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.     

Some biological properties of human chorionic follicle stimulating hormone.

The biological properties of human chorionic FSH (hCFSH) for rat ovaries were investigated. Highly purified hCFSH had similar response to the ovarian augmentation test as bovine FSH and significantly enhanced 3H-thymidine uptake by granulosa cells and theca cells in the ovary of hypophysectomized rat. In contrast, highly purified hCG little responded to the ovarian augmentation test and had no effect on 3H-thymidine uptake by the ovary. These results indicate that hCFSH may promote the follicular growth of ovary resulting from granulosa cell proliferation and its enlargement. In addition, freshly harvested porcine granulosa cells were employed in an in vitro system to investigate specific binding of hCFSH to ovarian receptor. Radioiodinated hCFSH (125I-hCFSH) and hCG (125I-hCG) were respectively incubated with cell suspensions. Binding of these hormone preparations was proportional to the cell number and increased with the time of incubation through 120 minutes. The binding ability of 125I-hCFSH to the cells was greater than that of 125I-hCG. Increasing concentrations of unlabeled hCFSH in the incubation mixture progressively inhibited the uptake of 125I-hCFSH by granulosa cells. Unlabeled hCG was not able to compete with 125I-HCFSH binding. The similar phenomenon to inhibit the binding of 125I-hCG to the cells was also recognized in the presence of unlabeled hCG. These findings suggest that granulosa cell has at least two different types of receptor sites: one for hCFSH and the other for hCG.     

Distribution of binding sites for human chorionic gonadotropin in the preovulatory follicle of the rat

The distribution of binding sites for human chorionic gonadotropin (hCG) in the preovulatory follicle was studied by autoradiography. An ovulatory dose (10 IU/rat) of [125I]hCG (1.4 muCi/IU) was administered intravenously, and large Graafian follicles were isolated 3 h later by microdissection. Injection of excess unlabeled hCG (500 IU/rat) prevented uptake of radioactivity by the follicle, indicating that binding of iodinated hormone was confined to specific and saturable receptor sites. The density of bound hormone molecules was highest in the theca interna and in three to four layers of mural granulosa cells adjacent to the basement membrane; labeling was chiefly associated with the cell borders. No significant binding could be detected either on the oocyte or on the cumulus cells surrounding the oocyte. We therefore suggest that the induction of ovum maturation does not require attachment of the hormone to the oocyte itself or to follicle cells in its immediate vicinity.     

Different processing of LH/hCG receptors in cultured rat luteal cells and murine Leydig tumour cells (MLTC-1)

The metabolic fate of LH/hCG receptors after exposure to human chorionic gonadotropin (hCG) was examined in cultured rat luteal cells and murine Leydig tumour cells (MLTC-1). Kinetic studies performed after pulse-labelling of the cells with [125I]hCG indicated that the bound hormone was lost much more rapidly from the tumour cells than from the luteal cells (t1/2 = 4.5 and greater than 12 h, respectively). The tumour cells were also found to internalise and degrade the hormone more effectively than the luteal cells, as measured by disappearance of acid-releasable (i.e. surface-bound) radioactivity from the cells and by the appearance of trichloroacetic acid (TCA)-soluble label in the medium. In MLTC-1 cells, over 80% of the radioactivity released was TCA-soluble at all times examined, whereas in the luteal cells most (65-75%) was TCA-precipitable. Chemical cross-linking and analyses by SDS-PAGE of this material revealed that both cell types also released, in addition to intact hCG, two previously characterized receptor fragment-[125I]hCG complexes (Mr 96,000 and 74,000) (Kellokumpu & Rajaniemi, Endocrinology 116 (1985) 707) into the medium, although their amount was negligible in MLTC-1 cells. Possibly, due to rapid discharge of the ligand from its receptor, no similar complexes could be detected inside the MLTC-1 cells, suggesting that they were released directly from the cell surface. However, the Mr 74,000 complex was observed inside MLTC-1 cells if chloroquine, a lysosomotropic agent, was present during the incubations. This suggests that the internalised receptor also becomes degraded, at least when complexed to hCG. The results thus provide evidence that there exist two different mechanisms for proteolytic processing of LH/hCG receptors in these target cells. In tumour cells, the degradation seems to occur almost exclusively intracellularly, whereas in luteal cells a substantial portion of the receptors is also degraded at the cell surface.     

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.     

Evidence for the rapid internalization and recycling of lutropin receptors in rat testis Leydig cells.

A study into the binding of 125I-human chorionic gonadotropin (hCG) to the lutropin (LH) receptor in rat testis Leydig cells, and subsequent internalization of the hormone-receptor complex, has been carried out. The results show that there is rapid internalization of the hormone-receptor complex; 240 receptors/cell (from a total of approx. 4000 receptors/cell) were internalized each minute in the first hour after exposure to hCG. Radioactivity was released from the cell 1 h after internalization and was found to be associated with highly degraded hCG. The endocytic process was found to have two temperature-sensitive steps. At 4 degrees C, movement of the hormone-receptor complex inside the cell did not occur, and at 21 degrees C hormone accumulated within the cytoplasm but was not degraded or released from the cell. At 34 degrees C, internalization, degradation and loss of the degraded hormone from the cell occurred. These processes appeared to reach a steady state after 2 h. Even though there is rapid internalization of the hormone-receptor complex following exposure to hCG, the binding sites on the cell surface were maintained for at least 4 h. The number of binding sites on the cell surface was not decreased by a protein synthesis inhibitor but was reduced to undetectable levels by monensin. This compound inhibits acidification of endocytic vesicles, which is known to be an important prerequisite to receptor cycling. It is concluded that, in the rat testis Leydig cells, following binding of hCG to the LH receptor there is rapid internalization of the complex and that recycling of the receptor occurs to the cell surface. This process may be essential in maintaining the capacity of the Leydig cell to bind fresh hormone.     

Effects of truncations of the cytoplasmic tail of the luteinizing hormone/chorionic gonadotropin receptor on receptor-mediated hormone internalization.

The LH/CG receptor is a member of the family of G protein-coupled receptors and consists of a large N-terminal extracellular domain (which is responsible for binding hormone) attached to a region that spans the plasma membrane seven times, ending with an intracellularly located C-terminus. Binding of LH or human CG (hCG) to the LH/CG receptor causes a stimulation of adenylyl cyclase, presumably via activation of Gs. The binding of hormone also leads to its subsequent internalization by receptor-mediated endocytosis. In order to investigate the role of the cytoplasmic tail of this receptor in these events, we prepared a series of mutants in which progressively larger portions of the cytoplasmic tail were deleted. Deletion of 58 amino acids from the C-terminus, in which only 11 cytoplasmic residues remain, resulted in a receptor that was not expressed on the plasma membrane. Receptors rat LHR (rLHR)-t653 and rLHR-t631, in which 21 or 43 amino acids were removed, respectively, were properly expressed. These results suggest that a region(s) between residues 616 and 631 of the rLH/CG receptor are required for proper insertion and/or targeting of the receptor into the plasma membrane. Cells expressing rLHR-t653 or rLHR-t631 bound hCG with the same high affinity as cells expressing the full-length receptor, and basal levels of cAMP were the same among the cells. However, cells expressing the truncated receptors responded to hCG with approximately 2-fold greater levels of maximal cAMP accumulation than cells expressing the full-length receptor. Deletion of up to 43 amino acids from the C-terminus of the rLH/CG receptor had no deleterious effect on hCG internalization. In fact, mutants lacking 21 and 43 amino acids exhibited progressively faster rates of hCG internalization as compared to the full-length receptor. Once internalized, hCG was also degraded at a faster rate in cells expressing the truncated LH/CG receptors. Since hCG-stimulated cAMP stimulation and hCG internalization are retained by rLHR-t631, it can be concluded that the residues, not necessarily the same, required for these functions reside within the 26 amino acids of the cytoplasmic tail closest to the seventh transmembrane helix and/or residues within the intracellular loops. Our data show, however, that both hCG-stimulated cAMP production and hCG internalization are enhanced by the removal of the distal portion of the cytoplasmic tail.     

Interleukin 1: an inhibitor of luteinizing hormone receptor formation in cultured rat granulosa cells

We have shown that interleukin 1 (IL 1) suppresses follicle-stimulating hormone (FSH)-induced progesterone secretion and 125I-labeled human chorionic gonadotropin (hCG) binding (a measurement of LH receptors) in cultured rat granulosa cells. The present study was designed to examine if the reduction of FSH-stimulated 125I-labeled hCG binding by IL 1 was caused by a decline in the binding capacity or by an alteration in the affinity of the LH receptor and, further, to determine the minimum period of exposure of the granulosa cells to IL 1 necessary to suppress 125I-labeled hCG binding. IL 1 produced a dose-dependent inhibition of 125I-labeled hCG binding in FSH-stimulated granulosa cells. Scatchard analysis revealed that this effect resulted from a reduction of the binding capacity of the LH receptor with no change in affinity. Also, a minimum of 12-24 h of exposure to IL 1 is necessary to significantly inhibit FSH-induced LH receptor formation. These results suggest that IL 1 decreases the number of LH receptors and that protein synthesis may be necessary for IL 1's action. However, a physiological/pathological role for IL 1 in ovarian regulation has yet to be established.     

Regulation of insulin receptor internalization in vascular endothelial cells by insulin and phorbol ester

Phorbol 12-myristate 13-acetate (PMA) was used to examine the role of insulin receptor phosphorylation in the regulation of insulin receptor internalization in vascular endothelial cells. Association of 125I-insulin in rat capillary and bovine aortic endothelial cells preincubated with PMA was increased by 80 and 64% over control, respectively. The increase was due to enhanced 125I-insulin internalization as opposed to an effect on surface-bound hormone. PMA had no significant effect on 125I-insulin degradation or on release of internalized insulin from the cells. Internalization of 125I-labeled insulin receptor was determined by the resistance of labeled receptor to trypsinization. At 10 degrees C, nearly all of the labeled receptor was sensitive to removal by trypsin, indicating that it was exposed on the cell surface. Exposure of labeled cells to insulin (100 nM) at 37 degrees C resulted in the rapid appearance of trypsin-resistant insulin receptor, indicating receptor internalization. Steady state for receptor internalization was attained at 10-15 min. When surfaced-labeled cells were preincubated with PMA at 37 degrees C, the rate of insulin receptor internalization was increased by 3.6 +/- 0.2-fold and 2.1 +/- 0.5-fold at 1 and 5 min of insulin exposure, respectively (ED50 at 16 nM PMA). This effect of PMA was associated with an increase in serine phosphorylation of the insulin receptor. Thus, PMA increased insulin internalization in the endothelial cells by modulating the insulin-induced internalization of the receptor. The additive effects of PMA and insulin on insulin receptor phosphorylation suggest that the phorbol ester and insulin act via independent signaling mechanisms.     

Ligand-induced desensitization of 125I-epidermal growth factor internalization

The internalization of 125I-epidermal growth factor (EGF) by A431 cells was investigated. Control cells were able to internalize over 80% of receptor-bound 125I-EGF. By contrast, cells treated with EGF before incubation with 125I-EGF internalized only 50% of the surface-bound radioligand. The ligand-induced decrease in 125I-EGF internalization showed a dose response to EGF with half-maximal effect occurring at 3 nM. The alteration in the extent of 125I-EGF internalization did not require extended treatment with high concentrations of the hormone. When the internalization of picomolar versus nanomolar concentrations of EGF were compared, the lower concentrations of 125I-EGF were more completely internalized than the higher concentrations of radioligand. These data are consistent with the hypothesis that occupation of the EGF receptor by hormone rapidly leads to the activation of cellular processes which effectively desensitize the system to further ligand-induced internalization. The decrease in the extent of ligand internalization occurred in cells in which the protein kinase C (Ca2+/phospholipid-dependent enzyme) activity had been down-regulated by prolonged treatment with 12-O-tetradecanoyl-phorbol-13-acetate implying that the desensitization process is independent of protein kinase C. However, the effects of EGF on the extent of hormone internalization could be mimicked by the addition of A23187 and could be prevented by pretreatment of the cells with calmodulin antagonists suggesting the possibility that Ca2+-calmodulin is involved in the regulation of EGF receptor internalization in A431 cells.     

Purification and characterization of lutropin receptor from membranes of pig follicular fluid

Membranes derived from free floating granulosa cells in porcine ovarian follicular fluid were used as a starting material for structural characterization of both LH/hCG and FSH receptors. The receptors were highly hormone-specific and showed single classes of high-affinity binding sites (Kd = 19-74 pM). Their molecular weights as determined by affinity cross-linking with their respective 125I-ligands were similarly 70,000. The membrane-localized receptors could be solubilized with reduced Triton X-100 in the presence of 20% glycerol with good retention of hormone binding activity. The Triton extracts of membranes also showed hormone specificity and equilibrium binding constants similar to the membrane receptors (Kd = 32-48 pM). Affinity chromatography on divinylsulfonyl-Sepharose-oLH columns was utilized to purify the solubilized LH/hCG receptor to a specific activity of 2000 pmol/mg of protein. The purified receptor exhibited a high specificity for hCG and hLH but not for hFSH nor bTSH. The purified receptor was iodinated and visualized to be composed of a major protein of Mr approximately 70,000 and other minor proteins of molecular weights ranging from 14,000 to 40,000. Except for the Mr 14,000 protein, all other protein species bound to the concanavalin A-Sepharose column. The data suggest that the ovarian LH/hCG and FSH receptors are structurally similar and consist of a single polypeptide chain, as recently documented for the LH/hCG receptor (Loosefelt et al., 1989; McFarland et al., 1989).     

Effect of prolactin and cyclic AMP on 125I-labelled low density lipoprotein uptake and metabolism by luteinized porcine granulosa cells in culture

The present study examines the effect of prolactin (PRL) and N6-2(1)-O-dibutyryladenosine 3'5'-cyclic monophosphate (cAMP) on low density lipoprotein (LDL) uptake and metabolism by luteinized porcine granulosa cells in culture. Granulosa cells from preovulatory follicles were plated with 1% serum and 1 microgram/mL of insulin for the first 48 h. Following plating (day 3) the cells were cultured in serum-free media with the same dose of insulin. The next day the medium was replaced with serum- and insulin-free medium, and to some cultures 1.23 IU/mL of human chorionic gonadotrophin (hCG) was added. On day 5 the medium was again replaced and graded amounts of PRL (0, 0.03, 0.3, and 3 micrograms/mL) were added. Following 48 h of incubation with PRL, 20 micrograms/mL of 125I-labelled LDL was added to cultures. Surface-bound, internalized, and degraded LDLs were quantitated at 12 h following addition of LDL. To examine the effect of cAMP on LDL metabolism, the cells were exposed for 24 h to cAMP (3mM) on day 6 of culture. PRL had a stimulatory effect on LDL degradation by luteinized granulosa cells. Pre-exposure of cells to hCG augmented the stimulatory effect of PRL. Addition of cAMP also enhanced LDL degradation by luteinized granulosa cells. Both PRL and cAMP increased surface binding of LDL in cells pre-exposed to hCG, but there was no effect on internalization. The increase in cell surface binding of LDL with PRL and cAMP was less than their effect on LDL degradation.(ABSTRACT TRUNCATED AT 250 WORDS)     

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)     

Binding, internalization, and degradation of high density lipoprotein by cultured normal human fibroblasts.

Comparative studies were made of the metabolism of plasma high density lipoprotein (HDL) and low density lipoprotein (LDL) by cultured normal human fibroblasts. On a molar basis, the surface binding of (125)I-HDL was only slightly less than that of (125)I-LDL, whereas the rates of internalization and degradation of (125)I-HDL were very low relative to those of (125)I-LDL. The relationships of internalization and degradation to binding suggested the presence of a saturable uptake mechanism for LDL functionally related to high-affinity binding. This was confirmed by the finding that the total uptake of (125)I-LDL (internalized plus degraded) at 5 micro g LDL protein/ml was 100-fold greater than that attributable to fluid or bulk pinocytosis, quantified with [(14)C]sucrose, and 10-fold greater than that attributable to the sum of fluid endocytosis and adsorptive endocytosis. In contrast, (125)I-HDL uptake could be almost completely accounted for by the uptake of medium during pinocytosis and by invagination of surface membrane (bearing bound lipoprotein) during pinocytosis. These findings imply that, at most, only a small fraction of bound HDL binds to the high-affinity LDL receptor and/or that HDL binding there is internalized very slowly. The rate of (125)I-HDL degradation by cultured fibroblasts (per unit cell mass) exceeded an estimate of the turnover rate of HDL in vivo, suggesting that peripheral tissues may contribute to HDL catabolism. In accordance with their differing rates of uptake and cholesterol content, LDL increased the cholesterol content of fibroblasts and selectively inhibited sterol biosynthesis, whereas HDL had neither effect.     

Dual internalization pathway for lutropin and choriogonadotropin in porcine Leydig cells in primary culture

The role of the high affinity receptor in the internalization of porcine lutropin (pLH) and human choriogonadotropin (hCG) by porcine Leydig cells in primary culture during short-term stimulation by the two hormones was investigated. The fate of the hormones was followed either by electron microscopy (with colloidal gold-labeled hormones) or by measurement of the cellular distribution of [125I]pLH and [125I]hCG. With both techniques, the internalization of pLH was found to be one order of magnitude greater than hCG, though the recycling rate of the high affinity receptors was the same with both hormones. However, when the cell surface was progressively depleted of its high affinity receptors by preincubation with increasing doses of hCG or pLH, the internalization of [125I]pLH remained high and largely independent of the number of high affinity receptors still available on the cell surface, while that of [125I]hCG was found to be proportional to this number. The endocytosis of [125I]pLH could only be inhibited by the simultaneous presence of micromolar concentrations of unlabeled pLH, hCG or alpha or beta subunits of ovine LH (oLH). The intact alpha-hCG subunit and the deglycosylated alpha-oLH subunit were less potent, while beta-hCG and deglycosylated beta-oLH had no significant effect. These results could be explained by the existence of a "carrier" or "scavenger" receptor for LH, but with a low affinity (congruent to 3.10(6) M-1) and present in excess on the cell surface as compared to the high affinity receptor. The possible physiological significance of this receptor is discussed.     

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.     

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.     

Effects of hyperosmolarity on ligand processing and receptor recycling in the hepatic galactosyl receptor system

Binding, endocytosis, and degradation of asialo-orosomucoid (ASOR) mediated by the galactosyl (Gal) receptor were examined in isolated rat hepatocytes in complete media supplemented with an osmolite. The specific binding of 125I-ASOR to cells at 4 degrees C was unaffected by up to 0.4 M sucrose or NaCl. Unlike sucrose or NaCl, mannitol stimulated 125I-ASOR binding at low concentrations but inhibited binding at higher concentrations. Continuous internalization at 37 degrees C, which requires receptor recycling, was completely blocked at 0.2 M sucrose or 0.15 M NaCl, corresponding in each case to a total osmolality of about 550 mmol/kg. This effect was reversed and endocytic function was restored by washing the cells, indicating that cell viability was unaffected. The rate of degradation of internalized 125I-ASOR was also inhibited by increasing sucrose concentrations. This inhibition is due to a block in the delivery of ligand to lysosomes and not an effect on degradation per se. In the presence of 0.2 M sucrose, the rate and extent of endocytosis of surface-bound 125I-ASOR were, respectively, 33.0 +/- 8.1% and 69.4 +/- 10.5% (n = 8) of the control without sucrose. Under these conditions, the dissociation of internalized receptor-ASOR complexes was completely inhibited. When sucrose was added, the effect on the endocytosis of surface-bound 125I-ASOR was virtually immediate. Previous studies showed that about 40% of the surface-bound 125I-ASOR which is internalized can return to the cell surface still bound to receptor (Weigel and Oka: J Biol Chem 259:1150, 1984). If 0.2 M sucrose was added after endocytosis occurred, 125I-ASOR still returned to the cell surface, although the rate and extent of return were inhibited by more than 50%. Interestingly, hyperosmolarity is the only treatment we have found which can reversibly inhibit, although only partially, the endocytosis of surface-bound 125I-ASOR.     

Endocytosis of follicle-stimulating hormone by ovarian granulosa cells: analysis of hormone processing and receptor dynamics

Suspensions of freshly isolated rat granulosa cells were used to study endocytosis and processing of radioiodinated ovine follicle-stimulating hormone (I-oFSH) and to analyze the dynamics of its receptor. Ovine FSH was iodinated to a specific activity of 26 microCi/micrograms as determined by radioreceptor self-displacement assays with maximum specific binding to excess membrane receptors of 46%. Radiolabeled oFSH was judged biologically equivalent to the unlabeled hormone since I-oFSH shows saturation-binding kinetics and stimulates steroidogenesis in a similar dose-related manner to unlabeled oFSH. Experiments designed to study the extent and time course of degradation involved continuous exposure of isolated granulosa cells to I-oFSH. Saturation of membrane receptors was achieved within 1.5 h of incubation, and internalization of FSH occurred in a linear manner for up to 6 h. The rate of internalization was equivalent to 2,780 FSH molecules/cell/h. Degradation of FSH became apparent after 6 h of incubation and increased to 86% of total cellular-associated radioactivity at 22 h. FSH degradation was inhibited by 100 microM chloroquine or 0.45 mM leupeptin. The measurement of cell surface I-oFSH binding in the combined presence of 100 microM chloroquine and 0.5 mM cycloheximide was unchanged for up to 22 h of incubation. This and other receptor binding data suggest that there is no reutilization of FSH receptors. Scatchard analyses of 4 degrees C binding assays on intact cells indicated that a two-site model best fit the data with association constants of K11 = 1.44 (+/- .42) X 10(10) and K12 = 4.35 (+/- .91) X 10(8). Receptor binding and activation studies for progesterone production yielded ED50s of 270 pM and 7.7 pM, respectively, and also indicated that 20% receptor occupancy is sufficient to stimulate maximal progesterone production. We conclude that after the initial binding event, FSH is endocytosed very slowly and is subsequently shuttled to the lysosomal compartment for degradation. The retarded rate of endocytosis may relate to novel pathways of hormone processing.     

On the mechanisms involved in the regulation of the cell-surface receptors for human choriogonadotropin and mouse epidermal growth factor in cultured Leydig tumor cells

The MA-10 cells are a clonal strain of mouse Leydig tumor cells that have receptors for human choriogonadotropin (hCG) and mouse epidermal growth factor (mEGF). Exposure of the cells to hCG results in a reduction in the number of surface hCG receptors, and little or no change in the number of surface mEGF receptors. On the other hand, exposure of the cells to mEGF results in a reduction in the number of both surface mEGF receptors and surface hCG receptors. In order to study these phenomena, we assumed that the number of surface receptors is determined by the rate at which receptors appear at the surface and by the rate of receptor internalization. When these rates were measured, we found that hCG and mEGF reduce their respective surface receptors by increasing the rate of receptor internalization, and that mEGF reduces the surface hCG receptors by decreasing the rate of appearance of the receptor.