The unique exon 10 of the human luteinizing hormone receptor is necessary for expression of the receptor protein at the plasma membrane in the human luteinizing hormone receptor, but deleterious when inserted into the human follicle-stimulating hormone receptor

The LH receptor (LHR) is a member of the family of G protein-coupled seven-times plasma membrane transversing receptors. Its gene consists of 11 exons, the last one encoding the transmembrane and intracellular domains of the receptor. The FSHR, and its gene, resemble structurally those of the LHR, with the exception that the sequences corresponding to exon 10 in LHR are missing in FSHR, which is thus encoded by a total of ten exons. Our recent studies on the marmoset monkey testis LHR cDNA indicated that an 81 bp nucleotide sequence, encoding the complete exon 10 of the LHR gene in other mammalian species, is absent in this species without affecting the LHR function. To study further the role of the exon 10 encoded sequences of the LHR in the gonadotropin receptor function, a deletion of exon 10 from the human LHR (hLHdeltaexon10R), and a chimeric hFSHR with exon 10 from hLHR inserted (hFSHLHexon10R), were constructed in expression vectors. The results presented here demonstrate that 293 cells transfected with the hLHdeltaexon10R display a decrease in the proportion of the receptor binding at the cell surface, compared with cells transfected with wild-type hLHR. However, the cells expressing hLHdeltaexon10R showed similar high affinity binding of [125I]iodo-hCG as those transfected with wild-type hLHR, in either intact cells or their detergent extracts. In addition, cells expressing the hLHdeltaexon10R and wild-type hLHR displayed similar dose-response of cAMP production to hCG stimulation. Cells transfected with chimeric hFSHLHexon10R showed barely detectable [125I]iodo-FSH binding in intact cells compared with those transfected with wild-type hFSHR. The FSH binding detected in cellular detergent extracts displayed 10-fold lower binding activity than wild-type receptors, in spite of similar level of immunoreactive FSHR protein expression in the transfected cells. The hFSHLHexon10R had a modest 5-fold lower binding affinity for FSH as compared with wild-type hFSHR. In conclusion, the present study indicates that the sequences encoding exon 10 of the hLHR are essential for the LHR expression at the plasma membrane, but deleterious for function if inserted into the hFSHR.     

Surface retention of an inactivating lutropin receptor mutant in exoloop 3

The heptahelical lutropin receptor (LHR) signals primarily via the Gs-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 Galpha(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 O 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.     

Dengue and dengue hemorrhagic fever

In this report, the genomic DNA was examined from two siblings with gonadal LH resistance. A 46,XY pseudohermaphrodite presented with female external genitalia and his 46,XX sister exhibited menstrual irregularities (oligoamenorrhea) and infertility. Exons 1-11 of the LH receptor (LHR) gene were amplified by the PCR using different sets of intronic primers and were directly sequenced. Sequencing revealed that both individuals carried a deletion of nucleotides 1822-1827, resulting in the deletion of Leu-608 and Val-609 within the seventh transmembrane helix. This mutation was introduced into a recombinant human (h) LHR cDNA. Transfections of 293 cells with hLHR(wt) vs. hLHR(deltaL608,V609) revealed that very little of the mutant receptor was expressed at the cell surface. This was due to both a decrease in the total amount of receptor expressed as well as to an increased intracellular retention of the mutant receptor. In spite of the decreased cell surface expression of the mutant, sufficient amounts were present to allow for assessment of its functions. Equilibrium binding assays showed that the cell surface hLHR(deltaL608,V609) binds hCG with an affinity comparable to that of the wild-type receptor. However, the cells expressing the hLHR(deltaL608,V609) exhibit only a 1.5- to 2.4-fold stimulation of cAMP production in response to hCG. In contrast, cells expressing comparably low levels of hLHR(wt) responded to hCG with 11- to 30-fold increases of cAMP levels. Therefore, the testicular and ovarian unresponsiveness to LH in these patients appears to be due to a mutation of the hLHR gene in which Leu-608 and Val-609 are deleted. As a consequence, the majority of the mutant receptor is retained intracellularly. The small percentage of mutant receptor that is expressed at the cell surface binds hormone normally but is unable to activate Gs.     

An inactivating mutation of the luteinizing hormone receptor causes amenorrhea in a 46,XX female

Hypergonadotropic hypogonadism is characterized by decreased gonadal function due to the inability of the gonads to respond to pituitary gonadotropins. Hypergonadotropic hypogonadism in females has many causes, among which are ovarian dysgenesis and abnormalities of the ovarian receptors for the pituitary gonadotropins. We evaluated a woman who presented with amenorrhea due to hypergonadotropic hypogonadism, but who had structurally normal ovaries. She is a sister of two previously identified 46,XY male pseudohermaphrodites with Leydig cell hypoplasia. Injection of hCG did not cause any change in plasma levels of estradiol or progesterone, suggesting complete ovarian resistance to LH. Analysis of the DNA sequence of the LH receptor gene revealed that the patient is homozygous for the same single base change as her two brothers. This mutation causes substitution of an alanine residue by a proline at position 593. In vitro analysis of the mutant LH receptor in cultured human embryonic kidney 293 cells documented that the receptor is unable to stimulate adenylyl cyclase in response to hCG. Plasma levels of estradiol and progesterone were low, whereas LH and FSH levels were increased. On histological analysis of the ovary, follicles were seen at all developmental stages. Nonetheless, primary amenorrhea had been present for 5 yr, and repeated measurements of plasma estradiol and progesterone indicate that ovulation does not occur. These results document the existence of inherited LH resistance as a cause of primary amenorrhea in women. The combined clinical and molecular observations are consistent with previous experimental data suggesting that in humans, LH is necessary for ovulation but follicular maturation can occur in the presence of FSH alone.     

Gonadotropin receptors and the control of gonadal steroidogenesis: physiology and pathology

Over the past few years, knowledge of the structure of gonadotropin receptors and their mode of action has rapidly advanced. The cDNA corresponding to the luteinizeng hormone (LH) receptor (LHR) has been cloned, leading to the identification of a novel family of G-protein-coupled receptors. The follicle stimulating hormone (FSH) receptor (FSHR) was thereafter cloned by cross-hybridization with the LHR. Structure-function relationships have been studied by mutagenesis experiments in several laboratories. The cloning and chromosomal localization to chromosome 2p21 of the two human gonadotropin receptor genes has provided insights into their evolutionary relationships. The LHR and FSHR genes are very large and contain 10 and 11 exons respectively. The obtention of monoclonal antibodies against the receptors resulted in the characterization of the receptor proteins. These antibodies also allowed the study of receptor expression in target cells in physiological and pathological conditions. The internalization of the LHR has been studied by electron microscopy. A mechanism of receptor-mediated transcytosis through the endothelial cells of the testes has been described for the LHR. The polarized expression of receptors has been studied. The cloning of gonadotropin receptor genes has opened the field of genetic study of the receptors. Inactivating mutations of the LHR have been described in Leydig cell agenesis or hypoplasia. Different phenotypes, including complete pseudohermaphroditism, ambiguous genitalia and male phenotype, have been described. In the case of the FSHR, only one mutation has been reported in familial ovarian dysgenesis with primary amenorrhea. Related males have variable alterations of spermatogenesis and fertility. Constitutive mutations of the LHR have been reported in familial testotoxicosis. One similar mutation has also been described for the FSHR. Such mutations may lead to the development of a model of receptor activation.     

The effects of mexiletine, desipramine and fluoxetine in rat models involving central sensitization

The lutropin receptor (LHR) is a G protein-coupled receptor in which high affinity ligand binding occurs to the relatively large extracellular N-terminal domain. Various portions of the receptor have been mapped for their relative importance in localization and in hormone-mediated signaling. There is, however, a paucity of information available on the intracellular loops (ICL), where, along with the C-terminal cytoplasmic tail, G protein coupling is expected to occur. Site-directed mutagenesis was used to investigate the role of several conserved ionizable groups and one tyrosyl residue in ICLs I-III of the rat LHR. The pSVL expression vector, containing the LHR cDNA (wild-type and mutants), was transiently transfected into COS-7 cells, and human choriogonadotropin (hCG) binding and hCG-mediated cAMP production were determined. Several point mutants of amino acid residues in ICL II were prepared and characterized with the following results: replacements of Lys-455 and of His-460 with Glu gave mutant LHRs that failed to localize or fold properly at the cell surface as evidenced by the lack of significant binding to intact cells, although hCG binding could be detected in broken cell preparations, and a neighboring Arg-459 --> Glu replacement had no apparent effect on receptor trafficking, hCG binding or hCG-mediated cAMP-production. A reversal mutant in ICL II in which Glu-441, at the boundary of transmembrane helix III and ICL II, and His-460, at the interface between ICL II and transmembrane helix IV, were interchanged, exhibited hCG binding to intact cells, but the maximal cAMP level at high concentrations of ligand was less than that obtained with COS-7 cells transfected with wild-type LHR. The total number of cell surface receptors determined with the reversal mutant was less than that found with wild-type LHR. This difference, however, is not believed to be responsible for the reduced signaling, since maximal cAMP responses to hCG were obtained with comparable receptor densities of wild-type and various mutant LHRs. Other single replacements in ICL I, Lys-368 --> Glu and to Gln, and in ICL III, Arg-526 --> Glu and Tyr-528 --> Ser, resulted in mutant LHRs with characteristics of wild-type LHR in trafficking, hCG binding and hCG-mediated cAMP production. These findings suggest an important functional role of several amino acid residues in ICL II of LHR.     

Co-expression of defective luteinizing hormone receptor fragments partially reconstitutes ligand-induced signal generation

Gonadotropin receptors are unique members of the seven-transmembrane (TM), G protein-coupled receptor family with a large extracellular (EC) sequence forming the high-affinity ligand binding domain. In a patient with Leydig cell hypoplasia, we identified a mutant LH receptor that is truncated at TM5. This protein retains limited ligand binding ability but cannot mediate cAMP responses. To study interactions between receptor fragments defective in either ligand binding or signal transduction, we co-expressed this truncated receptor together with a chimeric receptor containing the EC region of the FSH receptor and the TM region of the LH receptor. Although the chimeric receptor could not respond to human chorionic gonadotropin in producing cAMP, co-expression with the truncated LH receptor allowed partial restoration of ligand signaling through intermolecular interactions. In addition, co-expression of the same truncated LH receptor with an N-terminally truncated LH receptor that lacked the EC ligand binding domain also partially restored ligand signaling. Further shortening of the TM region in the mutant receptor found in the patient indicated that the EC domain and TM1 were sufficient for interactions with the N terminally truncated receptor. In contrast, co-expression of the N terminally truncated receptor together with cell-associated or soluble EC region of the LH receptor did not allow ligand signaling. Unlike thrombin receptors, co-expression of the anchored EC region of the LH receptor together with the N-terminally truncated receptor did not allow ligand signaling despite moderate levels of human chorionic gonadotropin binding in transfected cells. These studies demonstrate that the co-expression of binding (+)/signaling (-) and binding (-)/signaling (+) receptor fragments partially restores ligand-induced signal generation and indicate the importance of TM1 of the LH receptor in the proper orientation of the EC ligand binding domain.     

Post-translational processing in the Golgi plays a critical role in the trafficking of the luteinizing hormone/human chorionic gonadotropin receptor to the cell surface

Point mutations in the luteinizing hormone/human chorionic gonadotropin (LH/hCG) receptor have been shown to cause constitutive activation which results in precocious puberty in affected males. We introduced one of these mutations, Asp-556 --> Gly, into the rat LH/hCG receptor and demonstrated that the mutant receptor constitutively activated adenylate cyclase in transfected 293 T cells. The cell surface expression of the mutant receptor was lower than that of the wild type receptor. Pulse-chase studies showed that the 73-kDa precursor of both the mutant and wild type receptors was synthesized at comparable efficiencies. However, post-translational processing of the mutant receptor to the mature 92-kDa form, which has N-linked complex type oligosaccharide chains, was impaired. Sensitivity of the mutant receptor to peptide-N-glycanase F and endoglycosidase H, and insensitivity to sialidase indicated that the 73-kDa species represents the high mannose form that has not yet been trafficked through the medial and trans Golgi. Additionally, although the wild type receptor was palmitoylated, the mutant receptor was not. Although the high mannose 73-kDa species is capable of binding LH/hCG, our results show that post-translational processing in the Golgi is required for the mature 92-kDa receptor to reach the cell surface.     

Severe testotoxicosis phenotype associated with Asp578-->Tyr mutation of the lutrophin/choriogonadotrophin receptor gene

Testotoxicosis is a form of male precocious puberty caused by heterogeneous activating mutations in the gene for the lutrophin/choriogonadotrophin receptor (LHR). A patient with an unusually early and severe presentation of testotoxicosis, including profound Leydig cell hyperplasia, was found to have a sporadic mutation encoding Asp578-->Tyr. The severe testotoxicosis phenotype appears to be related to the strongly activating nature of the Tyr substitution.     

Relaxin-like factor expression as a marker of differentiation in the mouse testis and ovary

Expression of the relaxin-like factor (RLF) was studied at the messenger RNA (mRNA) and protein levels in the testes and ovaries of the mouse, as well as through testicular development and differentiation in the mouse testis. In situ hybridization or RT-PCR, and immunohistochemistry using a polyclonal antibody raised against a recombinant protein, provided mutually confirmatory results for a high expression of RLF in the Leydig cells of the adult testis and at a much lower level of expression in the luteal cells of the ovary through the cycle, pregnancy, and in lactation. Analysis of protein and mRNA expression, through postnatal testicular development, indicated moderate RLF expression also in the fetal population of Leydig cells, even in the hpg mutant mouse, lacking an active pituitary-gonadal axis. Prepubertal Leydig cells, however, exhibit only very low-level RLF gene expression, this phenotype persisting in the adult hpg mouse. In summary, fetal Leydig cells express RLF in an LH/human CG-independent fashion, whereas LH/human CG is essential to induce RLF expression in the adult-type Leydig cell. In cultured adult Leydig cells or in the mouse tumor MA-10 cell line, RLF mRNA is expressed in a constitutive fashion. RLF thus seems to be a useful marker of Leydig cell differentiation status.     

Amino acid residues in third intracellular loop of melanocortin 1 receptor are involved in G-protein coupling

To delineate domains essential for G-protein coupling in melanocortin 1 receptor (MC1R), we mutated polar and basic residues to alanine at eleven positions in the putative third intracellular loop and determined consequent changes in the ligand binding and generation of second messenger cAMP. Results demonstrate that ligand binding affinity was not affected by any of the mutations. However, every mutant displayed reduced functional response as compared to the wild type receptor. Replacement of residues (K226, R227, Q228, R229, H232, Q233 and K238) present in second half of third intracellular loop resulted in an almost complete loss of functional response. The results have demonstrated that the amino acid residues present in C-terminal portion of third intracellular loop of MC1R are involved in coupling to G-protein and that a region of four amino acids, K226-R227-Q228-R229 is essential for coupling of MC1R to G-protein.     

Expression of recombinant CD59 with an N-terminal peptide epitope facilitates analysis of residues contributing to its complement-inhibitory function

CD59 is a plasma membrane-anchored glycoprotein that serves to protect human cells from lysis by the C5b-9 complex of complement. The immunodominant epitopes of CD59 are known to be sensitive to disruption of native tertiary structure, complicating immunological measurement of expressed mutant constructs for structure function analysis. In order to quantify cell-surface expression of wild-type and mutant forms of this complement inhibitor, independent of CD59 antigen, an 11-residue peptide (TAG) recognized by monoclonal antibody (mAb) 9E10 was inserted before the N-terminal codon (L1) of mature CD59, in a pcDNA3 expression plasmid. SV-T2 cells were transfected with this plasmid, yielding cell lines expressing 0 to > 10(5) CD59/cell. The TAG-CD59 fusion protein was confirmed to be GPI-anchored, N-glycosylated and showed identical complement-inhibitory function to wild-type CD59, lacking the TAG peptide sequence. Using this construct, the contribution of each of four surface-localized aromatic residues (4Y, 47F, 61Y, and 62Y) to CD59's complement-inhibitory function was examined. These assays revealed normal surface expression with complete loss of complement-inhibitory function in the 4Y --> S, 47F --> G and 61Y --> S mutants. By contrast, 62Y --> S mutants retained approximately 40% of function of wild-type CD59. These studies confirmed the utility of the TAG-CD59 construct for quantifying CD59 surface expression and activity, and implicate surface aromatic residues 4Y, 47F, 61Y and 62Y as essential to maintenance of CD59's normal complement-regulatory function.     

Transforming growth factor beta type I receptor kinase mutant associated with metastatic breast cancer

Malignant breast carcinoma cell lines are frequently refractory to transforming growth factor beta (TGF-beta)-mediated cell cycle arrest. To identify molecular mechanisms of TGF-beta resistance, we have conducted a comprehensive structural analysis of the TGF-beta receptor types I (TbetaR-I) and II (TbetaR-II) genes in primary human breast carcinomas and associated axillary lymph node metastases. No evidence for loss of expression (n=14) or structural alterations of the TbetaR-II gene (n=30) were identified. However, 2 of 31 primary carcinomas and 5 of 12 lymph node metastases carried a C to A transversion mutation resulting in a serine to tyrosine substitution at codon 387 (S387Y) of the TbetaR-I receptor gene. This TbetaR-I mutant has a diminished ability to mediate TGF-beta-dependent effects on gene expression as compared with wild-type TbetaR-I. S387Y is the first reported mutation in the TbetaR-I gene in human cancer that was primarily associated with lymph node metastases in the present series.     

The use of prostaglandins and oxytocin for transcervical recovery of bovine fetuses at days 33-58 of gestation

The LH/CG receptor (LH/CG-R) is a G protein-coupled receptor with a relatively large glycosylated extracellular domain. The complete 674 amino acid residue rat receptor was expressed in Sf9 insect cells using the baculovirus expression system. Optimal expression under the control of the polyhedrin promoter was obtained at 72 h post-infection and a multiplicity of infection of 0.1. The recombinant LH/CG-R was expressed on the cell surface (ca. 4500 receptors/cell) and exhibited saturable, high affinity binding of human CG (hCG) with a Kd of 0.4 nM. There was no evidence of intracellular trapping of the receptor. The intracellular concentration of cAMP was increased in response to hCG binding. In contrast, baculovirus-expressed recombinant hCG only weakly stimulated intracellular cAMP levels at relatively high doses. Two forms of the receptor (approximately 75 and approximately 200 kDa) were detected by Western blot analysis. These results demonstrate that the full length LH/CG-R expressed in insect cells is functional in that it binds hormone with high affinity and is able to couple to adenylate cylase.     

Aspartate-474 in the first exoplasmic loop of the thyrotropin receptor is crucial for receptor activation

Asp-474 in the first exoplasmic loop of the thyrotropin receptor (TSHR), which is conserved among all glycoprotein hormone receptors, was mutated to Glu which is similarly charged but is longer by one methylene group and expressed in Cos-7 cells. Cells expressing this mutant receptor showed markedly impaired TSH- and TSAb (thyroid stimulating antibody)-stimulated cAMP responses with no effect on TSH binding affinity when compared with cells expressing a similar number of wild-type receptors. These results suggest the importance of Asp-474 in TSHR in receptor activation as demonstrated for LHR (lutropin receptor), but this, unlike LHR, is not due to the electrostatic interaction of this Asp residue with the alpha-subunit Lys-91 of the hormone.     

Peripheral-type benzodiazepine receptor function in cholesterol transport. Identification of a putative cholesterol recognition/interaction amino acid sequence and consensus pattern

In steroid-synthesizing cells, like the MA-10 mouse tumor Leydig cells, the peripheral-type benzodiazepine receptor (PBR) is an outer mitochondrial membrane protein involved in the regulation of cholesterol transport from the outer to the inner mitochondrial membrane, the rate-determining step in steroid biosynthesis. Expression of PBR in Escherichia coli DE3 cells, which have no PBR, no cholesterol, and do not make steroids, induced the ability to take up cholesterol in a time-dependent, temperature-sensitive, and energy-independent manner. These cells took up no other steroids tested. Addition of the high affinity PBR ligand PK 11195 to cholesterol-loaded membranes, obtained from cells transfected with PBR, resulted in the release of the uptaken cholesterol. Expression in DE3 cells of mutant PBRs demonstrated that deletions in the cytoplasmic carboxy-terminus dramatically reduced the cholesterol uptake function of PBR, although it retained full capacity to bind PK 11195. Site-directed mutagenesis in the carboxy-terminal region of PBR demonstrated that bacteria expressing the mutant PBR proteins PBR(Y153S) and PBR(R156L) do not accumulate cholesterol, suggesting that amino acids Y153 and R156 are involved in the interaction of the receptor with cholesterol. Considering these results, we postulate the existence of a common cholesterol recognition/interaction amino acid consensus pattern (-L/V-(X)(1-5)-Y-(X)(1-5)-R/K-). Indeed, we found this amino acid consensus pattern in all proteins shown to interact with cholesterol. In conclusion, these data suggest that the expression of PBR confers the ability to take up and release, upon ligand activation, cholesterol. Considering the widespread occurrence of this protein and its tissue and cell specific subcellular localization, these results suggest a more general role of PBR in intracellular cholesterol transport and compartmentalization.     

The role of N-glycosylation for functional expression of the human platelet-activating factor receptor. Glycosylation is required for efficient membrane trafficking

Streptococcus pneumoniae has been shown to utilize the platelet activating factor receptor for binding and invasion of host cells (Cundell, D. R., Gerard, N. P., Gerard, C., Idanpaan-Heikkila, I., and Tuomanen, E. I. (1995) Nature, in press). Because bacterial binding is in part carbohydrate dependent, and the human platelet-activating factor (PAF) receptor bears a single N-linked glycosylation sequence in the second extracellular loop, we undertook studies to determine the role of this epitope in PAF receptor function. Binding of pneumococci to COS cells transfected with the human PAF receptor is greatly reduced for a receptor mutant that bears no N-linked glycosylation site. Immunohistochemical and binding analyses show decreased expression of the non-glycosylated molecule on the cell membrane relative to the wild type receptor; however, metabolic labeling and immunopurification indicate it is synthesized intracellularly at a level similar to the native molecule. A mutant receptor encoding a functional glycosylation site at the NH2 terminus is better expressed at the cell surface compared with the non-glycosylated form, indicating that trafficking to the cell surface is facilitated by glycosylation, but its location is relatively unimportant. The binding affinity for PAF is not significantly effected by the presence or location of the carbohydrate, and variations in cell surface expression have little influence on signal transduction, as the non-glycosylated PAF receptor is equally effective for activation of phospholipase C as the native molecule. These data are supportive of pneumococcal binding on protein moiety(ies) of the PAF receptor and indicate that N-glycosylation facilitates expression of the protein on the cell membrane.     

Growth inhibition by transforming growth factor beta (TGF-beta) type I is restored in TGF-beta-resistant hepatoma cells after expression of TGF-beta receptor type II cDNA

The growth of human hepatoma Hep 3B cells is potently inhibited by TGF-beta 1 (ID50 = 0.2 ng/ml, 8 pM). A mutant cell line was derived that was not inhibited in growth by TGF-beta 1 at 5 ng/ml (200 pM) and that lacked TGF-beta receptor type II (TGF-beta RII) gene. Transfection of the cloned cDNA for human TGF-beta RII to this mutant cell line restored receptor expression as well as the inhibition in growth by TGF-beta 1. In both wild-type and mutant cells stably transfected with TGF-beta RII cDNA, TGF-beta RII coimmunoprecipitated with TGF-beta receptor type I in the presence of ligand. These experiments provide direct evidence for the role of TGF-beta RII in the inhibitory effect of TGF-beta on growth and suggest that TGF-beta RII acts by means of a heteromeric surface complex with TGF-beta receptor type I.     

The ligand binding site of NPY at the rat Y1 receptor investigated by site-directed mutagenesis and molecular modeling

The ligand binding site of neuropeptide Y (NPY) at the rat Y1 (rY1,) receptor was investigated by construction of mutant receptors and [3H]NPY binding studies. Expression levels of mutant receptors that did not bind [3H]NPY were examined by an immunological method. The single mutations Asp85Asn, Asp85Ala, Asp85Glu and Asp103Ala completely abolished [3H]NPY binding without impairing the membrane expression. The single mutation Asp286Ala completely abolished [3H]NPY binding. Similarly, the double mutation Leu34Arg/Asp199Ala totally abrogated the binding of [3H]NPY, whereas the single mutations Leu34Arg and Asp199Ala decreased the binding of [3H]NPY 2.7- and 5.2-fold, respectively. The mutants Leu34Glu, Pro35His as well as Asp193Ala only slightly affected [3H]NPY binding. A receptor with a deletion of the segment Asn2-Glu20 or with simultaneous mutations of the three putative N-terminal glycosylation sites, displayed no detectable [3H]NPY binding, due to abolished expression of the receptor at the cell surface. Taken together, these results suggest that amino acids in the N-terminal part as well as in the first and second extracellular loops are important for binding of NPY, and that Asp85 in transmembrane helix 2 is pivotal to a proper functioning of the receptor. Moreover, these studies suggest that the putative glycosylation sites in the N-terminal part are crucial for correct expression of the rY1 receptor at the cell surface.