Role of the invariant aspartic acid 99 of human choriogonadotropin beta in receptor binding and biological activity

The four human glycoprotein hormones are heterodimers that contain a common alpha subunit and a hormone-specific beta subunit. Within this hormone family, 23 amino acid sequences from 11 mammalian species are available. There are 19 invariant amino acid residues in the beta subunits, 12 of which are Cys that form six disulfide bonds. Of the remaining seven conserved amino acid residues, we have investigated the role of an Asp which occurs at position 99 in human choriogonadotropin beta (hCG beta). Site-directed mutagenesis was used to replace hCG beta Asp99 with three residues, Glu, Asn, and Arg, and to prepare an inversion double mutant protein, Arg94----Asp and Asp99----Arg. The cDNAs were placed in a eukaryotic expression vector, and the plasmids were transiently transfected into Chinese hamster ovary cells containing a stably integrated gene for bovine alpha. Radioimmunoassays demonstrated that the mutant forms of hCG beta were capable of subunit assembly to the same extent as hCG beta wild type. The heterologous heterodimers were assayed in vitro using transformed mouse Leydig cells (MA-10) by competitive inhibition of 125I-hCG binding and stimulation of progesterone production. The gonadotropins containing Glu and Asn were active, although the potency was less than that associated with the hCG beta wild type-containing gonadotropin. In contrast, the Arg99-containing mutant protein and the inversion mutant protein Asp94/Arg99 were devoid of activity. Thus, in hCG beta Asp99 can be substituted with certain residues without total loss of function, although replacement with a positively charged residue leads to an inactive heterodimer. The primary role of Asp99 in hCG beta seems to involve, either directly or indirectly, receptor recognition.     

An extensive survey of CK2 alpha and beta subunits in Arabidopsis: multiple isoforms exhibit differential subcellular localization

Casein kinase 2 (CK2) is a ubiquitous enzyme essential for the viability of eukaryotic cells. In the present work we analyzed the Arabidopsis thaliana genome in a search for the genes coding for all CK2 alpha and beta subunits. We found four alpha subunit and four beta subunit genes. Expression analysis showed that all CK2 subunit genes are expressed in inflorescences, stems, leaves and roots. The level of expression of these genes is very similar, except for the one that codes for an alpha subunit harboring a putative chloroplastic destination peptide (alphacp), which shows a slightly higher expression level in all tissues. Using transgenic plants and agroinfiltration, we have also characterized the subcellular localization of all proteins encoded by CK2 genes. Our results show that all alpha subunits are localized in the nucleus, with the exception of alphacp, which is only found in the chloroplasts. On the other hand, beta subunits have a more diverse distribution, with some of them localizing both to the nucleus and to the cytosol, while others are exclusively located in one of these compartments. Remarkably, no CK2beta subunit was found in the chloroplasts. Finally, by directly measuring its activity, we have demonstrated that purified Arabidopsis chloroplasts have active CK2 that can be regulated by external addition of CK2beta. This study represents a complete survey of the CK2 gene family in Arabidopsis and the first step for future studies on CK2 cellular function in this species.     

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.     

Characterization of the expression products of recombinant human choriogonadotropin and subunits

Human choriogonadotropin (hCG) is a placental glycoprotein hormone composed of a 92-amino acid alpha subunit noncovalently linked to a 145-amino acid beta subunit. We report here the expression of biologically active hCG in mouse C127 cells transfected with expression vectors containing the DNA coding for both subunits. In addition, the same cell line was used to express the alpha subunit alone. The expression products were purified by affinity chromatography using specific monoclonal antibodies to hCG or its subunits. The system secreting biologically active hCG also produced a 10-fold or greater molar excess of free beta subunit. The dimeric hormone, as well as the excess beta subunit, resembles the standard urinary hCG and beta subunit by chemical and biological criteria. In contrast, when the vector encoding for the alpha subunit was expressed alone, the alpha subunit had a higher molecular weight than both standard alpha and the alpha found in the expressed dimeric hormone. The molecular weight difference between expressed alpha subunit and standard alpha was found to reside in the alpha peptide consisting of residues 52-91 which contained all of the carbohydrate of the alpha subunit. The N-asparagine-linked carbohydrate moieties in the recombinant alpha were found to be triantennary in contrast to biantennary in urinary alpha, and this hyperglycosylation was responsible for the higher molecular weight of the alpha subunit when it was expressed alone. We found no evidence of O-threonine glycosylation at position alpha 39 reported to be present in free forms of the alpha subunit; however, the companion paper (Corless, C.L., Bielinska, M., Ramabhadran, T. V., Daniels-McQueen, S. Otani, T., Reitz, B. A., Tiemeier, D. C., and Boime, I. (1987) J. Biol Chem. 262, 14197-14203) finds a small quantity of O-glycosylation. Since the excess beta subunit appears to be of normal size and contains the expected complement of sugars, only free alpha subunit seems to be a potential substrate for addition of extra sugar moieties. No large beta subunit forms have been found by others, while large alpha subunits have been described both clinically and in tissue culture systems. These observations imply that the conformation of the free alpha subunit, in the regions of the glycosylation recognition sites, allows easier access for glycosyltransferases than those same sites in the beta subunit. When alpha is combined with beta, the local structures around the alpha glycosylation sites are apparently altered so as to make the synthesis of triantennary chains less favorable.     

Localization of residues that confer antibody binding specificity using human chorionic gonadotropin/luteinizing hormone beta subunit chimeras and mutants.

The glycoprotein hormones are a family of conserved heterodimeric proteins which share a common alpha subunit but differ in their hormone-specific beta subunits. We used chimeras of human chorionic gonadotropin (hCG) and luteinizing hormone (hLH) beta subunits to identify residues which enable monoclonal antibodies (mAb) to distinguish the two hormones. The LH beta-CG beta chimeras appeared to fold similar to hCG beta, since they combined with hCG alpha and, depending on their sequences, were recognized by hCG-selective mAbs. Amino acid residues Arg8-Arg10,Gly47-Ala51, and Gln89-Leu92 form a major epitope region and appear to be adjacent to each other on the surface of hCG beta. Gly47-Ala51 and Gln89-Leu92 are recognized by dimer-specific mAbs while Arg8-Arg10 is recognized by mAbs which have highest affinity for the free beta subunit. These observations suggest that the conformation of this region of the beta subunit changes when the alpha and beta subunits combine. Residues which are C-terminal of Asp112 form a second epitope domain. mAbs to the third domain distinguish hCG beta and hLH beta by the presence of Asn77 in hCG beta and can be detected after hCG binds to receptors. These findings were used to develop a model of hCG beta which predicts the locations of these residues and their positions relative to the alpha subunit and receptor interfaces.     

Hyperexpression and purification of biologically active human luteinizing hormone and human chorionic gonadotropin using the methylotropic yeast, Pichia pastoris

The glycoprotein hormones, luteinizing hormone (LH), human chorionic gonadotropin (hCG), thyroid stimulating hormone (TSH), and follicle stimulating hormone (FSH), play important roles in overall physiology and reproduction. These hormones are heterodimeric molecules consisting of an identical alpha subunit non-covalently associated with the hormone-specific beta subunit. The inherent structural intricacies possessed by these hormones make them very interesting model systems for structure-function relationship studies of complex dimeric glycoproteins. The structural studies, as well as, the therapeutic applications require large quantities of biologically active hormones free of any contaminants. In this study, we report hyperexpression and purification of biologically active recombinant hLH and hCG expressed using Pichia pastoris expression system. A combination of hydrophobic interaction chromatography and ion exchange chromatography has been used to purify these recombinant hormones to homogeneity. Using a number of biochemical and immunological criteria, the recombinant hormones have been shown to be similar to the natural hormones and were equally biologically active. The preliminary data also suggested that P. pastoris cells express a low molecular weight isoform of hCG that appeared to be less glycosylated. This isoform exhibited lesser affinity for the receptor as compared to hCG, but was found to be fully biologically active.     

Genomic characterization of the human heterotrimeric G protein alpha, beta, and gamma subunit genes.

Heterotrimeric guanine nucleotide binding proteins (G proteins) transduce extracellular signals received by transmembrane receptors to effector proteins. Each subunit of the G protein complex is encoded by a member of one of three corresponding gene families. Currently, 16 different members of the alpha subunit family, 5 different members of the beta subunit family, and 11 different members of the gamma subunit family have been described in mammals. Here we have identified and characterized Bacterial Artificial Chromosomes (BACs) containing the human homologs of each of the alpha, beta, and gamma subunit genes as well as a G alpha11 pseudogene and a previously undiscovered G gamma5-like gene. The gene structure and chromosome location of each gene was determined, as were the orientations of paired genes. These results provide greater insight into the evolution and functional diversity of the mammalian G protein subunit genes.     

Effect of human chorionic gonadotropin derivatives on leydig cell function.

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

20-Hydroxyecdysone induces the expression of one beta-tubulin gene in Drosophila Kc cells

The expression of 56D and 60C beta-tubulin genes has been examined in Drosophila melanogaster Kc cells in response to the insect moulting hormone, 20-hydroxyecdysone (20-OH-E). Northern blots probed with beta-tubulin subclones show that the 56D beta-tubulin gene encodes a 1.8 kb mRNA whose abundance is not affected by 20-OH-E. The 60C gene probe detects two mRNAs: one of 1.8 kb present in untreated and 20-OH-E-treated cells, and one of 2.6 kb present only in 20-OH-E-treated cells; using a 60C 3'-specific probe, only the 2.6 kb is revealed. Hybrid selection translation experiment demonstrates that a 20-OH-E-inducible mRNA homologous to the 60C gene encodes a beta-tubulin subunit (P4); this subunit is the so-called beta 3-tubulin. Translation of size-fractionated mRNA shows that the 20-OH-E-induced beta 3-tubulin subunit is encoded, in treated cells, by the 2.6 kb mRNA.     

Over-expression and characterization of recombinant beta subunit of the human chorionic gonadotropin hormone synthesized in insect cells infected with a genetically engineered baculovirus.

A recombinant baculovirus, vAc beta hCG, having a replacement of the viral polyhedrin gene with the cDNA encoding the beta subunit of hCG was used to express beta hCG, an extensively glycosylated hormone, in insect cells. Virus-infected cells, 72 hr pi, secreted approximately 8.02 micrograms beta hCG/2 x 10(6) cells/ml. The recombinant beta hCG purified from insect cells exhibited increased mobility on SDS-PAGE as compared to authentic urinary beta hCG, a reflection on differences in glycosylation between insect and mammalian systems. The insect derived beta hCG, however, was identical to the native hormonal peptide in terms of immunoreactivity and bioactivity on association with alpha-subunit, as evident by its binding to rat testicular receptors and induction of steroidogenesis in a mouse Leydig cell bioassay system. The implications of using the baculovirus system to study the importance of carbohydrates for biological activity are also discussed.     

Contributions of arginines-43 and -94 of human choriogonadotropin beta to receptor binding and activation as determined by oligonucleotide-based mutagenesis

Members of the glycoprotein hormone family contain a common alpha subunit and a hormone-specific beta subunit. Human choriogonadotropin (hCG) beta is a 145 amino acid residue protein glycosylated at 6 positions (2 N-linked and 4 O-linked oligosaccharides). In an effort to elucidate receptor determinants on hCG beta, we have used site-directed mutagenesis to prepare and express several mutant cDNAs with replacements at arginines-43 and -94. Arg-43 is invariant in all known mammalian CG/lutropin beta amino acid sequences, and Arg-94 is conserved in 10 of the 12 sequences. Moreover, various studies involving synthetic peptides and enzymatic digestions of intact beta chains suggest that these residues may be important in hCG receptor binding. Point mutants were made in which these two arginines were replaced with the corresponding residues in human follitropin beta, Leu-43 and Asp-94. The wild-type and mutant beta chains were expressed in CHO cells containing a stably integrated gene for bovine alpha, and heterodimer formation occurred. These heterologous gonadotropins were active in assays using transformed Leydig cells, competitive binding with standard 125I-hCG, and cAMP and progesterone production, but the potency was considerably less than that associated with the hCG beta wild-type-containing gonadotropin. The double-mutant protein Arg-43 to Leu/Arg-94 to Asp also associated with bovine alpha, but the resultant heterodimer exhibited only low activity. Replacement of each arginine with lysine yielded heterodimers that were at least as potent as bovine alpha-hCG beta wild type, but the Lys-43-containing beta chain appeared to exhibit a low degree of subunit association or reduced stability relative to the expressed hCG beta wild type. These results demonstrate that arginines-43 and -94 contribute to receptor binding through a positive charge.