in primary culture

Lutropin (LH) and human choriogonadotropin (hCG) share the same receptor and stimulate testosterone production in porcine Leydig cells in primary culture. Cells were pulsed with [125I]LH or [125I]hCG. During the chase, more than 80% of cell-bound LH consisted in internalized material which was degraded and excreted (half-time: 25 min) NH4Cl largely inhibited this degradation. On the contrary, hCG remained essentially bound to the cell surface and was not degraded by the cells with or without NH4Cl up to 160 min.     

Lutropin is processed much more rapidly than human choriogonadotropin by porcine Leydig cells in primary culture

Lutropin (LH) and human choriogonadotropin (hCG) share the same receptor and stimulate testosterone production in porcine Leydig cells in primary culture. Cells were pulsed with [125I]LH or [125I]hCG. During the chase, more than 80% of cell-bound LH consisted in internalized material which was degraded and excreted (half-time : 25 min) NH4Cl largely inhibited this degradation. On the contrary, hCG remained essentially bound to the cell surface and was not degraded by the cells with or without NH4Cl up to 160 min.     

Conformational restrictions of the sheep testicular receptor discriminates pituitary lutropin and placental gonadotropins

A membrane preparation from the testis of maturing Dorset-Leicester-Suffolk sheep, capable of discriminating pituitary LH (lutropin) from placental gonadotropins human choriogonadotropin (hCG) and equine choriogonadotropin is described. Maximum binding of 125I-oLH (ovine lutropin) to the testicular receptors occurred at 4 degrees C in a rapid manner, attaining equilibrium in 12-16 h. Under such optimal conditions, only unlabeled ovine LH or the structurally identical bovine LH effectively competed for receptor occupation. Other highly purified pituitary LH preparations from rat and human pituitaries were weakly (4-10%) active in displacement assays. Purified hCG or equine choriogonadotropin, which were highly potent in rat testicular LH receptor assays, could not compete with 125I-oLH for binding to the sheep LH receptor at 4 degrees C. Thus, the sheep testicular LH receptor was highly specific in recognizing pituitary LH conformation. The presence of an ovine/bovine LH alpha- or beta-subunit in recombinants with hCG subunit counterparts was required to generate an effective conformation capable of receptor recognition. Chemically deglycosylated hCG, containing 75% less carbohydrate and which showed greater binding to other LH receptors, failed to recognize sheep LH receptor, suggesting that excess carbohydrate in hCG was not a factor in hindering binding of the native placental hormone. Scatchard analysis using 125I-hCG/125I-oLH revealed that there were separate sites with similar affinities but vastly different capacities. The hCG binding sites, which could also be effectively occupied by oLH, were less than 10% of oLH binding sites. Thus, the Dorset-Leicester-Suffolk sheep testicular receptor provides an important and unique in vitro test system to distinguish pituitary LH from placental LH-like hormones. We infer that temperature-dependent conformational restrictions of the sheep testicular LH receptor are involved in recognizing differences in these highly similar and structurally homologous hormones.     

Amino-terminal leucine-rich repeats in gonadotropin receptors determine hormone selectivity.

Recombinant expression of truncated receptors for luteinizing hormone/chorionic gonadotropin (LH/CG) revealed that the amino-terminal leucine-rich repeats 1-8 of the extracellular receptor domain bind human chorionic gonadotropin (hCG) with an affinity (Kd = 0.72 +/- 0.2 nM) similar to that of the native LH/CG receptor (Kd = 0.48 +/- 0.05 nM). LH/CG receptor leucine-rich repeats 1-8 were used to replace homologous sequences in the closely related receptor for follicle stimulating hormone (FSH). Cells expressing such chimeric LH/CG-FSH receptors bind hCG and show elevated cylic AMP levels when stimulated by hCG but not by recombinant human FSH (rhFSH). Similarly, a chimeric LH/CG receptor in which leucine-rich repeats 1-11 originated from the FSH receptor is activated by rhFSH but not by hCG. For this chimera, no residual [125I] hCG binding was observed in a range of 2 pM to 10 nM. Our results demonstrate that specificity of gonadotropin receptors is determined by a high affinity hormone binding site formed by the amino-terminal leucine-rich receptor repeats.     

Surface retention of an inactivating lutropin receptor mutant in exoloop 3

The heptahelical lutropin receptor (LHR) signals primarily via the G_s-adenylyl cyclase pathway and undergoes ligand-mediated receptor desensitization and internalization. A loss-of-function rat LHR mutant was recently described in which a single amino acid residue replacement in exoloop 3, K583E, had no effect on human choriogonadotropin (hCG) binding but essentially abolished signaling. This LHR mutant is a prime candidate for which to study hCG-mediated receptor internalization since it is highly unlikely that an amino acid residue in exoloop 3 , i.e. an extracellular portion of LHR connecting transmembrane helices 6 and 7, could have any direct interaction with G_s, which is located on the cytoplasmic face of the plasma membrane. A method to study endocytosis was adapted that involves concanavalin A binding to the glycoproteins on the cell surface, thus facilitating separation of the plasma membrane fraction from other cellular membrane fractions by sucrose gradient centrifugation. Conditions were used such that a single round of endocytosis could be determined with [¹²⁵I]hCG. Endocytic rate constants of 0.03 and 0 min^-1 were obtained for LHR and the mutant, respectively, in transfected human embryonic kidney 293 cells; moreover, internalization of the mutant could not be restored by the addition of 8-Br-cAMP. Thus, the presence of the second messenger cAMP is not sufficient for internalization of ligand-occupied LHR. Rather, it appears that ligand-mediated activation and subsequent internalization of LHR results from an altered conformational state or a conformation-dependent post-ligand binding modification such as phosphorylation.     

Effect of human chorionic gonadotropin derivatives on leydig cell function.

BACKGROUND: Several human chorionic gonadotropin (hCG) derivatives have been detected in healthy human subjects, indicating that they may play a role in cell function. These hCG derivatives include deglycosylated hCG, proteolytic digestion products of hCG and free alpha and beta subunits of the hormone. It is well documented that testicular Leydig cells are responsive to luteinising hormone (LH) or its analogue hCG. These hormones have high affinity for LH/hCG receptors on the plasma membrane. METHODS: We designed functional and binding studies to compare the effects of native hCG and several hCG derivatives on a rat Leydig cell system. The molecular weight of the hCG derivatives was determined by SDS-PAGE and the binding affinity to LH/hCG receptors was measured by a radioligand assay. In addition, their ability to produce testosterone, cyclic AMP and arachidonic acid release was also studied. RESULTS: These hCG derivatives, with the exception of the free beta subunit, were able to bind to LH/hCG plasma membrane receptors with different affinities than that of native hCG. In addition, hCG derivatives did not increase intracellular cAMP levels or arachidonic acid release. However, they did increase testosterone production. CONCLUSION: Taken together, the results of this study lead us to suggest that these hCG derivatives may regulate the action of the native hormone in Leydig cells and are, thus, molecules of physiological relevance.     

Porcine follicular fluid containing water-soluble LH/hCG receptor

Porcine follicular fluid has been shown to have a specific water-soluble receptor for human chorionic gonadotropin (hCG). The binding of [125I] hCG to follicular fluid is inhibited by unlabelled hCG, LH but not FSH, ACTH and GH. The binding of hormone to the receptor in follicular fluid is a saturable phenomenon and Scatchard analysis suggested that the receptor has high affinity to hCG with no changes as the follicle enlarges. In contrast, follicular fluid from large follicles (6-12 mm) has higher binding capacity (2.04 +/- 0.12 fmol/mg protein) than follicular fluid isolated from medium (3-5 mm) and small (1-2 mm) follicles (0.60 +/- 0.05 and 0.44 +/- 0.04 fmol/mg protein, respectively). With the aid of affinity chromatography on hCG-CNBr-Sepharose 6-B a homogeneous fraction with Mr about 65,000 as estimated by SDS-PAGE was isolated. Treatment of follicular fluid with several protein-modifying reagents changed interactions of [125I] hCG with both soluble receptor and that bound to granulosa cell membrane in the similar manner. The [125I] hCG binding capacity of follicular fluid represents about 9.5% of the total binding capacity of granulosa cells. Finally, soluble LH/hCG receptor is probably secreted actively by follicular cells into follicular fluid. Dead granulosa cells do not release receptor into follicular fluid or incubation medium.     

Labeling of LH/hCG receptor in rat ovaries.

Human chorionic gonadotropin (hCG) was found to stimulate the incorporation of [¹⁴C] N-acetyl-D-glucosamine in rat ovary in vitro. Subcellular fractionation of the ovarian tissue revealed that the plasma membranes were stimulated maximally to the extent of 200 to 300% by the hormone indicating the stimulation of the synthesis of plasma membrane glycoproteins. In addition, and appreciable amount of the radioactivity was incorporated in the cell surface LH/hCG receptor. The evidence in support of the labeling of the receptor was derived from the behavior of the detergent solubilized receptor on Sepharose 6B column and on hCG-Sepharose affinity adsorbent. The labeled receptor thus purified showed binding affinity for [¹²⁵I] hCG. Thus, the hormone stimulates the synthesis of cell surface glycoproteins as well as the LH/hCG receptor.     

Pathways of internalization of the hCG/LH receptor: immunoelectron microscopic studies in Leydig cells and transfected L-cells

Monoclonal anti-receptor antibodies were used to study the cellular traffic of the hCG/LH receptor by immunoelectron microscopy. The LHR38 antibody was shown to bind to the extracellular domain of the receptor but not to interfere with hormone binding, adenylate cyclase activation or with the rate of internalization of the receptor. Pig Leydig cells and a permanent L-cell line expressing the LH receptor were used for the study. Incubation with LHR38-gold complexes showed the LH receptors to be randomly distributed over the cell surface including the clathrin coated pits. The LH receptors were internalized via a route including coated pits, coated vesicles and multivesicular bodies to lysosomes. This route is different from that observed for beta-adrenergic, muscarinic, and yeast mating factor receptors and considered previously as possibly general for G-protein-coupled receptors. The use of [125I]LHR38 allowed precise measurement of the rate of internalization, showing the existence of a constitutive pathway which was increased 11-fold by hormone administration. Double labeling experiments suggested that the hormone (hCG-Au15nm) and the receptor (labeled with LHR38-Au5nm) have similar routes of endocytosis, both of them being degraded in lysosomes. Studies of the reappearance of LHR38-Au5nm on the surface of the cells and the use of monensin indicated that only a very small proportion of the receptor molecules were recycled to the cell surface. The distribution and the intracellular pathways of LH receptors are very similar in Leydig cells and transfected L-cells. This opens the possibility of using the latter to study, by in vitro mutagenesis, the molecular mechanisms involved in the cellular traffic of LH receptors.     

Complete dissociation of gonadotropin receptor binding and signal transduction in mouse Leydig tumour cells. Obligatory role of glycosylation in hormone action.

Utilizing a clonal cell line of mouse testicular Leydig cells (MA-10 cells) the complete steroidogenic and other hormonal properties of chemically deglycosylated ovine lutropin (DG-LH) and human choriogonadotropin (DG-hCG) were evaluated. In these cells, with the LH receptor-steroidogenic mechanism tightly coupled and in which there are few, if any, spare receptors, both DG-LH and DG-hCG failed to elicit progesterone production, unlike fully glycosylated native LH and hCG. The receptor-binding activity of DG-LH and DG-hCG was 2-3 times that of LH and hCG in competition experiments with radiolabelled hormones. The typical phenomenon of rounding of MA-10 cells induced by LH and hCG was absent when cells were incubated with DG-LH or DG-hCG. This could be directly attributable to their failure to produce cyclic AMP as second messenger. DG-LH and DG-hCG inhibited cell shape changes and steroidogenesis caused by LH and hCG. The deglycosylated hormones were potent antagonists of the action of glycosylated hormones. Delaying DG-hCG (antagonist) addition for up to 1 h after initiation of hCG action was also very effective in preventing further activation of steroidogenesis. Similar effects were produced by addition of affinity-purified anti-hCG antibodies. In affinity cross-linking experiments, both hCG and DG-hCG bound to the same 90 kDa receptor. Studies with MA-10 cells thus provide unequivocal evidence that the presence of antennary sugars in LH and hCG (and perhaps in other similar hormones such as follicle-stimulating hormone and thyroid-stimulating hormone), is essential for signal transduction. Differences observed in the literature in other cellular systems may be attributed to differences in hormone-receptor-effector coupling.     

Direct regulating effects of transforming growth factor beta on the Leydig cell steroidogenesis in primary culture

The effect of transforming growth factor beta on testicular steroidogenesis was studied by using a model of immature porcine Leydig cells cultured in a chemically defined medium. Leydig cells were cultured in the presence of human or porcine purified TGF beta and the following parameters were measured: cell proliferation, LH/hCG binding, and hCG-stimulated steroid hormone productions (DHEA, DHEAS and testosterone). Whereas TGF beta from the two sources had no effect on Leydig cell multiplication, it markedly inhibited LH/hCG-stimulated DHEA and DHEAS in a time- and dose-dependent manner. The maximal inhibitory effect of this peptide on LH/hCG binding (65% decrease), hCG-stimulated DHEA (77% decrease) and DHEAS (92% decrease) productions was observed with 2 ng/ml for 48 h of treatment. In contrast, TGF beta exerted a biphasic effect on hCG-stimulated testosterone production: stimulating (110% increase) until 2 ng/ml and inhibiting (35% decrease) for higher concentrations. [125I]TGF beta was cross-linked to Leydig cells using disuccinimidyl suberate; cells affinity labelled with [125I]TGF beta exhibit a major labelled band of approx 280 kDa, which has the properties expected from a TGF beta receptor. These data demonstrate that TGF beta is a direct potent regulator of Leydig cell steroidogenic function and its effects are probably mediated via a specific receptor.     

Comparison of monoclonal luteinizing hormone (LH) receptor antibody and LH binding sites in vibratome sections of rat ovary by immunohistochemistry

To identify luteinizing hormone (LH) receptors, a monoclonal antibody (MAb) was produced by immunization of Balb/c mice with rat luteal cell membranes. Hybridomas, produced by a method for proteins of low antigenicity, were selected by competition with [125I]-hCG (LH) for luteal membrane binding. Conditions for analysis of LH receptor antibody (IgG2b isotype) binding by immunohistochemistry with an avidin-biotin-peroxidase complex were examined and results compared to localization of bound hCG, to detect receptors. By light microscopy, both bound hCG and the LH receptor antibody were located on luteal cell surfaces. In addition, the LH receptor antibody was associated with luteal cell cytoplasm. Cell surface membrane binding, but not cytoplasmic staining, was reduced in ovaries from rats injected with hCG. By electron microscopy, LH receptor antibody was observed in patches on luteal cell surface membranes and was associated with polysomes, small vesicles, and occasionally with discrete areas of endoplasmic reticulum. Therefore, detection of LH receptors with bound hCG may be limited to receptors found on cell surfaces, while additional LH receptors are revealed by use of a receptor antibody. The cytoplasmic LH receptor may represent stages in the processing of receptor protein. Furthermore, the methodology used in this study should be generally useful for immunohistochemistry with other MAb to receptors.     

Lutropin receptors from male and female tissues: different responses to a lutropin receptor binding inhibitor.

An inhibitor for lutropin receptor site binding (LH-RBI), which strongly inhibited the binding of 125I-labeled ovine lutropin ([125I]oLH) to ovarian LH receptors, did not inhibit the [125I]oLH binding to testicular LH receptors. Preincubation of the LH-RBI with [125I]oLH did not affect the binding of preincubated ]125I]oLH to ovarian LH receptors. No inhibition of [125I]oLH binding to testicular LH receptors was observed even uhen the concentration of LH-RBI was significantly increased or when the testicular LH receptors uere first incubated with LH-RBI prior to the addition of [125I]oLH and a second incubation. Scatchard analysis revealed that the dissociation constant of [125I]oLH binding was essentially the same in the presence or absence of LH-RBI. The results suggest that: (i) the lutropin receptor of ovaries, but not of testes, has a specific LH-RBI binding site in addition to the lutropin binding site, and (ii) the binding of the LH-RBI produces an "allosteric" type of inhibition to the binding of lutropin at the lutropin binding site.     

Processing of human choriogonadotropin and its receptors by cultured pig Leydig cells. Role of cyclic AMP and protein synthesis

We have examined the process by which human choriogonadotropin/luteinizing hormone (hCG/LH) receptors are regulated in cultured porcine Leydig cells. Treatment of Leydig cells with human choriogonadotropin, cholera toxin, forskolin and cyclic 8-bromoAMP (8-BrcAMP) produced a loss of surface receptors without modification of the binding affinity. This negative regulation of the number of receptors mediated by maximal concentrations of hCG was higher than that induced by the other agents. The extent of receptor loss in cells treated with increasing concentrations of hCG was highly correlated with their capacity to stimulate cAMP production. However, there was little correlation between down-regulation and cAMP production of these cells treated by hCG plus forskolin or cholera toxin plus forskolin, where a synergistic cAMP production was obtained. Following exposure of Leydig cells to both hCG and 8-BrcAMP, the surface receptor disappearance began after an initial lag period of about 6-8 h. Thereafter a 50% loss of surface receptor was observed in the next 8-h incubation. Monensin with hCG shortens this lag period before initiation of receptor loss. Kinetic studies with 125I-hCG, in the presence or absence of monensin, showed that the half-life of the receptor-bound hormone complexes at the cell surface was 10.5 h and 8 h respectively. Therefore, the steady state of the surface receptor during the lag phase of 8 h is probably related to recycling of internalized receptors and/or translocation of performed receptors. Cycloheximide and actinomycin D inhibit hCG-mediated and 8-BrcAMP-mediated down-regulation. Cycloheximide lengthens ligand-receptor complexes at the surface by slowing down the rate of internalization (half-life of 20 h), but this mechanism is not enough per se to explain the effect of cycloheximide. Pulses of hCG or 8-BrcAMP for 4 h and 8 h sufficed to induce nearly maximal down-regulation. However, it was possible to attenuate this triggering effect by adding cycloheximide after pulse of the cells. Thus, even after removal of the triggering agent (hCG or 8-BrcAMP), the loss of surface receptor could be triggered by a protein-sensitive signal. Taken as a whole these results indicate that a coordinated interaction is involved in the cell-surface hCG/LH receptor regulation. The apparent steady state of the number of receptors during the first hours of stimulation passed through a reuptake of internalized receptors.(ABSTRACT TRUNCATED AT 400 WORDS)