Antigenic determinants on human choriogonadotropin alpha-subunit. I. Characterization of topographic sites recognized by monoclonal antibodies

Immunochemical studies were designed to localize antigenic regions recognized by two monoclonal antibodies directed against the alpha-subunit of human choriogonadotropin (hCG-alpha) and to provide information on the three-dimensional structure of hCG and its alpha-subunit. Monoclonal antibody HT13 bound to a region accessible on both hCG and the free alpha-subunit, whereas monoclonal antibody AHT20 recognized a site localized only on the free alpha-subunit. By studying the cross-reactivity of these antibodies to homologous proteins, we found that antibody HT13 did not bind to equine or ovine lutropin, whereas AHT20 was capable of binding to both subunits. This observation suggests that AHT20 recognized a structurally related antigenic determinant on alpha-subunits of different species. To delineate the portions of hCG-alpha contributing to the antigenic determinants of AHT20 and HT13, we performed competitive inhibition assays using reduced and carboxymethylated hCG-alpha, deglycosylated hCG-alpha, hCG-alpha minus the 5 COOH-terminal residues (hCG-alpha core 1), or disulfide-bridged peptides comprising residues 1-35 and 52-91 of hCG-alpha (hCG-alpha core 2). Reduced and carboxymethylated hCG-alpha did not inhibit the binding of 125I-labeled hCG-alpha to both antibodies, whereas deglycosylated hCG-alpha was as active as hCG-alpha, suggesting that antigenic determinants of both antibodies are mainly discontinuous and do not reside on the oligosacharide part of the alpha-subunit. hCG-alpha core 1 had the same capacity as intact hCG-alpha to inhibit the binding of 125I-hCG-alpha to both antibodies, indicating that the 5 COOH-terminal residues of hCG-alpha do not participate in the antigenic determinants. hCG-alpha core 1 was as potent as hCG-alpha in inhibition experiments performed with HT13, whereas, in striking contrast, hCG-alpha core 2 did not compete with 125I-hCG-alpha for binding to AHT20, suggesting that the peptides released after proteolysis of the alpha-subunit by trypsin participate in the epitope of AHT20 and are not included in the antigenic determinant of HT13. In an attempt to elucidate the amino acid residues constituting the antigenic sites of HT13 and AHT20, hapten inhibition experiments were carried out using as competitive inhibitors five different synthetic peptides spanning the primary structure of hCG-alpha. None of these peptides inhibited the binding of 125I-hCG-alpha to HT13. In contrast, two peptides analogous to regions 23-43 and 33-59 of hCG-alpha exhibited significant potency in competing with 125I-hCG-alpha for binding to AHT20.(ABSTRACT TRUNCATED AT 400 WORDS)     

The characterization of alpha-subunit of glycoprotein hormone produced by undifferentiated carcinoma

The glycoprotein hormone alpha-subunit was extracted and purified from the urine of a patient with undifferentiated carcinoma producing isolated alpha-subunit. Its final specific immunoactivity was 0.92 (mg alpha-subunit/mg protein). The alpha-subunit exhibited virtually identical immunoantigenicity to hCG-alpha antiserum with standard hCG-alpha. The molecular weight of the alpha-subunit determined by gel chromatography on Sephadex G-100 was greater than that of standard hCG-alpha dissociated by urea in vitro. By SDS disc electrophoresis, however, the alpha-subunit moved faster than hCG-alpha separated by mercaptoethanol reduction. The amino acid composition of the alpha-subunit was quite similar to that of standard hCG-alpha. In the isoelectric focusing, the major components of the alpha-subunit from undifferentiated carcinoma and the alpha-subunit from urine of normal pregnant women (third trimester) were distributed over the range from pH 3.5 to 6.0, while standard hCG-alpha was distributed in the fractions ranging from pH 6.0 to 8.0. The result of a combination study in vitro indicated that both alpha-subunits from undifferentiated carcinoma and from urine of normal pregnant women did not actively combine with hCG-beta. These results suggest that the alpha-subunit secreted by undifferentiated carcinoma is virtually identical with standard hCG-alpha as the protein moiety but differs in regard to carbohydrate moiety, and also suggest that the excess of alpha-subunit, which is not associated with beta-subunit, may have undergone some intracellular modification, and consequently, the electric charge of the freely secreted alpha-subunit changes and it no longer has the ability to combine with the beta-subunit.     

The clinical evaluation of the simultaneous measurements of human chorionic gonadotropin (hCG) and its alpha-subunit in sera of patients with trophoblastic diseases

The concentrations of human chorionic gonadotropin (hCG) and its free immunoreactive alpha-subunit (hCG-alpha) in the sera of patients with trophoblastic diseases were measured by hCG and hCG-alpha radioimmunoassay (RIA), respectively. In the sera of 12 women with hydatidiform mole large amounts of hCG and considerably high level of hCG-alpha were detected in all cases. After the evacuation of mole the serum level of these glycoproteins decreased, the leve of hCG-alpha declined more rapidly than hcg. in the sera of patients with destructive mole the concentration of hCG-alpha was usually lower than that of hCG. After hysterectomy and chemotherapy the levels of hCG-alpha declined practically paralleling that of hCG. However, when hCG had decreased to undetectable level, hCG-alpha could no longer be detected in all cases. Although in the serum of patient with choriocarcinoma involving the uterus and lungs the concentration of hCG-alpha was almost as high as that of hCG, the secretory pattern of hCG and hCG-alpha might not be closely related. The changes in the serum level of free hCG-alpha as well as that of hCG parelled the clinical course of the patients examined in this study. The present results suggest that measurements of the serum free hCG-alpha may be a useful parameter to follow the clinical course and to evaluate the efficacy of treatments of trophoblastic diseases.     

Release of human chorionic gonadotropin (hCG) and its alpha-subunit (hCG-alpha) from perifused human placenta

The release of human chorionic gonadotropin (hCG) and its alpha-subunit (hCG-alpha) from the normal human placenta and the effect of some stimulatory agents on their release were studied in vitro using a perfusion system. Each perfusate was assayed for hCG and hCG-alpha in its own homologous radioimmunoassay systems. Both hCG and hCG-alpha were released from the placenta at any stage of gestation in our perfusion system. Much more hCG than hCG-alpha was released from the placenta in early gestation. By comparison, however, hCG-alpha increased gradually with the gestational age. The amount of hCG-alpha released was almost equal to that of hCG in the placenta in the 17th gestational week. After the 22nd gestational week, hCG-alpha was released in larger quantities than hCG, and about 10 times more hCG-alpha than hCG was released from the term placenta. These results were also confirmed by gel filtration of perfusates on a Sephadex G-100 column. hCG-alpha, compared with hCG, was present in excess in gel filtrated perfusates in the last two trimesters. By adding 1 mM dibutyryl cyclic AMP to the perifusion medium, the release of both hCG and hCG-alpha was stimulated significantly. Synthetic luteinizing hormone releasing hormone (LH-RH) at concentrations of 10 ng/ml and 100 ng/ml had no effect, but at a high concentration (1 microgram/ml), LH-RH stimulated the release of them. Moreover, mouse epidermal growth factor (EGF) stimulated not only the release of hCG and hCG-alpha but also their production, because both hCG and hCG-alpha levels rose progressively with the time course in the presence of EGF. The present studies demonstrate that the perifusion system of chorionic tissues is a useful method for investigating the release of hCG and its subunits in vitro.     

Antigenic determinants on human choriogonadotropin alpha-subunit. II. Immunochemical mapping by a monoclonal antipeptide antibody

In order to study antigenic site(s) present in the carboxyl-terminal part of the alpha-subunit of human choriogonadotropin (hCG-alpha), we attempted to produce site-specific antibodies directed against a 34-residue synthetic peptide analogous to region 59-92 of hCG-alpha. From a fusion experiment performed with a mouse injected with hCG-alpha-(59-92)-peptide conjugated to tetanus toxoid as immunogen, we selected a monoclonal antipeptide antibody (designated FA36) which has high binding activity for 125I-hCG-alpha but not for 125I-hCG in a radioimmunoassay. This antibody is of the IgG1 subclass and displays an affinity constant for 125I-hCG-alpha of 3.1 x 10(8) M-1. Hapten inhibition experiments performed by either radioimmunoassay or enzyme-linked immunosorbent assay with synthetic peptides spanning different portions of the region (59-92) demonstrated that the binding site of FA36 resides on (minimally) the six COOH-terminal amino acids of hCG-alpha, namely Cys-Tyr-Tyr-His-Lys-Ser, and that FA36 binds preferentially to peptides containing a carboxyl group on the COOH-terminal residue. Monoclonal immunoradiometric assays were established to determine the location of antigenic regions recognized by FA36, by antibody AHT20 (which binds only to hCG-alpha), and by antibody HT13 (which binds to both hCG and hCG-alpha). FA36 has the capacity to bind to hCG-alpha bound to either AHT20 or HT13, demonstrating that both AHT20 and HT13 antibodies are directed against antigenic regions distinct from the epitope of FA36. Monoclonal immunoradiometric assays were also carried out to study the binding of FA36 to hCG, the ovine and equine lutropin alpha-subunit, or hCG-alpha minus the 5 COOH-terminal residues (hCG-alpha core). Whereas significant binding of 125I-FA36 was observed with the ovine lutropin alpha-subunit, no binding was found with the equine lutropin alpha-subunit. As expected, FA36 did not bind to hCG-alpha core. Binding was also not detected with hCG, confirming that FA36 is specific for free hCG-alpha and that the COOH-terminal part of hCG-alpha is either weakly or (more likely) not at all accessible in the alpha/beta-dimer for antibody binding. Finally, immunoblots performed on hCG-alpha-(59-62)-peptide and various denatured alpha-subunits indicated that, with the exception of the equine lutropin alpha-subunit, FA36 detected various denatured alpha-subunits and particularly the alpha-subunit of carp gonadotropin-thyrotropin. This latter observation suggests a high degree of homology between the COOH-terminal regions of the alpha-subunits of fish gonadotropin and analogous mammalian hormones.(ABSTRACT TRUNCATED AT 400 WORDS)     

Heterogeneity of free alpha-subunit in term placenta

Free alpha-subunit in normal term placenta was examined for molecular weight, electric charge and ability to combine with standard hCG-beta in comparison with extracellular free alpha-subunit and standard hCG-alpha dissociated from urinary hCG in vitro. The gel chromatography on Sephadex G-100 of the placental extract revealed three major immunoreactive hCG-alpha peaks, designated as P alpha-A (Kav = 0.32-0.46), P alpha-B (0.47-0.58) and P alpha-C (0.59-0.70), near the position of standard hCG-alpha. In the isoelectric focusing, while P alpha-A was mainly distributed over the acidic region, the major components of P alpha-B and P alpha-C were distributed over the basic region. Furthermore, in the combination study with standard hCG-beta, such a alpha-subunit with acidic pI scarcely showed any combining activity whereas alpha-subunit with basic pI revealed significant combining activity. These results suggest the following possibilities: that 1) the various size species of placental alpha-subunit may be responsible for the progressive glycosylation; 2) the small alpha-subunit with basic pI may combine with beta-subunit to form immunoreactive hCG; 3) the alpha-subunit, which has not associated with beta-subunit, may be converted to a large and incombinative form with acidic pI by further glycosylation, followed by secretion as a free alpha-subunit.     

A single gonadotropin alpha-subunit gene in normal tissue and tumor-derived cell lines

The structure of gene sequences coding for the mRNA of human chorionic gonadotropin (hCG) alpha-subunit was investigated by Southern blot analysis of genomic DNAs using a cloned, full length cDNA probe. While four hormones, lutropin, follitropin, thyrotropin, and choriogonadotropin, have homologous alpha-subunits, only one gene that bears hCG-alpha sequences could be detected per haploid complement. The structure of this single gonadotropin alpha-subunit gene, which contains intervening sequences, is the same in DNA from first trimester and term placentae. However polymorphism was observed for the presence of a HindIII site and of an Eco RI site in the gene's 3' flanking sequences. The organization of hCG-alpha sequences in several trophoblastic and nontrophoblastic tumor cell lines, which produce hCG subunits, was also examined. In each, the same gene copy number and structure were seen as in normal tissue. Thus, the characteristics of ectopic alpha-subunit expression in these cells seem not to be determined by DNA rearrangements.     

Topographic antigenic determinants recognized by monoclonal antibodies on human choriogonadotropin beta-subunit

We describe a first attempt to study the antibody-combining sites recognized by monoclonal antibodies raised against the beta-subunit of human choriogonadotropin (hCG). Two groups of antibodies were first defined by their ability to recognize only the free beta-subunit or the free and combined subunit. Antibodies FBT-11 and FBT-11-L bind only to hCG beta-subunit but not to hCG, whereas antibodies FBT-10 and D1E8 bind to both the beta-subunit and the hormone. In both cases, the antigenic determinants were localized to the core of the protein (residues 1-112), indicating the weak immunogenicity of the specific carboxyl-terminal extension of hCG-beta. Nine synthetic peptides spanning different regions of hCG-beta and lutropin-beta were assessed for their capacity to inhibit antibody binding. A synthetic peptide inclusive of the NH2-terminal region (residues 1-7) of the hCG beta-subunit was found to inhibit binding to the radiolabeled subunit of a monoclonal antibody specific for free hCG-beta (FBT-11). Further delineation of the antigenic site recognized by this antibody provided evidence for the involvement of fragment 82-92. Moreover, monoclonal antibody FBT-11 inhibited the recombination of hCG-beta to hCG-alpha, indicating that its antigenic determinant might be located nearby or in the hCG-beta portion interacting with the alpha-subunit. Binding of monoclonal antibody FBT-10, corresponding to the second antigenic determinant, was weakly inhibited by fragment 82-105 and did not impair the recombination of the hCG beta-subunit to the hCG alpha-subunit. Its combining site appeared to be located in a region of the intact native choriogonadotropin present at the surface of the hormone-receptor complex.     

Nature of the difference in apparent molecular weights between the alpha subunit of urinary human chorionic gonadotropin and the alpha protein secreted by HeLa cells

The glycoprotein hormone alpha subunit secreted by HeLa cells has an apparent molecular weight greater than that of urinary chorionic gonadotropin alpha as determined by chromatography on Sephadex G-75 superfine. The difference in gel elution patterns between these proteins is not observed when the HeLa protein is first incubated under conditions employed to remove sialic acid (53 mM H₂SO₄, 80°C, 90 min). Because the modified tumor protein produces a dose-response curve parallel to those of the unmodified tumor protein and the urinary hCG subunit, and is readily bound by ricinagarose, it is concluded that the antigenicity of the protein has not been greatly altered and that the bulk of the carbohydrate side chains remain intact. These observations suggest that the greater apparent molecular weight of HeLa alpha compared to urinary hCG alpha may be due to an increase in the sialic acid content of the tumor protein.     

Purification and characterization of Leydig cell luteinizing hormone receptor

We have purified the testicular luteinizing hormone (LH/human choriogonadotropin (hCG)) receptor by sequential affinity chromatography on hCG-Sepharose. The purified LH/hCG receptor was identified as a single protein of Mr = 90,000 +/- 2,000 on sodium dodecyl sulfate-gel electrophoresis (SDS-PAGE), showed high affinity binding for hCG, and a binding capacity of 3.8 nmol/mg of protein. Electrophoretically blotted receptor retained the ability to bind 125I-hCG on nitrocellulose membrane, and the Mr of radioactive band was consistent with that revealed by silver staining. Autoradiography after SDS-PAGE analysis of cross-linked purified receptor-hCG complex showed Mr = 145,000 and Mr = 105,000 bands. These results are consistent with a Mr value for the receptor of 90,000 after accounting for contribution by the intact hormone or its alpha-subunit. Analysis of the free receptor by fast protein liquid chromatography on Superose 12 revealed a single peak of binding activity for 125I-hCG which eluted in the position of Mr = 200,000-240,000 in the presence of Triton X-100. Since a single protein species is observed under reducing or nonreducing conditions in SDS-PAGE, the receptor could exist in the membrane as a dimeric form composed of subunits Mr = 90,000 associated through noncovalent interactions. The pure receptor can be phosphorylated in vitro by the catalytic subunit of cAMP-dependent protein kinase (approximately 0.3 mol of phosphate/mol of receptor). This phosphorylation does not affect the binding characteristics of the receptor. The method described is simple and allows rapid purification of microgram amounts of biological active Leydig cell LH/hCG receptor for structural, functional, and immunological studies.     

Cell-surface expression of a membrane-anchored form of the human chorionic gonadotropin alpha subunit

We carried out experiments designed to generate a novel cell-surface protein from a small glycosylated secretory protein. DNA encoding the entire precursor of human chorionic gonadotropin (hCG, alpha subunit) was fused precisely to DNA encoding the transmembrane and cytoplasmic domains of the vesicular stomatitis virus glycoprotein. When expressed in animal cells this DNA encoded the 92-amino acid hCG-alpha subunit anchored in cellular membranes by an extension composed of the 49 carboxyl-terminal amino acids of vesicular stomatitis virus glycoprotein. This hybrid protein was transported efficiently to the plasma membrane of animal cells. The two asparagine-linked glycans on the anchored form of hCG-alpha were large and heterogeneous when compared to those on the secretory form. Experiments employing in vitro mutagenesis and the glycosylation inhibitor tunicamycin established that the presence of at least one of the two asparagine-linked glycans was required for expression of the anchored molecule on the cell surface. However, as reported previously, secretion of hCG-alpha occurred in the absence of glycosylation. Also, mutations eliminating the second glycosylation site (at amino acid 78) in both the anchored or secreted forms apparently led to partial denaturation or a conformational change interfering with transport of the protein.     

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.     

Dual effects of 2-deoxyglucose on synthesis of the glycoprotein hormone common alpha-subunit in butyrate-treated HeLa cells.

Sodium butyrate (Btr) (3 mM) causes a 10-fold increase in production of the glycoprotein hormone alpha-subunit in HeLa cells. The following report demonstrates that this response could be inhibited about 95% by 5 mM 2-deoxy-D-glucose (dGlc), whereas alpha-subunit production in uninduced cells was affected little or not at all. Addition of D-mannose restored the Btr induction of Hela-alpha in cultures that had been treated with dGlc. When the alpha-subunits secreted by cells cultured in Btr plus dGlc or in Btr alone were compared by gel filtration (Sephadex G-75) and lectin affinity (concanavalin A and ricin) chromatography, differences were noted that probably reflect changes in their carbohydrate moieties. Immunoprecipitation of [35S]methionine-labeled HeLa-alpha and incubation with endoglycosidase H indicated that the subunit secreted from cells in the presence of dGlc contained oligosaccharide side chains that were not processed to the complex type. Cells that were simultaneously treated with Btr plus dGlc showed no increase in alpha-subunit production over cells receiving Btr only; in contrast, cells that were preincubated with Btr for either 16 or 36 h before dGlc was added exhibited high levels of subunit synthesis. Measurement of alpha-mRNA levels at various times after Btr and dGlc were added to cultures indicated that Btr brought about a dramatic increase in alpha-specific mRNA about 24 h after being added to cultures. This increase could be prevented by dGlc when added simultaneously with Btr but not when added after a 24-h preincubation. Although dGlc prevented the induction of alpha-subunit and alpha-mRNA in response to Btr, it had no effect on histone hyperacetylation, suggesting that if this chromatin modification is necessary for the induction process, it is not in itself sufficient. Together, the data demonstrate that dGlc inhibits the accumulation of alpha-subunit mRNA normally produced in response to Btr and that the subunit produced contains altered oligosaccharide constituents.     

An oligosaccharide of the O-linked type distinguishes the free from the combined form of hCG alpha subunit

JAR malignant trophoblast cells produce a free alpha subunit in addition to an alpha combined with beta subunit as hCG. The free alpha is larger by gel chromatography and SDS-PAGE than combined alpha and is unable to associate with beta subunit to form hCG. A tryptic fragment, representing amino acid residues 36-42, derived from free alpha was larger than the corresponding fragment from combined alpha. After neuraminidase treatment, the fragment from free alpha bound peanut lectin agarose, which is specific for Gal beta 1-3GalNAc as found in O-linked oligosaccharides. The fragment also contained Gal and GalNAc (and a lesser amount of GlcNAc) as determined by glycosidase sensitivity and amino sugar analyses. Removal of this tryptic fragment ablated the size difference between free and combined alpha subunits.     

Functional contributions of noncysteine residues within the cystine knots of human chorionic gonadotropin subunits

Human chorionic gonadotropin (hCG) is a heterodimeric member of a family of cystine knot-containing proteins that contain the consensus sequences Cys-X(1)-Gly-X(2)-Cys and Cys-X(3)-Cys. Previously, we characterized the contributions that cystine residues of the hCG subunit cystine knots make in folding, assembly, and bioactivity. Here, we determined the contributions that noncysteine residues make in hCG folding, secretion, and assembly. When the X(1), X(2), and X(3) residues of hCG-alpha and -beta were substituted by swapping their respective cystine knot motifs, the resulting chimeras appeared to fold correctly and were efficiently secreted. However, assembly of the chimeras with their wild type partner was almost completely abrogated. No single amino acid substitution completely accounted for the assembly inhibition, although the X(2) residue made the greatest individual contribution. Analysis by tryptic mapping, high performance liquid chromatography, and SDS-polyacrylamide gel electrophoresis revealed that substitution of the central Gly in the Cys-X(1)-Gly-X(2)-Cys sequence of either the alpha- or beta-subunit cystine knot resulted in non-native disulfide bond formation and subunit misfolding. This occurred even when the most conservative change possible (Gly --> Ala) was made. From these studies we conclude that all three "X" residues within the hCG cystine knots are collectively, but not individually, required for the formation of assembly-competent hCG subunits and that the invariant Gly residue is required for efficient cystine knot formation and subunit folding.     

Carboxypeptidase digestion of human chorionic gonadotropin

Native human chorionic gonadotropin (hCG) was resistant to carboxypeptidase digestion even in the presence of urea. Isolated alpha subunit of the hormone (hCG-alpha), though unreactive to enzyme treatment in the absence of denaturant, released up to four amino acid residues from the C-terminus on incubation with a mixture of carboxypeptidases A and B in urea. While an hCG-alpha product which lacked Ser-92 recombined completely with intact hCG-beta, hCG-alpha from which Ser-92 recombined completely with intact hCG-beta, hCG-alpha from which Ser-92 and Lys-91 were removed showed only partial recombination. The two recombinants were devoid of any in vivo biologic activity, but retained some of the immunologic activity of the native recombinant. These findings indicate that the integrity of the C-terminal residue of serine in hCG-alpha is essential for the expression of in vivo biologic activity of the native hormone.     

Effect of pyrimidine deoxynucleosides and sodium butyrate on expression of the glycoprotein hormone alpha-subunit and placental alkaline phosphatase in HeLa cells

Production of the glycoprotein hormone common alpha-subunit and placental alkaline phosphatase activity can be modulated in HeLa cells by a variety of deoxynucleosides. Dose response curves for thymidine (Thd), fluorodeoxyuridine (FdUrd), bromodeoxyuridine (BrdUrd) and iododeoxyuridine (IdUrd) demonstrate that, in general, alkaline phosphatase was increased by lower concentrations of inducer than was alpha-subunit. The deoxynucleosides were not as effective as sodium butyrate as inducers of either protein. Whereas Thd and the halogenated dUrd derivatives enhanced protein expression, deoxycytidine (dCyd) had negative effects. Induction by deoxynucleosides of both alkaline phosphatase and alpha-subunit was inhibited by dCyd, but induction of alkaline phosphatase by butyrate was more sensitive to dCyd inhibition than was the butyrate-mediated induction of alpha-subunit. These results suggest that the two proteins are not regulated in a coordinate manner. Reversal of alkaline phosphatase induction by dCyd was not observed in cells preincubated with sodium butyrate for 6-24 h before the addition of dCyd, indicating that the deoxynucleoside interferes with an early event in the butyrate-mediated response. Combinations of butyrate with Thd, BrdUrd or IdUrd were synergistic with respect to the induction of HeLa-alpha. It is concluded that incorporation of the deoxynucleosides into DNA may not be required for the synergistic response since 2',5'-dideoxythymidine was an effective as Thd. Cytoplasmic dot hybridizations demonstrate that a primary effect of the various effectors is to increase the steady-state levels of alpha-subunit mRNA. There was a good correlation between alpha-subunit accumulation and corresponding levels of alpha-mRNA, suggesting that regulation occurs at a pretranslational site. Although the mechanism(s) is not understood, these data provide evidence that nucleosides or their derivatives can significantly affect gene expression.     

Purification and characterization of the rat ovarian receptor for luteinizing hormone. Structural studies of subunit interaction

We have purified the luteinizing hormone (LH)/human choriogonadotropin (hCG) receptor by sequential affinity column on wheat germ lectin-Sepharose and hCG-Sepharose. The method was designed to allow also the purification of lactogen receptor from the initial starting material. The purified LH/hCG receptor retained full binding affinity and was identified as a single protein of Mr = 73,000 +/- 3,000 on sodium dodecyl sulfate-gel electrophoresis. Cross-linking studies performed after binding of hCG to the purified LH/hCG receptor indicated that the hCG alpha-subunit undergoes predominant interaction with the receptor molecule. The influence of the beta-subunit in this interaction seems to occur mainly through its association with the alpha-subunit, presumably by conferring specificity to the alpha-subunit for its hormonal interaction with the receptor. The technique described in this study is simple and allows rapid purification of microgram amounts of biologically active receptor suitable for further molecular characterization, microsequencing, and functional reconstitution studies.     

Phosphorylation of the glycoprotein hormone alpha-subunit secreted by human tumor cell lines

The synthesis of ectopic proteins by tumors is thought to result from derepression of normally silent genes. One approach to a better understanding of this phenomenon is to characterize the physicochemical properties of the ectopic products, comparing them to their normal counterparts. In the following communication, evidence will be presented to indicate that the glycoprotein hormone alpha-subunits secreted by a number of human tumor cell lines are phosphorylated. This novel covalent modification occurs in cell lines derived from both trophoblastic (JAR, JEG) and nontrophoblastic (HeLa, ChaGo) tumors. A choriocarcinoma cell line (JAR), which secretes both hCG-alpha and hCG-beta, phosphorylates only the alpha-subunit.     

Studies on the alpha-subunit of bovine brain S-100 protein.

A method is described for the rapid purification of both S-100 protein and calmodulin from crude bovine brain extracts by the use of a fluphenazine-Sepharose affinity column eluted stepwise with decreasing concentrations of free Ca2+. Protein containing only alpha-subunit was purified from preparations of S-100 protein by anion-exchange chromatography. This protein co-migrated with the alpha-subunit of S-100 protein on sodium dodecyl sulphate/urea/polyacrylamide-gel electrophoresis and had an amino acid composition identical with that previously reported for this subunit. The results of u.v.-absorption and fluorescence-emission spectroscopy indicate that the tryptophan residue of the purified alpha-subunit of S-100 protein undergoes a Ca2+-induced change in environment. Measurements of changes in tryptophan fluorescence with increasing Ca2+ concentrations suggest an apparent dissociation constant of the alpha-subunit for Ca2+ of 7 X 10(-5)M in the absence of K+. In the presence of 90mM-K+ this value is increased to 3.4 X 10(-4)M.