The role of the asparagine-linked oligosaccharides of the alpha subunit in the secretion and assembly of human chorionic gonadotrophin.

Human chorionic gonadotropin (hCG) is a member of a family of heterodimeric glycoprotein hormones that have a common alpha subunit but differ in their hormone-specific beta subunit. Site-directed mutagenesis of the two asparagine-linked glycosylation sites of hCG alpha was used to study the function of the individual oligosaccharide chains in secretion and subunit assembly. Expression vectors for the alpha genes (wild-type and mutant) and the hCG beta gene were constructed and transfected into Chinese hamster ovary cells. Loss of the oligosaccharide at position 78 causes the mutant subunit to be degraded quickly and less than 20% is secreted. However, the presence of hCG beta stabilizes this mutant and allows approximately 45% of the subunit in the form of a dimer to exit the cell. Absence of carbohydrate at asparagine 52 does not perturb the stability or transport of the alpha subunit but does affect dimer secretion; under conditions where this mutant or hCG beta was in excess, less than 30% is secreted in the form of a dimer. Mutagenesis of both glycosylation sites affects monomer and dimer secretion but at levels intermediate between the single-site mutants. We conclude that there are site-specific functions of the hCG alpha asparagine-linked oligosaccharides with respect to the stability and assembly of hCG.

Cytological distribution of chorionic gonadotropin subunit and placental lactogen messenger RNA in neoplasms derived from human placenta.

Normal trophoblast of the human placenta elaborates at least two major protein hormones, chorionic gonadotropin (hCG), and placental lactogen (hPL). There are several gestational trophoblastic diseases of the placenta called hydatidiform mole, invasive mole, and choriocarcinoma. Molar and choriocarcinoma tissues characteristically synthesize large amounts of hCG and small quantities of hPL. To examine the role of trophoblast differentiation in the expression of the hCG and hPL genes, we studied the cytological distribution of their messenger RNA (mRNA) in tissue sections of human hydatidiform mole and choriocarcinoma by in situ hybridization. Histologically, these tissues are in different stages of cellular differentiation. In normal placenta, hCG alpha and -beta mRNA can be localized to some cytotrophoblasts and primarily to the syncytium, whereas hPL mRNA appears only in the syncytial layer. In hydatidiform mole, which still retains placental villous morphology, the hPL gene and hCG alpha and -beta genes are expressed but are poorly localized because of the admixture of cyto- and syncytiotrophoblasts. By contrast, choriocarcinoma, which is devoid of placental villous pattern but in which the cyto- and syncytiotrophoblast-like components are distinguishable, expresses hCG alpha and -beta in the syncytial-like areas but little, if any, hPL. These results suggest that a certain level of trophoblast differentiation, such as villous formation, is associated with hPL expression, while the hCG alpha gene and the hCG beta gene can be expressed in more disorganized tissues that contain cytotrophoblastic elements.

Cytological localization of chorionic gonadotropin alpha and placental lactogen mRNAs during development of the human placenta.

Probes derived from clones bearing cDNAs corresponding to the alpha subunit of human chorionic gonadotropin (hCG) and human placental lactogen (hPL) were used to localize their respective mRNAs cytologically in sections of first trimester and term human placenta. hPL mRNA was exclusively localized to the syncytial layer, hCG alpha mRNA was found in the syncytial layer and also in some differentiating cytotrophoblasts. Hybridization was specific because no signal was observed when labeled pBR322 was hybridized to placental sections or when the placental probes were hybridized to sections of human tonsils. In addition, RNA in placental interstitial cells did not hybridize with hCG alpha and hPL probes. Hybridization with the hCG alpha probe was much greater in first trimester than in term sections, whereas hPL signals were comparable in both first trimester and term placentae. Syncytial formation proceeds through cellular intermediates of cytotrophoblastic origin, and the data suggest that transcription of the hCG alpha gene is initiated before the completion of syncytial formation. In contrast, hPL mRNA synthesis starts later in trophoblast differentiation, likely after the stage of syncytial formation. The data also suggested that hCG alpha mRNA synthesis becomes attenuated but that hPL is transcribed at a rather constant rate during placental development.

Mutagenesis and chimeric genes define determinants in the beta subunits of human chorionic gonadotropin and lutropin for secretion and assembly.

Chorionic gonadotropin (CG) and lutropin (LH) are members of a family of glycoprotein hormones that share a common alpha subunit but differ in their hormone-specific beta subunits. The glycoprotein hormone beta subunits share a high degree of amino acid homology that is most evident for the LH beta and CG beta subunits having greater than 80% sequence similarity. However, transfection studies have shown that human CG beta and alpha can be secreted as monomers and can combine efficiently to form dimer, whereas secretion and assembly of human LH beta is less efficient. To determine which specific regions of the LH beta and CG beta subunits are responsible for these differences, mutant and chimeric LH beta-CG beta genes were constructed and transfected into CHO cells. Expression of these subunits showed that both the hydrophobic carboxy-terminal seven amino acids and amino acids Trp8, Ile15, Met42, and Asp77 together inhibit the secretion of LH beta. The carboxy-terminal amino acids, along with Trp8, Ile15, Met42, and Thr58 are implicated in the delayed assembly of LH beta. These unique features of LH beta may also play an important role in pituitary intracellular events and may be responsible for the differential glycosylation and sorting of LH and FSH in gonadotrophs.

Gonadotropin beta subunits determine the rate of assembly and the oligosaccharide processing of hormone dimer in transfected cells.

The glycoprotein hormones lutropin (LH) and chorionic gonadotropin (CG) share a common structure consisting of an identical alpha subunit noncovalently linked to a hormone-specific beta subunit. While LH is produced in the anterior pituitary, CG is synthesized in placenta. To compare the assembly, processing, and secretion of human LH and CG in the same cell type, we have expressed their subunits, individually and together, in mouse C-127 mammary tumor cells. Analysis of transfected clones revealed an unexpected difference in the secretion of individually expressed subunits. Whereas alpha and CG beta subunits were rapidly and quantitatively secreted, only 10% of newly synthesized LH beta subunit reached the medium. The remaining subunit was found in an intracellular, endoglycosidase H (endo H)-sensitive pool that had a turnover rate of approximately 8 h. Coexpression with alpha subunit resulted in "rescue" of LH beta subunit by formation of LH dimer, which was efficiently secreted. However, combination of LH beta with alpha was slow, with an overall efficiency of only 50% despite the presence of excess alpha. In contrast, CG beta was rapidly assembled with the alpha subunit after synthesis. The two beta subunits also differed in their influence on the N-linked oligosaccharide processing of combined alpha. The oligosaccharides of LH dimer were endo H resistant, while those of CG dimer remained partially endo H sensitive. Thus, despite a high degree of homology between LH beta and CG beta, the two subunits differ in their secretion as free subunits, their rate of assembly with alpha subunit, and in their effect on the N-linked oligosaccharide processing of combined alpha.

Rat pro-opiomelanocortin contains sulfate.

Intermediate lobes isolated from rat pituitary glands incorporated [35S]sulfate into pro-opiomelanocortin and other adrenocorticotropic hormone-containing peptides. Incubation of intermediate lobes in medium containing the arginine analog canavanine inhibited the cleavage of pro-opiomelanocortin into smaller products. Pro-opiomelanocortin that accumulated in the presence of canavanine was also sulfated.

Translation of bacteriophage Q messenger RNA in a murine Krebs 2 ascites tumor cell-free system.

Qbeta is a small bacterial virus whose three genes are encoded in a single-stranded molecule of RNA. This RNA serves directly as the Qbeta message. Here we describe conditions under which RNA corresponding to the coat cistron of this bacterial virus is translated in a system derived from mammalian cells. Translation of the bacterial virus messenger RNA is less effective than that of mammalian globin messenger RNA, but is somewhat enhanced by mild alkali treatment of the messenger. The synthesized product when subjected to electrophoresis migrates with authentic Qbeta coat protein and yields tryptic peptides that correspond to those derived from the Qbeta coat protein.

The expanding role of recombinant gonadotropins in assisted reproduction.

Using recombinant gonadotropins for assisted reproduction of domestic species is still in its infancy. Yet, the purity, potency and pathogen-free nature of recombinant gonadotropins make them attractive alternatives to tissue-derived gonadotropic agents. In this study, the authors summarize the work to date using recombinant gonadotropins to enhance the - fertility of domestic animals and they discussed their recent studies examining the biopotency of single chain analogues of human gonadotropins. In these studies, single chain analogues of follicle stimulating hormone (Fc alpha), chorionic gonadotropin (CG beta alpha) or a gonadotropin construct with dual activity (FcCG beta alpha) were administered to sheep pre-treated with antisera directed against GnRH. Ovulation was induced 3 days after analogue administration using hCG (1000 IU, iv). Although Fc alpha or CG beta alpha alone induced only modest oestradiol production during the pre-hCG period, serum concentrations of oestradiol were markedly increased (p < 0.05) 3 days after administration of FcCG beta alpha or the Fc alpha + CG beta alpha combination. Final ovarian weight was significantly increased (p < 0.05) in animals receiving Fc alpha, Fc alpha + CG beta alpha or FcCG beta alpha. Collectively, these observations demonstrate that the single chain analogues of the human gonadotropins are active in sheep.

Differential expression of the human gonadotropin alpha gene in ectopic and eutopic cells.

We have analyzed the regulation of the alpha gonadotropin gene in eutopic placental cells and ectopic tumor cells by constructing a series of plasmid vectors containing alpha genomic 5' flanking DNA placed upstream of the gene encoding the bacterial enzyme chloramphenicol acetyltransferase (CAT). These plasmid DNAs were transfected into a eutopic (JAr) and an ectopic (HeLa) cell line. Both cell types expressed the CAT gene from plasmid constructs containing as much as 1,500 base pairs (bp) and as little as 140 bp of alpha 5' flanking DNA; JAr cells were considerably more efficient than HeLa cells. Ectopic and eutopic cells differed qualitatively in their expression from these alpha-CAT constructs when cells were treated with cAMP or butyrate. Butyrate induced alpha expression in HeLa cells but not in JAr cells, while cAMP induced expression in JAr cells. These results are consistent with and extend previous observations suggesting that there are cell-specific differences in the regulation of alpha gene expression in ectopic and eutopic cells. However, by using deletion constructs of the alpha-CAT gene, we found that the basal expression and cell-specific induction of the alpha gene in ectopic and eutopic cells were dependent on the same 140 bp of alpha 5' flanking DNA. These 140 bp were sequenced and found to contain a 9-bp stretch of DNA homologous with the consensus viral enhancer sequence. Such features of alpha expression common to both ectopic and eutopic cells may be involved in the coordinate expression of the alpha gene and the tumorigenic phenotype observed in each cell type.

Design of stable biologically active recombinant lutropin analogs.

Glycoprotein hormones are noncovalent heterodimers comprised of a common alpha subunit and a hormone-specific beta subunit. Secretion and biologic action of these hormones are dependent on the formation of the heterodimer. The human LH beta subunit is unique among the other beta subunits in that it assembles inefficiently with the alpha subunit. To bypass this rate-limiting step, we constructed the LH single chains where the carboxy terminus of beta was fused to the amino terminus of alpha subunit through a linker. Compared to the human LH heterodimer, the extent of secretion was greater for the tethers although the rate was dependent on the nature of the linker. The LH single chains were biologically active even though there was loss of recognition by a LH-specific monoclonal antibody. This suggests that receptor binding of the single chains is not impaired by changes in the heterodimeric configuration resulting from tethering the subunits. In addition, single chains exhibited a remarkably greater in vitro stability than the heterodimer, implying that these analogs will be useful as diagnostic reagents and that their purification will be facilitated.

The efficacy of a single chain recombinant equine luteinizing hormone (reLH) in mares: induction of ovulation, hormone profiles, and inter-ovulatory intervals.

The objectives of this study were to determine the efficacy of recombinant equine luteinizing hormone (reLH) in shortening the time to ovulation in cycling mares and to determine the effects of treatment on endogenous hormones and inter-ovulatory intervals. In study 1, mares of light horse breeds (3-20 years) were treated with either a vehicle, various doses of reLH, or human chorionic gonadotropin (hCG). Cycling mares were examined by palpation and ultrasound per rectum daily or every 12h from the time of treatment to ovulation. In studies 2 and 3, jugular blood samples were collected daily or every 12h from the time of treatment to ovulation for analysis of LH, follicle stimulating hormone (FSH), estradiol-17beta (E(2)), and progesterone (P(4)) by radioimmunoassays (RIA). Increasing doses of reLH (0.3, 0.6, 0.75, and 0.9 mg) showed increasing effectiveness at inducing ovulation within 48 h of treatment. Treatments with the 0.75 and 0.9 mg doses of reLH resulted in 90% and 80% ovulation rates, which were similar to hCG treatment (85.7%). Except for the early rise in LH after treatment with 0.5, 0.65, and 1.0mg of reLH, hormone profiles appeared to be similar between control and treated cycles. Inter-ovulatory intervals were similar between control and treatment cycles. In conclusion, reLH is a reliable and effective ovulatory agent that does not significantly alter endogenous hormone profiles or affect inter-ovulatory intervals.

Converting heterodimeric gonadotropins to genetically linked single chains: new approaches to structure activity relationships and analogue design.

One of the distinguishing features of the gonadotropin and thyrotropin hormone family is their heterodimeric structure; the subunits combine early in the secretory pathway and only the dimers are capable of binding to receptors. Therefore, assembly is rate limiting in the production of functional heterodimers, a problem encountered when removing the carbohydrates from one or both subunits as discussed in this review. If the heterodimers can be expressed as single chains, this might avoid mutagenesis-induced defects in secretion and combination of individual subunits for structure-function studies and analogue design. Here we discuss the feasibility of this approach for such problems.

Novel recombinant gonadotropins.

The gonadotropin hormones chorionic gonadotropin, luteinizing hormone and follicle-stimulating hormone are heterodimers that consist of a common alpha subunit noncovalently associated with a hormone-specific beta subunit. Site-directed mutagenesis and gene transfer techniques have been invaluable tools for elucidating structure-function determinants of these hormones. Here, we review how questions about the structural biology of these glycoprotein hormones have provided crucial information for creating analogs (agonists and antagonists) that can be used to treat infertility in the clinic. The ability to manipulate the protein structure of these hormones will enable the engineering of both long- and short-acting therapeutic agents.

Site-directed mutagenesis defines a domain in the gonadotropin alpha-subunit required for assembly with the chorionic gonadotropin beta-subunit.

hCG, LH, FSH, and TSH are a family of heterodimeric glycoprotein hormones that share a common alpha-subunit, but differ in their hormone-specific beta-subunits. Using site-directed mutagenesis and gene transfer, we studied the region in the common alpha-subunit that has been implicated in the assembly with the beta-subunits. The wild-type or mutated alpha-gene was cotransfected into Chinese hamster ovary cells with the wild-type hCG beta gene. Deletion of the sequence Pro38-Thr39-Pro40 or a change in Tyr37 or Thr39 in the alpha-subunit eliminated or reduced combination with the beta-subunit. Deletion of the sequence Leu41-Arg42-Ser43 had little effect on hCG dimer formation. Disruption of the disulfide bone in the carboxyl end of the subunit did not affect assembly, which suggests that the disulfide bond of Cys59 and Cys87 is not critical for dimer formation. Based on our data and the previously published results from several laboratories, the region encompassed by amino acids 37-40 is a key determinant in initiating and maintaining alpha:beta assembly.

The carboxyl-terminal region is a determinant for the intracellular behavior of the chorionic gonadotropin beta subunit: effects on the processing of the Asn-linked oligosaccharides.

The placental hormone human CG (hCG) consists of two noncovalently linked alpha- and beta-subunits similar to the other glycoprotein hormones LH, FSH, and TSH. These heterodimers share a common alpha subunit but differ in their structurally distinct beta subunits. The CGbeta subunit is distinguished among the beta subunits by the presence of a C-terminal extension with four serine-linked oligosaccharides (carboxyl terminal peptide or CTP). In previous studies we observed that deleting this sequence decreased assembly of the truncated CGbeta subunit (CGbeta114) with the alpha-subunit and increased the heterogeneity of the secreted forms of the uncombined subunit synthesized in transfected Chinese hamster ovary (CHO) cells. The latter result was attributed to alterations in the processing of the two N-linked oligosaccharides. To examine at what step this heterogeneity occurs, the CGbeta and CGbeta114 genes were transfected into wild-type and mutant CHO cell lines that are defective in the late steps of the N-linked carbohydrate-processing pathway. We show here that removal of the CTP alters the processing of the core mannosyl unit of the subunit to complex forms at both glycosylation sites and that the oligosaccharides contain polylactosamine. Although it has been presumed that there is little intramolecular interaction between the CTP and the proximal domains of the subunit, our data suggest that the CTP sequence participates in the folding of the newly synthesized subunit, which is manifest by the posttranslational changes observed here.

Human luteinizing hormone and chorionic gonadotropin are targeted to a regulated secretory pathway in GH3 cells.

LH is a dimeric glycoprotein hormone that is stored in the anterior pituitary and is released in response to GnRH, while the placental hormone, human CG (hCG), sharing the same alpha-subunit and a related beta-subunit, is secreted constitutively. In search of a determinant that allows sorting of LH into a regulated secretory pathway, the genes encoding the common alpha- and LH/CG beta-subunits were expressed in the GH3 rat pituitary tumor cell line, which contains a regulated secretory pathway. Steady state labeling and subsequent chase experiments showed that not only LH but also hCG can be sorted to a regulated secretory pathway; after an initial period of constitutive secretion, the mature forms of both hormones containing processed oligosaccharides were stored intracellularly, and their release was stimulated by either forskolin or KCl depolarization. In Chinese hamster ovary cells, which lack a regulated pathway and are devoid of storage granules, only hormones containing unprocessed N-linked oligosaccharides were found. In GH3 cells the LH beta-subunit was partially retained in an endoglycosidase H-sensitive form, presumably in the endoplasmic reticulum; the enzyme-resistant fraction was secreted through a regulated secretory pathway. A large fraction of the hCG beta-subunit was released constitutively, although some mature hCG beta-subunit accumulated in secretory granules and was released by forskolin. The common alpha-subunit was secreted constitutively with little intracellular accumulation of the mature forms. We conclude that the LH beta-subunit contains sufficient information to direct LH to a regulated pathway, and alpha:LH beta assembly is not a prerequisite for this targeting. The sorting of hCG to a regulated pathway in GH3 cells presumably reflects a structural similarity between LH and hCG. In addition, we have shown that GH3 cells can recognize the N-linked oligosaccharides on the gonadotropin subunits as substrates for sulfation.

Expression of recombinant human choriogonadotropin in Chinese hamster ovary glycosylation mutants.

Human CG, a member of the glycoprotein hormone family that includes LH, FSH, and TSH, is composed of two nonidentical subunits each containing two asparagine linked (N-linked) oligosaccharides. The role of the oligosaccharides in the action of these hormones is unclear. To examine the structure-activity relationships of the glycoprotein hormone oligosaccharides using nonenzymatic and nonchemical methods, we transfected CG subunit genes into mutant cell lines derived from Chinese hamster ovary cells. Two mutant cell lines that synthesize truncated oligosaccharides were used. Cell line 15B, lacking N-acetylglucosaminyltransferase I, synthesizes N-linked carbohydrates containing Man5 oligomannosyl structures, and 1021, defective in transporting CMP-sialic acid into the Golgi, results in sialic-acid deficient glycoproteins. The binding of these derivatives to the LH/CG receptor did not differ significantly from purified CG (CR119), but the ability of the mutant hormones to stimulate cAMP biosynthesis in vitro is reduced compared to wild-type CG or CR119. Since the amino acid sequence of CG from the mutant and wild-type cells is identical, these data indicate that oligosaccharide structures, while not influencing receptor binding, directly affect signal transduction.

The carboxy-terminal region of the beta-subunits of luteinizing hormone and chorionic gonadotropin differentially influence secretion and assembly of the heterodimers.

One of the major structural differences between the LH beta and CG beta subunits is the carboxy-terminal region: beyond amino acid 114, LH beta has a hydrophobic heptapeptide stretch, while CG beta contains a 31-amino acid hydrophilic carboxy-terminal peptide (CTP) that is O-glycosylated. The CG beta subunit is secreted quantitatively as a monomer and assembles efficiently whereas secretion and assembly of LH beta is inefficient. We previously implicated the carboxy-terminal heptapeptide as a determinant for the different intracellular behavior manifested by the LH beta subunit compared with the CG beta subunit. Here we tested the function of the heptapeptide and CTP domains by fusing them to their counterparts at amino acid 114 of CG beta or LH beta subunits. The secretion and assembly of these chimeras were examined in transfected Chinese hamster ovary cells. Removal of the heptapeptide enhanced the amount of LH beta subunit secreted 4-fold compared with intact LH beta. Fusion of this heptapeptide to CG beta 114, i.e. CG beta lacking the CTP, decreased the amount of secreted subunit 2-fold compared with wild type human CG beta. Similar experiments reveal that although deleting the CTP from the CG beta subunit did not significantly alter secretion, the combination efficiency of the truncated subunit was reduced to 60%. Perturbing the native carboxy-terminal sequence of either subunit increased the heterogeneity of the secreted forms. This result suggests that these regions are also involved in the posttranslational processing of the asparagine-linked oligosaccharides of the beta-subunits. Fusion of the LH beta heptapeptide to the truncated CG beta subunit decreased combination with the alpha-subunit. These data further support the hypothesis that the carboxy-terminal regions of LH beta and CG beta subunits play a role in the intracellular behavior of the corresponding heterodimers.

Bromo-adenosine stimulates choriogonadotropin production in JAr and cytotrophoblast cells: evidence for effects on two stages of differentiation.

8-Bromo-adenosine (8-Br-adenosine) stimulates CG production in the JAr choriocarcinoma cell line. Because production of the alpha and beta CG subunits is coupled to the differentiation state of the trophoblasts, we compared the effect of adenosine on CG synthesis in the choriocarcinoma cell line with that in cytotrophoblast cells isolated from normal human term placenta. 8-Br-adenosine stimulated CG production by 5- to 6-fold in both cell types, whereas 8-Br-guanosine had no effect, demonstrating specificity for adenine-containing derivatives. The ratio of CG alpha to CG beta production in JAr cells was 2:1 in the absence or presence of 8-Br-adenosine, whereas in cytotrophoblasts the ratio was 14:1 in controls, but decreased to 3:1 with 8-Br-adenosine. The latter is attributed to an enhanced production of the beta-sub-unit. Immunocytochemistry revealed that CG alpha and CG beta were only expressed in about 4% of JAr cells, and 8-Br-adenosine stimulated the number of positive cells 2- to 4-fold. Since 8-Br-adenosine also inhibited the division of JAr cells, the data suggest that it stimulates CG expression by promoting exit of a population of the cells from the cell cycle. In nondividing placenta-derived cytotrophoblasts, 8-Br-adenosine affects a later step in the differentiation pathway, resulting in a greater effect on the beta- than the alpha-subunit. Thus, our data further support the hypothesis that regulation of CG biosynthesis is linked to differentiation of the trophoblast.

Secretion of lutropin and follitropin from transfected GH3 cells: evidence for separate secretory pathways.

Although lutropin (LH) and follitropin (FSH) are synthesized in the same pituitary gonadotropes, their secretion patterns in response to several experimental paradigms are not the same. Previous studies showing differences in secretion kinetics and the magnitude of hormone release by secretagogues imply differences in mechanisms for the storage and release of these hormones. To examine the secretory fate of LH and FSH, the genes encoding the common alpha-subunit and the corresponding beta-subunits were transfected in rat somatotrope-derived GH3 cells, which contain regulated and constitutive secretory pathways. The use of a gene transfer/heterologous cell system avoids physiological variations and functional heterogeneity of gonadotropes. Pulse-labeling and subsequent chase experiments demonstrated that although one third of newly synthesized FSH enters a regulated pathway, the majority is released constitutively. This contrasts with LH, which is mainly secreted through a regulated pathway. Although stored LH and FSH are released from GH3 cells in response to both KCl and forskolin, the magnitude of FSH release by secretagogues is smaller than that of LH. In Chinese hamster ovary cells, which are devoid of regulated secretory pathway and lack secretory granules, the mature forms of LH and FSH are neither stored nor released by secretagogues. These observations indicate that the intracellular mechanisms for the storage and release of LH and FSH differ and suggest that primary secretion of LH and FSH is via the regulated and constitutive pathways, respectively.