Structural requirements for mutational lutropin/choriogonadotropin receptor activation

Different activation mechanisms of glycoprotein hormone receptors, which are members of the G protein-coupled receptor superfamily, have been proposed. For example, the large ectodomain of glycoprotein hormone receptors may function as an inverse agonist keeping the transmembrane domain in an inactive conformation. To provide support for this hypothesis, we have generated different lutropin/choriogonadotropin receptor (LHR) constructs lacking the ectodomain. Although some ectodomain-deficient LHR constructs were targeted to the cell surface, cAMP levels remained unchanged under basal conditions and agonist application but could be increased by a mutation within the transmembrane domain 6 (D578H). Taking advantage of a constitutive activating mutation (S277N) located in the extracellular domain, we showed that the intact leucine-rich repeat-containing ectodomain is essential for constitutive activation of the LHR by mutation of the hinge region. Our findings support an activation scenario in which agonist binding or mutational alterations expose a structure within the ectodomain, which then activates the transmembrane core.     

Variant forms of the pig lutropin/choriogonadotropin receptor.

The cloning and sequencing of porcine lutropin/choriogonadotropin (LH/hCG) receptor messenger RNAs have shown the presence of a full-length receptor (pLHR-A) and of shorter variants lacking either the transmembrane and the intracellular domains (pLHR-B and pLHR-C) or only the transmembrane domain (pLHR-D). Moreover, immunoblotting of testicular membrane extracts has detected 85-, 68-, and 45-48-kDa proteins reacting with antireceptor antibodies. Transfection experiments were performed to assign the protein species to the various messenger RNAs and to study the function of the various receptor species. COS-7 and L-cells transfected with an expression vector encoding full-length receptor pLHR-A yielded a protein of apparent molecular mass of 105 kDa. This corresponded to the complete receptor which had undergone a different glycosylation pattern to that found in testis, since after digestion with peptide N-glycosidase F both the 105-kDa COS-7 protein and the 85-kDa testicular glycoprotein yielded a holoprotein of approximately 63 kDa. Transfection with pLHR-A also yielded a high proportion of the 68-kDa glycoprotein which was shown by digestion with endoglycosidase H to be a high-mannose precursor of the full-length receptor. The existence of a large pool of precursor species in both transfected cells and Leydig cells evokes possible physiological regulations at the level of receptor maturation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Human choriogonadotropin binds to a lutropin receptor with essentially no N-terminal extension and stimulates cAMP synthesis.

The lutropin (LH) receptor, which belongs to the family of G-protein coupled receptors, consists of an extracellular hydrophilic N-terminal extension of 341 amino acids and a membrane-embedded C-terminal region of 333 amino acids. This C-terminal region comprises a short N terminus, seven transmembrane domains, three cytoplasmic loops, three exoplasmic loops, and a C terminus. Recently, it was reported that the N-terminal extension of the LH receptor alone or a naturally occurring variant LH receptor similar to the N-terminal extension is capable of binding the hormone with an affinity slightly higher than that of the native receptor. This finding raises a question as to whether the N-terminal extension represents the entire hormone binding site and, if so, how is hormone binding transduced to the activation of a G-protein? In an attempt to answer this important question, we have prepared truncated receptors containing an N-terminal extension as short as 10 amino acids. Surprisingly, the truncated receptors were not only capable of binding the hormone, albeit with low affinities, but also capable of stimulating cAMP synthesis. These results suggest a possibility that the hormone, at least in part, interacts with the membrane-embedded C-terminal region and modulates it to activate adenylate cyclase. The low hormone binding affinities of the truncated receptors taken together with high affinity hormone binding to the N-terminal extension of the LH receptor indicate the existence of two or more contact points between the receptor and the hormone.     

Effects of collagenase on the structure of the lutropin/choriogonadotropin receptor

The structure of the lutropin/choriogonadotropin (LH/CG) receptor of a clonal strain of cultured Leydig tumor cells (designated MA-10) and primary cultures of porcine granulosa cells was studied by cross-linking 125I-labeled derivatives of human CG and ovine LH with bifunctional succinimidyl esters. We show that in both cell types, both subunits of the receptor-bound hormone become cross-linked to a single cellular component of Mr = 106,000, when analyzed in the absence of reducing agents, and of Mr = 83,000 when analyzed in the presence of reducing agents. We also present a detailed investigation on the effects of several collagenase preparations on the structure and some functions of the LH/CG receptor. Our results show that the LH/CG receptor is exquisitively sensitive to degradation by these preparations of collagenase; degradation products can be detected only in the presence of reducing agents; the enzyme(s) responsible for degradation is not collagenase itself, but rather a contaminating enzyme(s), presumably a protease(s); and receptor degradation has little effect on the ability of the cells to bind hormone or to respond with increased steroid biosynthesis. Since normal gonadal cells are usually isolated following dispersion of the tissue with collagenase, our results suggest that these cells are likely to bear a degraded (albeit functional) form of the LH/CG receptor, and thus should not be used in studies dealing with the structure of this receptor.     

Immunoprecipitation of the lutropin/choriogonadotropin receptor from biosynthetically labeled Leydig tumor cells. A 92-kDa Glycoprotein

The structure of the lutropin/choriogonadotropin (LH/CG) receptor has been studied by immunoprecipitating the receptor from biosynthetically labeled cultured Leydig tumor cells (designated MA-10). This was performed by binding human choriogonadotropin (hCG) to the labeled cells, solubilizing the hormone-receptor complex, partially purifying the complex by lectin chromatography, and immunoprecipitating the complex with an antibody that recognizes receptor-bound hCG. The conditions used for the release of the radiolabeled receptor from the immunoprecipitate and the subsequent analysis of this material on sodium dodecyl sulfate gels allowed us to determine directly the structure of the free (not hormone-occupied) LH/CG receptor. From experiments using cells labeled with [35S]methionine and [35S]cysteine, we show that the LH/CG receptor is composed of a single polypeptide chain that migrates as a 92-kDa protein on sodium dodecyl sulfate gels whether analyzed in the absence or presence of reducing agents. Other studies presented demonstrate that the LH/CG receptor is a glycoprotein.     

Spontaneous phosphorylation of the receptor with high affinity for IgE in transfected fibroblasts

Receptors with high affinity for IgE, FcepsilonRI, which had been transfected into Chinese hamster ovary fibroblasts exhibit an over 20-fold greater spontaneous phosphorylation at physiological temperatures than the same receptors on the widely studied rat mucosal mast cell line, RBL-2H3. This enhanced phosphorylation was not accounted for either by changes in the src-family kinase responsible for the phosphorylation, by reduced activity of phosphatases, or by spontaneous association of the receptors with microdomains. A variety of approaches failed to detect evidence for stable spontaneous aggregates of the receptor. Whereas the altered posttranslational glycosylation of the receptor's principal ectodomain we detected could promote transient spontaneous aggregation and explain the observed effect, other changes in the membrane milieu cannot be excluded. The functional consequences of such spontaneous phosphorylation are considered.     

Truncation of the cytoplasmic tail of the lutropin/choriogonadotropin receptor prevents agonist-induced uncoupling.

An agonist-induced change in the functional properties of a constant number of receptors seems to be a ubiquitous phenomenon involved in the regulation of cell surface receptors. Although the mechanisms responsible for this phenomenon (called uncoupling or desensitization) have been studied in detail using beta 2-adrenergic receptors it is unclear if the models derived from these studies are applicable to other members of the family of G protein-coupled receptors. Since it has been shown previously that truncation of the C-terminal cytoplasmic tail of the beta 2-adrenergic receptor results in a delay in the onset of agonist-induced uncoupling (Bouvier, M., Hausdorff, W.P., De Blasi, A., O'Dowd, B.F., Kobilka, B.K., Caron , M.G., and Lefkowitz, R.J. (1988) Nature 333, 370-373), we now present experiments designed to test the effects of a similar truncation of the lutropin/choriogonadotropin (LH/CG) receptor on its functional properties. The results presented herein show that (i) clonal lines of human embryonic kidney cells stably transfected with cDNAs encoding for the wild-type (rLHR-wt) or a mutant receptor truncated at amino acid residue 631 (rLHR-t631) express functional LH/CG receptors as judged by their ability to bind hCG and to respond to it with increased cAMP accumulation; (ii) a preincubation of the cells expressing rLHR-wt with hCG leads to a reduction in the ability of hCG to activate adenylylcyclase; and (iii) this reduction is severely blunted in cells expressing rLHR-t631. These results demonstrate that the C-terminal cytoplasmic tail of the LH/CG receptor is necessary for agonist-induced uncoupling.     

The association of arrestin-3 with the human lutropin/choriogonadotropin receptor depends mostly on receptor activation rather than on receptor phosphorylation.

Although the involvement of the nonvisual arrestins in the agonist-induced internalization of the human lutropin receptor (hLHR) has been documented previously with the use of dominant-negative mutants, a physical association of the nonvisual arrestins with the hLHR in intact cells has not been established. In the studies presented herein, we used a cross-linking/coimmunoprecipitation/immunoblotting approach as well as confocal microscopy to document the association of the hLHR with the nonvisual arrestins in co-transfected 293 cells. We also used this approach to examine the relative importance of receptor activation and receptor phosphorylation in the formation of this complex. Using hLHR mutants that impair phosphorylation, activation, or both, we show that the formation of the hLHR-nonvisual arrestin complex depends mostly on the agonist-induced activation of the hLHR rather than on the phosphorylation of the hLHR. These results stand in contrast to those obtained with several other G protein-coupled receptors (i.e. the beta2-adrenergic receptor, the m2 muscarinic receptor, rhodopsin, and the type 1A angiotensin receptor) where arrestin binding depends mostly on receptor phosphorylation rather than on receptor activation. We have also examined the association of the nonvisual arrestins with naturally occurring gain-of-function mutations of the hLHR found in boys with Leydig cell hyperplasia or Leydig cell adenomas. Our results show that these mutants associate with the nonvisual arrestins in an agonist-independent fashion.     

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).     

Asp383 in the second transmembrane domain of the lutropin receptor is important for high affinity hormone binding and cAMP production.

The lutropin (LH), follitropin, and thyrotropin receptors belong to the superfamily of G-protein coupled receptors and have some unique structural features. These glycoprotein hormone receptors comprise a C-terminal half and an N-terminal half of similar size. The C-terminal half is equivalent to the entire structure of other G-protein coupled receptors and has seven transmembrane domains, three cytoplasmic loops, three exoplasmic loops, and a C terminus. In contrast, the hydrophilic N-terminal half is exoplasmic and unique to the glycoprotein hormone receptors. This large N-terminal half of the LH receptor has recently been shown to be capable of binding the hormone. Therefore, these glycoprotein hormone receptors are structurally and functionally different from other G-protein coupled receptors. In an attempt to define the role of the membrane-associated C-terminal half of the LH receptor, we have prepared several mutant receptors in which an Asp or Glu in the seven transmembrane domains has been converted to Asn or Gln, respectively. These include Asp383----Asn in the second transmembrane domain, Glu410----Gln in the third transmembrane domain, and Asp556----Asn in the sixth transmembrane domain. All these mutant receptors were successfully expressed in Cos 7A cells. The Glu410----Gln and Asp556----Asn mutants maintained normal affinities for hormone binding and cAMP production, but the Asp383----Asn mutant showed significantly lower affinities. Although Asp383 of the LH receptor is conserved in all G-protein coupled receptors cloned to date except the substance P receptor, which has Glu in the place of the Asp residue, this is the first observation of the critical role of the Asp in hormone binding and subsequent stimulation of cAMP production.     

The 22.5 kDa spectrin-binding domain of ankyrinR binds spectrin with high affinity and changes the spectrin distribution in cells in vivo

It was previously shown that ankyrins play a crucial role in the membrane skeleton arrangement. Purifying ankyrinR obtained from erythrocytes is a time-consuming process. Therefore, cloned and bacterially expressed ankyrinR–spectrin-binding domain (AnkSBD) is a demanded tool for studying spectrin–ankyrin interactions. In this communication, we report on the cloning and purification of AnkSBD and describe the results of binding experiments, in which we showed high-affinity interactions between the AnkSBD construct and isolated erythrocyte or non-erythroid spectrins. pEGFP–AnkSBD-transfected cells co-localised with non-erythroid spectrin in HeLa cells. The functional interactions of the AnkSBD construct in vivo and in vitro open many possibilities to study the structure and function of this domain, which has not yet been as extensively studied when compared to the aminoterminal domain of this protein.     

Association of human follitropin (FSH) receptor with splicing variant of human lutropin/choriogonadotropin receptor negatively controls the expression of human FSH receptor

A splice variant of human lutropin (LH)/choriogonadotropin (CG)-receptor [hLHR(exon 9)] that lacks exon 9 was previously cloned in the corpus luteum of a woman with a normal menstrual cycle. Supported by a detergent-soluble binding assay and a receptor biotinylation experiment, the receptor binding assay shows hLHR(exon 9) is neither expressed at the cell surface nor has the capability of binding to hCG. In addition, hLHR(exon 9) was confirmed in the endoplasmic reticulum (ER) by endoglycosidase H treatment. A coimmunoprecipitation experiment clearly showed that hLHR(exon 9) and constitutively inactivate mutant-LHRs, which stay in the ER, form an association with the human follitropin (FSH)-receptor (hFSHR). This suggests that in the presence of mutant-LHR, hFSHR, which is trapped in the ER and associated with hLHR(exon 9), is unable to come up to the plasma membrane. This phenomenon is specific among gonadotropin receptors because human TSH receptor failed to be coimmunoprecipitated. Furthermore, this receptor complex attenuated the hFSHR receptor protein level within the cells, which impaired cAMP production. To elucidate the mechanism underlying the decrease in hFSHR protein by this receptor complex, we performed a Percoll fractionation experiment, which indicated that the receptor complex drove hFSHR to the lysosome instead of the plasma membrane. These results reveal a novel mechanism of FSHR expression regulation.     

Effect of activating and inactivating mutations on the phosphorylation and trafficking of the human lutropin/choriogonadotropin receptor

The effects of several mutations of the human LH receptor (hLHR) on the phosphorylation, internalization, and turnover of the cell surface receptor were examined. Three gain-of-function mutations associated with Leydig cell hyperplasia (L457R and D578Y) and one associated with Leydig cell adenomas (D578H), one signaling-impaired mutation associated with Leydig cell hypoplasia (I625K), and two laboratory designed signaling-impaired mutations (D405N and Y546F) were used. The signaling-impaired mutations showed a reduction in human CG (hCG)-induced receptor phosphorylation and internalization. Mutation of the phosphorylation sites of these loss-of-function mutants had little or no additional effect on internalization. Cotransfection with G protein-coupled receptor kinase-2 (GRK2) rescued the hCG-induced phosphorylation and internalization of the signaling-impaired mutations but only if the phosphorylation sites were intact. Overexpression of arrestin-3 rescued the rate of internalization regardless of whether or not the phosphorylation sites were intact. Only two of the three constitutively active mutants displayed an increase in basal phosphorylation. Although they all failed to respond to hCG with increased receptor phosphorylation, they all internalized hCG faster than wild-type hLHR (hLHR-wt). Mutation of the phosphorylation sites of these constitutively active mutants lengthened the half-time of internalization of hCG toward that of hLHR-wt. Overexpression of arrestin-3 had little or no effect on the already short half-time of internalization of hCG mediated by these mutants. The data obtained with the signaling-impaired and phosphorylation-deficient mutants of the hLHR support a model whereby receptor phosphorylation and activation play a redundant role in the internalization of hCG. The results obtained with the constitutively active mutants suggest that, when occupied by hCG, these mutants assume a conformation that bypasses many of the steps (i.e. activation, phosphorylation, and/or arrestin binding) involved in internalization.     

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.     

Interferon-gamma binds to high and low affinity receptor components on murine macrophages

Interferon-gamma (IFN-gamma), a glycoprotein secreted by antigen-or mitogen-activated lymphocytes, modulates the activities of lymphocytes and macrophages. For mouse macrophages, murine IFN-gamma (MuIFN-gamma) stimulates several functions, including phagocytosis, tumoricidal activity, and the increased expression of Ia and H-2 antigens of the major histocompatibility complex. Recent reports have suggested that IFN-gamma specifically binds to cell surface receptors corresponding to a single class of binding sites with a Kd of 10(-8) to 10(-10) M. We present evidence that, on the murine macrophage cell line WEHI-3, MuIFN-gamma specifically binds to two classes of binding sites with Kd of 9.1 X 10(-11) M (500 sites/cell) and 2.7 X 10(-9) M (4400 sites/cell). The higher affinity sites most likely represent the physiologically relevant receptors that mediate at least some of the actions of MuIFN-gamma.     

cAMP binds with high affinity and specificity to the androgen receptor from murine skeletal muscle

cAMP binding of the androgen receptor (AR) from murine skeletal muscle was studied. Testosterone affinity chromatography yielded androgen receptor with about 4000-fold purification. Determination of the cAMP binding in the affinity eluate, by adsorption of protein-cAMP complexes to cellulose ester filters or removal of unbound cAMP by dextran-coated charcoal, was not possible, as the observed binding was not stable during the assays. Displacement studies suggest that this is due to a very fast dissociation kinetics of the binding. The problem could be solved by assaying the components of affinity eluate immobilized to a testosterone affinity resin that stabilizes the cAMP-protein complexes. The cAMP binding found in the affinity eluate shows an upward concave Scatchard plot and is compatible with a model containing two independent binding sites with dissociation constants of 7 and 58 nM. However, a larger number of binding sites or negative cooperativity cannot be excluded. Sixteen cAMP binding sites were observed per testosterone binding site. The binding affinity of cAMP exceeds that of cGMP 200-fold, that of cCMP 2000-fold, and that of AMP and 2',3'-cAMP more than 10,000-fold. Results indicate that cAMP is bound by the AR, although it only represents about 1% of the total protein in the affinity eluate: (i) Specific testosterone and cAMP binding of affinity eluate was copurified by affinity chromatography, density gradient centrifugation, and gel filtration. The ratio of cAMP to testosterone binding in each peak was about 16:1, identical with that found in the total affinity eluate.(ABSTRACT TRUNCATED AT 250 WORDS)     

Mammalian peptidoglycan recognition protein binds peptidoglycan with high affinity, is expressed in neutrophils, and inhibits bacterial growth

Peptidoglycan recognition protein (PGRP) is conserved from insects to mammals. In insects, PGRP recognizes bacterial cell wall peptidoglycan (PGN) and activates prophenoloxidase cascade, a part of the insect antimicrobial defense system. Because mammals do not have the prophenoloxidase cascade, its function in mammals is unknown. However, it was suggested that an identical protein (Tag7) was a tumor necrosis factor-like cytokine. Therefore, the aim of this study was to identify the function of PGRP in mammals. Mouse PGRP bound to PGN with fast kinetics and nanomolar affinity (K(d) = 13 nm). The binding was specific for polymeric PGN or Gram-positive bacteria with unmodified PGN, and PGRP did not bind to other cell wall components or Gram-negative bacteria. PGRP mRNA and protein were expressed in neutrophils and bone marrow cells, but not in spleen cells, mononuclear cells, T or B lymphocytes, NK cells, thymocytes, monocytes, and macrophages. PGRP was not a PGN-lytic or a bacteriolytic enzyme, but it inhibited the growth of Gram-positive but not Gram-negative bacteria. PGRP inhibited phagocytosis of Gram-positive bacteria by macrophages, induction of oxidative burst by Gram-positive bacteria in neutrophils, and induction of cytokine production by PGN in macrophages. PGRP had no tumor necrosis factor-like cytotoxicity for mammalian cells, and it was not chemotactic on its own or in combination with PGN. Therefore, mammalian PGRP binds to PGN and Gram-positive bacteria with nanomolar affinity, is expressed in neutrophils, and inhibits growth of bacteria.     

The Erbin PDZ domain binds with high affinity and specificity to the carboxyl termini of delta-catenin and ARVCF

Erbin is a recently described member of the LAP (leucine-rich repeat and PDZ domain) protein family. We used a C-terminally displayed phage peptide library to identify optimal ligands for the Erbin PDZ domain. Phage-selected peptides were type 1 PDZ ligands that bound with high affinity and specificity to the Erbin PDZ domain in vitro. These peptides most closely resembled the C-terminal PDZ domain-binding motifs of three p120-related catenins: delta-catenin, ARVCF, and p0071 (DSWV-COOH). Analysis of the interactions of the Erbin PDZ domain with synthetic peptides matching the C termini of ARVCF or delta-catenin also demonstrated specific high affinity binding. We characterized the interactions between the Erbin PDZ domain and both ARVCF and delta-catenin in vitro and in vivo. The Erbin PDZ domain co-localized and coprecipitated with ARVCF or delta-catenin complexed with beta-catenin and E/N-cadherin. Mutagenesis and peptide competition experiments showed that the association of Erbin with the cadherin-catenin complex was mediated by the interaction of its PDZ domain with the C-terminal PDZ domain-binding motifs (DSWV-COOH) of ARVCF and delta-catenin. Finally, we showed that endogenous delta-catenin and Erbin co-localized in and co-immunoprecipitated from neurons. These results suggest that delta-catenin and ARVCF may function to mediate the association of Erbin with the junctional cadherin-catenin complex. They also demonstrate that C-terminal phage-display technology can be used to predict physiologically relevant ligands for PDZ domains.