Recombinant carbohydrate and selenomethionyl variants of human choriogonadotropin

Total hCG tests

INTRODUCTION

There are 12 types of automated total hCG tests sold today, the Abbott Architect, Abbott AxSym, the Beckman Access 2. Beckman DxI 800, the Ortho Vitros EciQ, Roche Elecsys hCG+β, Siemens ACS180, Siemens Centaur, Siemens Dimension, Siemens Immulite and Siemens Stratus, and the Tosoh A1A. All tests claim to be total hCG tests but do not define what total means. Total hCG test needs to detect all hCG variants in order to be used for all hCG test clinical applications. Here we assess this ability.

METHODS

Coded samples of pure hCG, nicked hCG, hyperglycosylated hCG, nicked hCG missing C-terminal peptide, nicked hyperglycosylated hCG, asialo hCG, hCGβ, nicked hCGβ and β-core fragment were tested blindly in serum and urine at 10 independent laboratories.

RESULTS

While the Siemens Immulite total hCG test detected 8 of 9 hCG variant standards, other assays poorly detected important determinants such as nicked hCG missing the C-terminal peptide, β-core fragment, hyperglycosylated hCG, nicked hCG, asialo hCG, and hCGβ. Four assay appropriately detected 4 of 9 variants, 2 assays detected 3 of 9, 4 assays detected 2 of 9 and 1 assay only appropriately detected 1 of 7 hCG variants.

DISCUSSION

Care is needed in selecting a total hCG test. The Siemens Immulite tests performed best at detecting all the hCG variants making it appropriate for all applications. Nine assays had limited applications, 3 of the assays were appropriate for advanced pregnancy testing only.

Targeting granzyme B to tumor cells using a yoked human chorionic gonadotropin

Purpose

Luteinizing hormone receptor (LHR) is found in abundance on human ovarian, breast, endometrial and prostate carcinomas but at only low levels on non-gonadal tissues. To selectively kill LHR-expressing tumors, granzyme B (GrB) was linked to a protein in which both chains of human chorionic gonadotropin were yoked together (YCG).

Methods

GrB-YCG was expressed and secreted from insect Sf9 cells. Its GrB enzymatic activity and binding affinity for hLHR were then characterized. The differential cytotoxicity of GrB-YCG versus GrB alone was tested in a panel of LHR-expressing tumor cells by SRB assay, and the mechanisms involved in the cell death were investigated by confocal fluorescence microscopy, flow cytometry, and western blot analysis.

Results

GrB-YCG was successfully expressed and secreted from Sf9 insect cells and purified from cell culture supernatants. The serine protease activity of GrB-YCG was equivalent to that of human recombinant GrB. An in vitro hormone binding assay revealed that the GrB-YCG molecule also retained the ability to bind to the LHR receptor with an affinity similar to that of native hCG. Upon cell binding, GrB-YCG was rapidly internalized into LHR-expressing human ovarian cancer cells and produced selective and potent tumor cell killing by inducing apoptosis through activation of caspase-3.

Conclusions

These results validate LHR as a therapeutic target and indicate that delivery of the human pro-apoptotic enzyme GrB to tumor cells by yoked hCG has substantial selectivity and therapeutic potential for human tumors that express high levels of LHR such as ovarian carcinomas.

Electronic supplementary material

The online version of this article (doi:10.1007/s00280-011-1573-4) contains supplementary material, which is available to authorized users.

Selenomethionine incorporation in proteins expressed in Lactococcus lactis

Lactococcus lactis is a promising host for (membrane) protein overproduction. Here, we describe a protocol for incorporation of selenomethionine (SeMet) into proteins expressed in L. lactis. Incorporation efficiencies of SeMet in the membrane protein complex OpuA (an ABC transporter) and the soluble protein OppA, both from L. lactis, were monitored by mass spectrometry. Both proteins incorporated SeMet with high efficiencies (>90%), which greatly extends the usefulness of the expression host L. lactis for X-ray crystallography purposes. The crystal structure of ligand-free OppA was determined at 2.4 A resolution by a semiautomatic approach using selenium single-wavelength anomalous diffraction phasing.

Development of stable isotope and selenomethionine labeling methods for proteins expressed in Pseudomonas fluorescens

Pseudomonas fluorescens is a robust protein expression system that is very well suited for high throughput protein expression for structural genomics studies. Since NMR spectroscopy and X-ray crystallography are both used by various investigators in structure elucidation studies, the availability of target proteins labeled with stable isotopes or selenomethionine is essential for the determination of protein structures. A completely defined medium for the expression and stable isotope labeling of proteins in P. fluorescens has been developed. The expression level of Bacillus thuringiensis Cry34 in the modified medium is comparable to that obtained in the original medium. In addition, more than 95% incorporation of 15N was obtained in Cry34 using 15N ammonium sulfate and the quality of the protein, as assessed by NMR analysis, is comparable to that made using commercial medium. High levels of selenomethionine (SeMet) incorporation in the Xenorhabdus nematophilus insecticidal protein XptA2 were also obtained in P. fluorescens using the defined medium, allowing development of a method for obtaining highly purified XptA2. The following observations were made when inhibitors of endogenous methionine biosynthesis were used in P. fluorescens culture when SeMet was substituted in XptA2: (I) there is little inhibition of cell growth or recombinant XptA2 expression in the presence of SeMet concentrations up to 300 mg/L in cell culture, (II) there was greater than 95% SeMet incorporation ratio in recombinant SeMet-labeled XptA2 (SeMet-XptA2) and the incorporation ratio is consistent and reproducible and (III) finally, purified SeMet-XptA2 possesses similar protein structure and insecticidal activity relative to the unlabeled counterpart XptA2 as shown by bioassay and differential scanning calorimetric analysis. The high SeMet incorporation should provide high accuracy and resolution in XptA2 phase determination by multiwavelength anomalous diffraction (MAD), indicating that P. fluorescens is an excellent expression host to produce SeMet-labeled proteins for structural study.

Characterization of the N-linked oligosaccharides from human chorionic gonadotropin expressed in the methylotrophic yeast Pichia pastoris

Human chorionic gonadotropin (hCG) is a heterodimeric, placental glycoprotein hormone involved in the maintenance of the corpus luteum during the first trimester of pregnancy. Biologically active hCG has been successfully expressed in the yeast Pichia pastoris (phCG). In the context of structural studies and therapeutic applications of phCG, detailed information about its glycosylation pattern is a prerequisite. To this end N-glycans were released with peptide-N(4)-(N-acetyl-beta-glucosaminyl)asparagine amidase F and fractionated via anion-exchange chromatography (Resource Q) yielding both neutral (80%) and charged, phosphate-containing (20%) high-mannose-type structures. Subfractionations were carried out via normal phase (Lichrosorb-NH(2)) and high-pH anion-exchange (CarboPac PA-1) chromatography. Structural analyses of the released N-glycans were carried out by using HPLC profiling of fluorescent 2-aminobenzamide derivatives, MALDI-TOF mass spectrometry, and 500-MHz(1)H-NMR spectroscopy. Detailed neutral oligosaccharide structures, in the range of Man(8)GlcNAc(2) to Man(11)GlcNAc(2) including molecular isomers, could be established, and structures up to Man(15)GlcNAc(2) were indicated. Phosphate-containing oligosaccharides ranged from Man(9)PGlcNAc(2) to Man(13)PGlcNAc(2). Mannosyl O-glycans were not detected. Profiling studies carried out on different production batches showed that the oligosaccharide structures are similar, but their relative amounts varied with the culturing media.

Production of selenomethionyl-derivatized proteins in baculovirus-infected insect cells

A protocol is described for the production of both intracellularly expressed and secreted selenomethionyl-derivatized recombinant proteins in baculovirus-infected insect cells. The method results in the production of recombinant soluble proteins with an SeMet occupancy of approximately 75% and with a recovery of approximately 20% that of native protein expression. The method is independent of the percentage methionine content of the protein and is reliable and consistent. Similar results are obtained using either Spodoptera frugiperda Sf9 or Trichoplusia ni High Five insect cells as the expression host, and when cultures are grown in either shake flasks or in Wave BioReactors.

Incorporation of selenomethionine into induced intracytoplasmic membrane proteins of Rhodobacter species

Efficient multiple- or single-wavelength anomalous dispersion (MAD/SAD) techniques that use tunable X-ray sources at third-generation synchrotrons exploit the anomalous scattering of certain heavy atoms for determination of experimental phases. Development of methods for the in vivo substitution of methionine by selenomethionine (SeMet) has revolutionized the process for determination of structures of soluble proteins in recent years. Herein, we report methods for biosynthetic incorporation of SeMet into induced intracytoplasmic membrane proteins of two species of the Rhodobacter genus of purple non-sulfur photosynthetic bacteria. Amino acid analysis of a membrane protein complex that was purified to homogeneity determined that the extent of SeMet incorporation was extensive and approached quantitative replacement. Diffraction-quality crystals were obtained from SeMet-labeled membrane proteins purified from 2 l of culture. These methods augment the potential utility of photosynthetic bacteria and their inducible membrane systems for the production of foreign membrane proteins for structure determination.

Selenomethionine and selenocysteine double labeling strategy for crystallographic phasing

A protocol for the quantitative incorporation of both selenomethionine and selenocysteine into recombinant proteins overexpressed in Escherichia coli is described. This methodology is based on the use of a suitable cysteine auxotrophic strain and a minimal medium supplemented with selenium-labeled methionine and cysteine. The proteins chosen for these studies are the cathelin-like motif of protegrin-3 and a nucleoside-diphosphate kinase. Analysis of the purified proteins by electrospray mass spectrometry and X-ray crystallography revealed that both cysteine and methionine residues were isomorphously replaced by selenocysteine and selenomethionine. Moreover, selenocysteines allowed the formation of unstrained and stable diselenide bridges in place of the canonical disulfide bonds. In addition, we showed that NDP kinase contains a selenocysteine adduct on Cys122. This novel selenium double-labeling method is proposed as a general approach to increase the efficiency of the MAD technique used for phase determination in protein crystallography.

Crystallographic studies on human BST-1/CD157 with ADP-ribosyl cyclase and NAD glycohydrolase activities

cADPR is the novel second messenger that elicits calcium release from intracellular calcium stores and works independently of IP(3). In mammals, the ADP-ribosyl cyclase function is found in two membrane proteins, CD38 and BST-1/CD157. These enzymes, exposed extracellularly, bear cADPR hydrolase and NAD glycohydrolase activities. In spite of its functional importance, the structural basis of these enzymatic reactions remains elusive. We determined the crystal structures of the extracellular region of human BST-1 at atomic resolution in the free form and in complexes with five substrate analogues: nicotinamide, NMN, ATPgammaS, ethenoNADP, and ethenoNAD. The three-dimensional structural views of the reaction centre with these ligands revealed the mode of substrate binding and the catalytic mechanism of the multifunctional enzymatic reactions. In each catalytic cleft of the dimeric enzyme, substrates are recognized predominantly through van der Waals interactions with two tryptophan residues, and thereby the N-glycosidic bond of NAD is correctly exposed near a catalytic glutamate residue. Its carboxyl side-chain stabilizes the catalytic intermediate of the S(N)-1 type reaction. This conformation of the catalytic cleft also implies the mechanism of cyclization between the adenine base and the ribose. The three key residues are invariant among the sequences of BST-1, CD38, and Aplysia cyclase, and hence this substrate recognition mode and catalytic scheme appear to be common in the cyclase family.

Selenomethionine incorporation in Saccharomyces cerevisiae RNA polymerase II

A protocol for the incorporation of SeMet into yeast proteins is described. Incorporation at a level of about 50% suffices for the location of Se sites in an anomalous difference Fourier map of the 0.5 MDa yeast RNA polymerase II. This shows the utility of the approach as an aid in the model-building of large protein complexes.

N-glycan patterns of human transferrin produced in Trichoplusia ni insect cells: effects of mammalian galactosyltransferase

The N-glycans of human serum transferrin produced in Trichopulsia ni cells were analyzed to examine N-linked oligosaccharide processing in insect cells. Metabolic radiolabeling of the intra- and extracellular protein fractions revealed the presence of multiple transferrin glycoforms with molecular weights lower than that observed for native human transferrin. Consequently, the N-glycan structures of transferrin in the culture medium were determined using three-dimensional high performance liquid chromatography. The attached oligosaccharides included high mannose, paucimannosidic, and hybrid structures with over 50% of these structures containing one fucose, alpha(1,6)-, or two fucoses, alpha(1,6)- and alpha(1,3)-, linked to the Asn-linked N-acetylglucosamine. Neither sialic acid nor galactose was detected on any of the N-glycans. However, when transferrin was coexpressed with beta(1,4)-galactosyltransferase three additional galactose-containing hybrid oligosaccharides were obtained. The galactose attachments were exclusive to the alpha(1, 3)-mannose branch and the structures varied by the presence of zero, one, or two attached fucose residues. Furthermore, the presence of the galactosyltransferase appeared to reduce the number of paucimannosidic structures, which suggests that galactose attachment inhibits the ability of hexosaminidase activity to remove the terminal N-acetylglucosamine. The ability to promote galactosylation and reduce paucimannosidic N-glycans suggests that the oligosaccharide processing pathway in insect cells may be manipulated to mimic more closely that of mammalian cells.

Engineering N-glycosylation pathways in the baculovirus-insect cell system

The inability to produce eukaryotic glycoproteins with complex N-linked glycans is a major limitation of the baculovirus-insect cell expression system. Recent studies have demonstrated that metabolic engineering can be used to extend the glycoprotein processing capabilities of lepidopteran insect cells. This approach is being used to develop new baculovirus-insect cell expression systems that can produce more authentic recombinant glycoproteins and obtain new information on insect N-glycosylation pathways.

Incorporating anomalous scattering centres into macromolecules

The widespread application of multiwavelength anomalous diffraction (MAD) for phase evaluation has been hampered in the past by the small selection of anomalous scattering centres that could be introduced into macromolecules. Recently, the use of chemical modification, protein engineering or biosynthetic labelling has provided suitable tools to overcome the previous limitations, thereby making most structural analyses amenable to a MAD approach.

Effect of modification of all loop regions in the alpha- and beta-subunits of human choriogonadotropin on its signal transduction activity

Human choriogonadotropin (hCG), according to its three dimensional structure as determined by X-ray diffraction, has three beta-hairpin loops each in the alpha and beta subunit designated as alpha 1, alpha 2 alpha 3 and beta 1 beta 2 and beta 3, respectively. Since similar beta-hairpin loops in NGF and TNF beta have been implicated in their direct interaction with the receptor, it prompted the present investigation to determine the role of such loops in receptor binding and post-receptor signaling events in hCG. Based on the three dimensional structure of hCG, radical mutations were introduced in the alpha loops by replacing hydrophobic alpha 18Phe and alpha 74Phe by hydrophilic Thr residues in the alpha 1 and alpha 3 loops, respectively, and positively charged alpha 45Lys by negatively charged Asp in the helical segment in the alpha 2 loop. The beta loops were mutated by replacement of the beta 1, beta 2 and beta 3 sequences with the corresponding hFSH sequences. These replacements included beta 22Gly, beta 24Pro and beta 25Val with Glu, Arg and Phe in beta 1, 45Leu Gln Gly Val Leu Pro Ala Leu Pro53 with Tyr Lys Asn Pro Ala Arg Pro Leu Ile in beta 2 and 73Pro Arg Gly with Ala His His in the beta 3 loop. Six mutants, hCG alpha 1 beta, hCG alpha 2 beta and hCG alpha 3 beta and hCG alpha beta 1, hCG alpha beta 2 and h CG alpha beta 3, were obtained by co-infection of the insect High-Five cells with baculovirus containing mutant alpha or beta cDNAs and that containing complimentary wild type beta or alpha cDNAs. The mutants were almost completely secreted in the culture medium and were over expressed at levels ranging between 4.5 to 29 micrograms/ml indicating that mutations had no effect on the secretion or subunit assembly of hCG. In order to remove any contaminating beta-subunit, the culture medium was passed through a column of an hCG beta-specific monoclonal antibody, B158. The receptor binding activity of the mutant hCG alpha 1 beta, in which alpha 18Phe was replaced with Thr, increased almost 200% relative to rehCG. Similarly, increase in the cAMP and progesterone stimulation by the mutant ranged between 150 to 200%. This increase is believed to be due to a short range conformational change in the mutant as a result of the mutation rather than direct involvement of alpha 18Phe in the receptor binding. The evidence in support of this was derived from the fact that the affinity or interaction between the two subunits was impaired as indicated by the first order rate constant of hCG alpha 1 beta (km = 4.1 x 10(-2) min-1) at pH 3.0 at 23 degrees C which is one order of magnitude greater relative to rehCG (kw = 4.6 x 10(-3) min-1). All other mutations had no effect on the receptor binding or signal transduction of hCG indicating that, unlike NGF or TNF beta, beta-hairpin loops in hCG were not directly involved in receptor binding or post-receptor signaling events. However, since the mutation in the alpha 1 loop affects the receptor binding site, its presence in the vicinity of the alpha 1 loop is highly likely.

Preparation of recombinant carbohydrate deficient active analogs of human chorionic gonadotropin from insect cells

Human chorionic gonadotropin (hCG) has four N-glycosyl chains, two in each subunit. Several analogs lacking one or more specific N-linked carbohydrate chains have been purified from insect cells by immunoaffinity chromatography on a monoclonal antibody, B17, column Traces of the hCG beta mutant present, if any, were removed by a second immunoaffinity chromatography on a column of hCG beta specific monoclonal antibody, B158. N-glycosylation was inhibited by the replacement of either Asn or Thr to Gln in the consensus sequence. -Asn x Ser/Thr-, for N-glycosylation. All analogs were overexpressed in High-Five insect cells with the expression levels ranging between 1.5 to 15 micrograms/ml and were found homogeneous by SDS-PAGE under nonreducing and reducing conditions. Their molecular sizes ranged between 34k to 44k. The receptor binding affinity of all the analogs was unaltered as determined by radio receptor assay using rat ovarian membranes. The availability of these analogs should facilitate studies on the effect of a specific carbohydrate chain on the conformation and in vivo properties of hCG.

N-glycosylation of recombinant human interferon-gamma produced in different animal expression systems

Recombinant human interferon-gamma (IFN-gamma) was expressed in Chinese hamster ovary cells, baculovirus-infected Sf9 insect cells and the mammary gland of transgenic mice. The N-linked carbohydrate populations associated with both Asn25 and Asn97 glycosylation sites were characterized by matrix-assisted laser desorption/ionization-mass spectrometry (MALDI-MS) in combination with exoglycosidase array sequencing. A site-specific analysis of dual (2N) and single (1N) site-occupancy variants of IFN-gamma derived from Chinese hamster ovary cells showed that N-glycans were predominantly of the complex bi- and triantennary type. Although Asn25-linked glycans were substituted with a core fucose residue, Asn97 N-glycans were predominantly non-fucosylated, and truncated complex and high-mannose oligosaccharide chains were also evident. Transgenic mouse derived IFN-gamma exhibited considerable site-specific variation in N-glycan structures. Asn25-linked carbohydrates were of the complex, core fucosylated type, Asn97-linked carbohydrates were mainly of the oligomannose type, with smaller proportions of hybrid and complex N-glycans. Carbohydrates associated with both glycosylation sites of IFN-gamma from Sf9 insect cells were mainly tri-mannosyl core structures, with fucosylation confined to the Asn25 site. These data demonstrate the profound influence of host cell type and protein structure on the N-glycosylation of recombinant proteins.

Glycosylation of human corticosteroid-binding globulin. Differential processing and significance of carbohydrate chains at individual sites

Human corticosteroid-binding globulin (CBG) comprises 383 amino acids and six consensus sites for attachment of N-acetyllactosamine-type oligosaccharides. To study the extent of addition and processing of individual carbohydrate chains, we expressed CBG mutants, each containing only one of the six possible glycosylation sites, in Chinese hamster ovary cells and examined their electrophoretic, immunochemical, and lectin-binding properties. This indicated that Asn9, Asn308, and Asn347 are partially glycosylated and that oligosaccharides attached to Asn9, Asn238, Asn308, and Asn347 are predominantly biantennary, while more branched (most likely, triantennary) oligosaccharides are preferentially linked to Asn74 and Asn154. Only one of the biantennary chains (attached to Asn9) contains significant amounts of fucose. These data indicate that oligosaccharide processing is site-specific, and analyses of three other mutants, in which an additional glycosylation site was preserved, demonstrated that the processing of individual oligosaccharides occurs independently. Thus, the glycosylation of recombinant CBG appears to resemble that of natural human CBG. As we have previously found, glycosylation at Asn238 is essential for the production of CBG with steroid-binding activity, but when the mutant containing only one oligosaccharide at this position was enzymatically deglycosylated, its steroid-binding activity was unaltered. This suggests that interaction between this carbohydrate chain and the polypeptide is necessary for the folding and creation of the steroid-binding site only during CBG biosynthesis.

Differential secretion and glycosylation of recombinant human chorionic gonadotropin (beta hCG) synthesized using different promoters in the baculovirus expression vector system

Recombinant baculoviruses vAc beta hCGCOR and vAc beta hCGPOL, carrying the gene (beta hCG) encoding the beta-subunit of human chorionic gonadotropin under the transcriptional control of the late AcNPV core protein gene promoter (PCOR) and the very late polyhedrin gene promoter (PPOL), respectively, were constructed and used to infect lepidopteran cells. Western blot analysis of intra- and extracellular recombinant beta hCG (re-beta hCG) revealed that the secretion of beta hCGCOR was relatively higher. Enzymatic and chemical analysis of carbohydrates showed that beta hCGCOR was more glycosylated than beta hCGPOL. However, the insect-derived beta hCG, with a high-mannose type of sugar, was glycosylated differently and to a lesser extent when compared with the native, urinary beta hCG, and consequently, beta hCGCOR was more bioactive on a unit-mass basis than beta hCGPOL. This temporal gene expression strategy, besides being able to circumvent the 'secretory load' encountered during the synthesis of extensively glycosylated proteins in the baculovirus system, also offers a model to study the role of carbohydrates, both in qualitative and quantitative terms, in protein structure and function.

Temporal nature of the promoter and not relative strength determines the expression of an extensively processed protein in a baculovirus system

We demonstrate that the expression of extensively modified and secreted heterologous proteins synthesized in the baculovirus expression vector system (BEVS) depends on the temporal nature of the promoter transcribing the foreign gene. The beta subunit of the human chorionic gonadotropin, an extensively modified secretory glycoprotein hormone was expressed under the transcriptional control of the AcNPV basic protein gene promoter (MP) and the polyhedrin gene promoter (POL), respectively. MP, activated late in the infection cycle, is a weaker promoter when compared to the stronger very late POL promoter. Levels of secretion, immunoreactivity and bioactivity of recombinant proteins, beta hCGMP and beta hCGPOL synthesized under control of the MP and POL promoter were compared. Secretion of beta h CGMP was relatively higher. Enzymatic analysis revealed that the synthesized protein was sialylated. Receptor binding assays and testosterone stimulation assays in a mouse Leydig cell system demonstrated that on a unit protein basis, beta hCGMP was biologically more active than beta hCGPOL.

Polyclonal antibodies against the polypeptide and carbohydrate epitopes of recombinant human choriogonadotropin beta-subunit

In our previous paper (Chen et al. (1991) J. Biol. Chem. 266, 4081-4087) we reported the preparation and characterization of recombinant human choriogonadotropin beta subunit (hCG beta) using the baculovirus-insect cell expression system. The rhCG beta was found to contain high mannose type N-linked carbohydrates and 3-4 serine-linked disaccharide chains. Despite the carbohydrate structural variation, the rhCG beta was similar to hCG beta in in vitro immunological and biological properties. In order to evaluate its in vivo immunological properties, rabbit antiserum against rhCG beta was produced. The antiserum was found to be almost identical to anti-hCG beta in binding to hCG beta as well as in its crossreactivity with human lutropin (hLH), hCG and human follitropin (hFSH) as indicated by radioimmunoassays using 125I-hCG beta as a tracer. Further characterization of the anti-rhCG beta antiserum revealed that there are three types of antibodies in terms of antigenic specificity present in the anti-rhCG beta antisera pool as shown by dot blot and radioimmunoassays. The carbohydrate-specific antibodies were separated by affinity chromatography using an ovalbumin-glycopeptide-Sepharose column. The antibodies held on the ovalbumin affinity adsorbent were specific for the high mannose type carbohydrates such as those present in rhCG beta, rhCG and thyroglobulin and failed to react with transferrin, alpha 1-acid glycoprotein and hCG alpha, all containing complex type carbohydrates. This was further supported by the fact that the recombinant unglycosylated hCG or periodate oxidized rhCG beta also did not show any reactivity with the carbohydrate specific antibodies. Two types of peptide epitopes seemed to be present in rhCG beta since when the flowthrough fraction from the ovalbumin-glycopeptide-affinity column was passed through the hCG beta-Sepharose column, the antibodies in the flowthrough from the latter column were specific to the unique antigenic determinants present only in the rhCG beta and not in hCG beta. The eluate from the hCG beta-Sepharose column contained the third type of antibodies, being the predominant ones, directed to the common epitopes between rhCG beta and hCG beta. The high mannose type specific antibodies are potentially useful in differentiating between the high mannose and complex type of N-linked carbohydrates present in a glycoprotein. Also, the antibody could provide an effective reagent in studying the intracellular processing of the N-linked oligosaccharides.(ABSTRACT TRUNCATED AT 400 WORDS)