Immunochemical characterization of the non-NMDA glutamate receptor using subunit-specific antibodies. Evidence for a hetero-oligomeric structure in rat brain.

Antibodies were made to synthetic peptides corresponding to sequences specific to the glutamate receptor (GluR) subunits, GluR1-4. The specificity of the antibodies was established by Western blotting using membranes of simian kidney cells (COS-7) transfected with GluR subunit DNA. Four antibodies were found to be selective for each of the four GluR subunits, and a fifth antibody recognized both GluR2 and 3. All five antibodies immunoadsorbed Triton X-100-solubilized rat brain [3H]AMPA binding activity and labeled an Mr = 108,000 band in samples of rat brain. The structure of the Triton X-100-solubilized GluR was studied using subunit-specific antibodies covalently attached to protein A-agarose and analyzing GluR subunits bound to the antibodies by Western blotting. Each of the four subunit-specific antibodies immunoadsorbed its respective GluR subunit as well as the other three forms of GluR, showing that the detergent solubilized GluR exists as hetero-oligomers composed of two or more of the four subunits. Evidence supporting a similar structure for membrane bound GluR was obtained using synaptic membranes chemically cross-linked with dithiobis(succinimidylpropionate). GluR was immunoaffinity-purified using the GluR2 and 3-selective antibody. This antibody, covalently attached to protein A-agarose, adsorbed 55% of [3H]AMPA binding activity, and after elution with 1 M KSCN, 22-37% of the binding activity was recovered. Analysis of the purified product showed a major immunoreactive band at Mr = 108,000, and silver staining identified the same major band and no additional polypeptides. The GluR receptor complex, therefore, appears to be made up exclusively of GluR1-4. In the purified GluR preparation, in addition to the Mr = 108,000 band, three higher molecular weight immunoreactive components were also detected. These bands migrated at Mr = 325,000, 470,000, and 590,000. Similar sized proteins were seen in the cross-linked synaptic membrane sample, with the Mr = 590,000 component being substantially enriched after cross-linking. The Mr = 590,000 band is the largest component detected, and it has a size consistent with its being a pentamer of the Mr = 108,000 protein.     

Monoclonal antibody DH12 reacts with a cell surface and a precursor form of the beta subunit of the human fibronectin receptor

Monoclonal and polyclonal antibodies were raised against a placenta plasma membrane protein preparation, which was obtained by fractionation on Blue B dye matrix and by HPLC-anionexchange, and which was shown to contain fibronectin receptors. Immunochemical and functional evidence showed that monoclonal antibody DH12 recognized the beta subunit of the human fibronectin receptor on fibroblasts. This monoclonal antibody reacted with two proteins in Western blots and in double immune precipitations of whole cell preparations. Only the higher Mr protein became labeled by surface iodination of intact fibroblasts. The lower Mr protein is thought to be an intracellular precursor of the beta subunit of the fibronectin receptor.     

Monoclonal antibodies against baboon endogenous virus and against host cell antigens.

Monoclonal antibodies were produced by murine hybridomas after immunization with semipurified baboon endogenous virus. In a solid-phase radioimmunoassay, two antibodies (F12-9 and B9-18) reacted with viral antigen only. The antibodies A6-8 and C9-12 also reacted with virus-producing cells but not with control cells, whereas antibodies E4-6 and D12-2 bound to virus-free cells as well. The cytofluorometry technique confirmed these results and showed a competition between antibodies A6-8 and C9-12 for binding to virus-producing cells as well as a competition between antibodies D12-2 and E4-6 for binding to virus-free human cells. An immune precipitation assay with disrupted virions indicated that antibodies A6-8, B9-18, and C9-12 were directed against the gp70 glycoprotein, and that antibody F12-9 reacted with a viral antigen with a molecular weight of 18,000. The syncytia induced in RSa cells by baboon molecular weight of 18,000. The syncytia induced in RSa cells by baboon endogenous virus could be inhibited either when antibody A6-8 or C9-12 was combined to the virus or when the RSa cells were treated with the anticellular antibody D12-2 or E4-6. These two effects were not observed with Mason-Pfizer virus. Thus, of three antibodies with specificities for viral gp70, two (A6-8 and C9-12) were directed at viral sites responsible for syncytium formation. Another antiviral antibody (F12-9) reacted with a protein of unknown function with a molecular weight of 18,000. The two anticellular antibodies were directed at similar or neighboring epitopes, which may be situated within the receptor to the virus.     

The beta subunit of the insulin receptor is an insulin-activated protein kinase

In the presence of adenosine 5'-[gamma-32P]triphosphate ([gamma-32P]ATP) and a partially purified human placental insulin receptor preparation, insulin stimulates the phosphorylation of an Mr 94000 protein in a time- and dose-dependent manner. Half-maximal stimulation of 32P incorporation occurs at (2-3) X 10(-9) M insulin, a concentration identical with the Kd for insulin binding in this preparation. Immunoprecipitations with monoclonal anti-insulin receptor antibody demonstrate that the Mr 94000 protein kinase substrate is a component of the insulin receptor, the beta subunit. If the partially purified, soluble placental receptor preparation is immunoprecipitated and then exposed to [gamma-32P]ATP and insulin, phosphorylation of the Mr 94000 protein is maintained. The photoincorporation of 8-azido[alpha-32P]ATP into placental insulin receptor preparations was carried out to identify the ATP binding site responsible for the protein kinase activity. Photoincorporation into numerous proteins was observed, including both subunits of the insulin receptor. However, when photolabeling was performed in the presence of excess adenosine 5'-(beta, gamma-imidotriphosphate), a nonhydrolyzable ATP derivative, the beta subunit of the insulin receptor was the only species protected from label incorporation. These data indicate that the beta subunit of the insulin receptor has insulin-dependent protein kinase activity. Phosphotyrosine formation is the primary result of this activity in placental insulin receptor preparations.     

Assessment of structural similarities in chick oviduct progesterone receptor subunits by partial proteolysis of photoaffinity-labeled proteins

Partial proteolytic fragmentation of the two chick oviduct progesterone receptor subunits was used to identify structural features shared by the two proteins. Both subunits can be photoaffinity labeled at their hormone-binding sites (Birnbaumer, M., Schrader, W. T., and O'Malley, B. W. (1983) J. Biol. Chem. 258, 1637-1644) using the radioactive steroid [methyl-3H] 17 alpha, 21-dimethyl-19-nor-pregn-4,9-diene-3,20-dione. Native subunits A (Mr = 79,000) and B (Mr = 108,000) were partially purified, photoaffinity-labeled, and then subjected to various mild proteolytic digestions. Labeled fragments were analyzed by fluorography after electrophoresis of the digests under denaturing conditions. Digestion patterns were characteristic for each protease tested. However, fragments from both A and B were indistinguishable for all peptides of less than Mr = 60,000. Time course studies demonstrated the sequential production of progressively smaller discrete fragments in a manner consistent with a precursor-product relationship among them and established the existence of similar structural domains resistant to proteolysis in both proteins. Autoradiographic peptide maps were obtained by 125I-labeling of pure A and B protein isolated by two-dimensional gel electrophoresis followed by exhaustive tryptic digestion and two-dimensional separation. These studies revealed that a significant proportion of the smaller A protein differs in its primary sequence from that of the B protein which excludes the possibility of their sharing a precursor-product relationship. We conclude that B and A subunits are separate proteins with common structural features in the native state, but with considerable amino acid sequence differences. The simplest hypothesis consistent with these findings is that B and A are the products of two separate genes which have diverged to give rise to two different but related proteins that fold in such a manner as to be almost indistinguishable by proteolytic attack of their native conformation.     

Transformation and phosphorylation of purified molybdate-stabilized chicken oviduct progesterone receptor

The non-transformed, molybdate-stabilized chick oviduct cytosol progesterone receptor was purified approx. 7000-fold using biospecific affinity resin (NADAC-Sepharose), DEAE-Sephacel chromatography and gel filtration on Bio-Gel A-0.5m agarose. The purified preparation contained progesterone receptor which sedimented as a 7.9S molecule, had a Stokes' radius of 7.5 nm, was composed of three major peptides corresponding to Mr 108,000, 90,000 and 79,000. Upon removal of molybdate, the purified [3H]progesterone-receptor complex could be transformed from the 8S form to a 4S form by exposure to 23 degrees C or by an incubation with 10 mM ATP at 0 degrees C. The purified thermally transformed receptor could be adsorbed to columns of ATP-Sepharose. No cytosol factor(s) appeared to be required for the 8S to 4S transformation of purified receptor or for its subsequent binding to ATP-Sepharose. Incubation of purified non-transformed receptor preparation with [gamma-32P]ATP and cAMP-dependent protein kinase led to incorporation of radioactivity in all the three major peptides at serine residues. The results of this study show for the first time that purified 8S progesterone receptor can be phosphorylated in vitro by a cAMP-dependent protein kinase, and that it can be transformed to a 4S form by 0 degrees C incubation with 10 mM ATP.     

Chick oviduct progesterone receptor phosphorylation: characterization of a copurified kinase and phosphorylation in primary cultures

A protein kinase activity was copurified with the chick oviduct progesterone receptor. The enzyme is magnesium dependent and can use the B subunit of progesterone receptor or histones as substrates. The physiochemical parameters of the kinase were determined [pI approximately 5.3; Stokes radius approximately 7.2 nm; sedimentation coefficient (S 20,w) approximately 5.6] and compared to those of the purified B subunit. The results were consistent with the presence of an unique enzyme distinct from the receptor itself. The physiological significance of receptor phosphorylation was investigated in oviduct cells grown in primary culture. Cells were labeled with [32P]orthophosphate in presence or absence of progesterone and the receptor components were immunoprecipitated with a specific polyclonal antibody. Although progesterone treatment lead to the attachment of most of the receptor (approximately 80%) to nuclear structures, the 32P-labeled B subunit was only recovered in the cytosol fraction. Different procedures to extract the nuclear receptor did not allow detection of any 32P-labeled form in the nuclear-soluble fractions, suggesting that the B subunit was not further phosphorylated upon the exposure of cells to progesterone.     

Monoclonal antibodies to monoamine oxidase B and another mitochondrial protein from human liver.

A monoclonal antibody has been generated to human liver monoamine oxidase (MAO) B by fusion of mouse myeloma cells with spleen cells from a mouse immunized with a mixture of semi-purified MAO A and MAO B. The antibody, 3F12/G10, an immunoglobulin G1, reacts with its antigen in cryostat sections of human liver, showing an intracellular particulate distribution as demonstrated by immunoperoxidase staining. The antibody indirectly precipitates [3H]pargyline-labelled human MAO B both from liver and platelet extracts but fails to precipitate MAO A from liver extracts. The antibody does not recognise rat liver MAO B, showing that the determinant is not universally expressed on MAO B. The antibody has no effect on the catalytic activity of MAO B. Other monoclonal antibodies were generated but they are directed to a protein with a subunit Mr of 54 000, a contaminant of the MAO preparation. One of these antibodies, A8/C2, an IgG2a, reacts with the same protein in both rat and human liver extracts.     

Purification and characterization of the human brain insulin receptor

The insulin receptor from human brain cortex was purified by a combination monoclonal antibody affinity column and a wheat germ agglutinin column. This purified receptor preparation exhibited major protein bands of apparent Mr = 135,000 and 95,000, molecular weights comparable to those for the alpha and beta subunits of the purified human placental and rat liver receptors. A minor protein band of apparent Mr = 120,000 was also observed in the brain receptor preparation. Crosslinking of 125I-insulin to all three receptor preparations was found to preferentially label a protein of apparent Mr = 135,000. In contrast, cross-linking of 125I-labeled insulin-like growth factor I to the brain preparation preferentially labeled the protein of apparent Mr = 120,000. The purified brain insulin receptor was found to be identical with the placental insulin receptor in the amount of neuraminidase-sensitive sialic acid and reaction with three monoclonal antibodies to the beta subunit of the placental receptor. In contrast, a monoclonal antibody to the insulin binding site recognized the placental receptor approximately 300 times better than the brain receptor. These results indicate that the brain insulin receptor differs from the receptor in other tissues and suggests that this difference is not simply due to the amount of sialic acid on the receptor.     

3H]DU41165: a high affinity ligand and novel photoaffinity labeling reagent for the progesterone receptor

17 alpha-Acetoxy-6-fluoro-16-methylene-(9 beta, 10 alpha)pregna-4,6-dien- 3,20-dione (DU41165), a retroprogestin (9 beta, 10 alpha) embodying a fluorine-substituted dienone system, has been prepared in high specific activity tritium-labeled form (4 Ci/mmol) and shown to be a high affinity ligand for the progesterone receptor (PgR) and a highly selective photoaffinity labeling reagent for PgR. The radiosynthesis involved conversion of DU41231 (the 17 alpha-hydroxy analog of DU41165) to DU41165 by treatment with tritium-labeled acetic anhydride. The binding affinity of DU41165 for PgR was determined by both a competitive binding assay and a direct binding assay (Scatchard analysis) to be 1.6-2.2-times higher than that of the high affinity synthetic progestin promegestone (R5020). In unlabeled form, DU41165 demonstrates photoinactivation of PgR to the extent of 60% at 60 min. In radiolabeled form [3H]DU41165 demonstrates specific covalent attachment with an efficiency of 5-7%. SDS-polyacrylamide gel electrophoresis of photoattached [3H]DU41165 confirms that there is covalent labeling of both the B subunit (Mr = 118,000), and the A subunit (Mr = 88,000) of PgR in a molar ratio of approximately 1:3.     

The hyaluronate receptor is identical to a glycoprotein of Mr 85,000 (gp85) as shown by a monoclonal antibody that interferes with binding activity

The cell surface receptor for hyaluronate is an integral membrane glycoprotein of Mr 85,000 (Underhill, C. B., Thurn, A. L., and Lacy, B. E. (1985) J. Biol. Chem. 260, 8128-8133), which appears to be associated with actin filaments. This protein is similar in many respects to another protein, termed gp85, which was originally identified by Tarone, G., Ferracini, R., Galeto, G., and Comoglio, P. (1984) J. Cell Biol. 99, 512-519), using a monoclonal antibody designated as K-3. The gp85 is also a membrane glycoprotein of Mr 85,000 which is associated with the cytoskeleton. Indeed, immunohistological staining has shown that it is distributed in patches along stress fibers of spread baby hamster kidney (BHK) cells. In the present study, we have used the K-3 monoclonal antibody to determine whether gp85 is identical to the hyaluronate receptor. Initial studies showed that the K-3 antibody reacted with material at Mr 85,000 on immunoblots of a purified preparation of the hyaluronate receptor. In addition, the K-3 antibody specifically blocked the binding of [3H]hyaluronate to detergent extracts of the receptor from both BHK and polyoma virus transformed baby hamster kidney (PY-BHK) cells, as well as to intact PY-BHK cells. These results indicate that the K-3 antibody is directed against the hyaluronate receptor, which therefore must be identical to gp85. The K-3 antibody was then used to determine the relative number of hyaluronate receptors associated with parent (BHK) and transformed (PY-BHK) cells. Using an enzyme-linked assay, we found that parent cells had a substantially greater number of receptors than their transformed counterparts. These results were consistent with those obtained when detergent extracts of cells were directly assayed for [3H]hyaluronate binding activity.     

Epidermal growth factor-induced truncation of the epidermal growth factor receptor

NIH-3T3 cells expressing the human epidermal growth factor (EGF) receptor were used in experiments to determine the fate of the EGF receptor in cells continuously exposed to EGF. EGF receptor was immunoprecipitated from cells labeled for 12 h with [35S] methionine in the absence or presence of 10 nM EGF. As expected, a single Mr = 170,000 polypeptide representing the mature EGF receptor was immune-precipitated from control cells. Surprisingly, immune precipitates from EGF-treated cells contained a prominent Mr = 125,000 receptor species, in addition to the Mr = 170,000 mature receptor. The Mr = 125,000 species was shown to be derived from the Mr = 170,000 form by pulse-chase experiments, in which the Mr = 170,000 receptor chased into the Mr = 125,000 form when EGF was included during the chase and by partial proteolysis. Both proteins became extensively phosphorylated on tyrosine residues in immune precipitate kinase assays. Treatment of immune precipitates with endoglycosidase F changed the apparent molecular weight of the Mr = 170,000 receptor to Mr = 130,000 and of the Mr = 125,000 form to Mr = 105,000, indicating that the appearance of the Mr = 125,000 protein was probably due to proteolysis. Antibody against the carboxyl terminus of the mature EGF receptor recognized the Mr = 125,000 protein, whereas antibody against the amino terminus did not. Incubation of cells with leupeptin prior to and during EGF addition inhibited processing to the Mr = 125,000 species. Methylamine and low temperature also inhibited the EGF-induced processing to the Mr = 125,000 form. These data suggest a possible role for proteolysis of the EGF receptor in receptor function.     

Production and specificity of monoclonal antibodies and polyclonal antibodies to Escherichia coli

Monoclonal antibodies were produced to whole cells of heat-treated Escherichia coli. Balb/c mice were immunized with a pool of five strains of heat-treated E. coli , and the resulting hybridomas were screened by indirect immunoassay. E. coli strains other than those used for immunization were used for screening to detect hybridomas producing antibody that reacted with a large number of E. coli strains. Of 864 hybridomas, 32 reacted strongly with either two or all three of the strains used for screening; 15 were successfully cloned. Antibody from hybridoma 6H2 reacted with 35 of 68 (51%) E. coli ; of 13 non- E. coli tested, only Enterobacter agglomerans was weakly positive. Hybridoma 9B12 antibody reacted with all six E. coli tested. Hybridoma 9B12, however, stopped producing antibody. Five hybridomas produced antibody which reacted with a majority of the bacteria tested whereas antibodies from two other hybridomas reacted with several E. coli and non- E. coli. Polyclonal antibodies produced to two strains of E. coli varied in the numbers of E. coli with which they reacted; both antisera cross-reacted with several non- E. coli.     

Production and specificity of monoclonal antibodies and polyclonal antibodies to Escherichia coli

Monoclonal antibodies were produced to whole cells of heat-treated Escherichia coli. Balb/c mice were immunized with a pool of five strains of heat-treated E. coli, and the resulting hybridomas were screened by indirect immunoassay. E. coli strains other than those used for immunization were used for screening to detect hybridomas producing antibody that reacted with a large number of E. coli strains. Of 864 hybridomas, 32 reacted strongly with either two or all three of the strains used for screening; 15 were successfully cloned. Antibody from hybridoma 6H2 reacted with 35 of 68 (51%) E. coli; of 13 non-E. coli tested, only Enterobacter agglomerans was weakly positive. Hybridoma 9B12 antibody reacted with all six E. coli tested. Hybridoma 9B12, however, stopped producing antibody. Five hybridomas produced antibody which reacted with a majority of the bacteria tested whereas antibodies from two other hybridomas reacted with several E. coli and non-E. coli. Polyclonal antibodies produced to two strains of E. coli varied in the numbers of E. coli with which they reacted; both antisera cross-reacted with several non-E. coli.     

A protein kinase copurified with chick oviduct progesterone receptor

A magnesium-dependent protein kinase activity was copurified with both the molybdate-stabilized 8S form of the chick oviduct progesterone receptor (PR) and its B subunit. In each case, purification was performed by hormonal affinity chromatography followed by ion-exchange chromatography. The Km(app) values of the phosphorylation reaction for [gamma-32P]ATP and calf thymus histones were approximately 1.3 X 10(-5) M and approximately 1.6 X 10(-5) M, respectively, and only phosphorylated serine residues were found in protein substrates, including PR B subunit. Physicochemical parameters of the enzyme [pI approximately 5.3, Stokes radius approximately 7.2 nm, sedimentation coefficient (S20,w) approximately 5.6 S, and Mr approximately 200,000] were compared to those of purified forms of PR (B subunit, pI approximately 5.3, Stokes radius approximately 6.1 nm, and Mr approximately 110,000; 8S form, Stokes radius approximately 7.7 nm and Mr approximately 240,000). The results suggest that most of the protein kinase activity copurified with both oligomeric and monomeric forms of PR belongs to an enzyme distinct from currently known receptor components. Its physiological significance remains unknown.     

Purification and protein sequence analysis of rat liver prolactin receptor

Prolactin receptors were purified from rat liver membranes by single-step immunoaffinity chromatography using a specific monoclonal antibody to the rat liver prolactin receptor. Scatchard analysis of 125I-human growth hormone binding to the purified receptor revealed two classes of specific binding sites with Ka = 18.5 x 10(9) and 1.2 x 10(9) M-1. Considering that both classes of binding sites are responsible for high affinity prolactin binding, the partially purified receptor preparation had a binding activity of 1.69 nmol/mg protein, representing 1000-fold purification over microsomal receptors with a recovery of 52%. From three separate purifications, 6 mg of partially purified prolactin receptor were obtained with a purity of approximately 4 to 6.5%. Thus, the use of monoclonal antibody for affinity chromatography resulted in a large improvement of prolactin receptor purification compared to previous hormone affinity chromatography (300-fold purification, 15% recovery). The purified receptor was run on preparative sodium dodecyl sulfate polyacrylamide gel electrophoresis, and a homogeneous preparation of prolactin receptor was obtained by electroelution from gel slices corresponding to Mr 38,000-43,000. Immunoblot analysis using a radiolabeled monoclonal antibody revealed two separate but closely located bands of Mr 42,000 and 40,000 in microsomal, partially purified, and electroeluted preparations. The homogeneous receptor protein was extensively digested with L-1-tosylamido-2-phenylethyl chloromethyl ketone trypsin, and 10 internal amino acid sequences of the rat liver prolactin receptor were determined by gas-phase sequence analysis. Oligonucleotide probes were prepared against two of these internal sequences, and a prolactin receptor cDNA was isolated from a rat liver library using one of these probes (Boutin, J. M., Jolicoeur, C., Okamura, H., Gagnon, J., Edery, M., Shirota, M., Banville, D., Dusanter-Fourt, I., Djiane, J., and Kelly, P. A. (1988) Cell 53, 69-77). The amino acid sequence deduced from the cDNA reveals three potential sites of N-linked glycosylation, two of which were confirmed during protein sequencing. The prolactin receptor was characterized by affinity labeling with 125I-human growth hormone. Cross-linking of microsomes revealed a single band for the hormone-receptor complex with Mr 62,000. On the other hand, cross-linking of Triton X-100-solubilized or partially purified receptor with labeled hormone resulted in the appearance of two bands with Mr 62,000 and 102,000, suggesting the existence of a subunit structure of the prolactin receptor, or alternatively, the existence of two types of prolactin receptor.(ABSTRACT TRUNCATED AT 400 WORDS)     

Secretion of soluble functional insulin receptors by transfected NIH3T3 cells

In order to determine whether the human insulin receptor ectodomain can be expressed as a functional protein, the coding regions for the transmembrane and cytoplasmic domain of a full-length human insulin receptor cDNA were deleted by site-directed mutagenesis, and the resultant construct was inserted into a bovine papilloma virus vector under the control of the mouse metallothionein promoter. After transfection of mouse NIH3T3 cells, a cell line secreting an insulin binding protein was isolated. The insulin binding alpha subunit had an Mr of 138,000 and a beta subunit of Mr 48,000 (compared to 147,000 and 105,000 for the full-length human insulin receptor expressed in NIH3T3 cells). This difference in size of the alpha subunit was due to a difference in glycosylation as N-glycanase digestion reduced the apparent size of the alpha subunits of secreted and normal membrane-bound receptors to identical values. The secreted receptor formed disulfide-linked heterotetrameric structures with an Mr of 280,000. It was synthesized as an Mr 160,000 precursor which was cleaved into mature subunits with a t1/2 of 3 h. Increasing expression of the cDNA by induction with sodium butyrate lead to the appearance of an Mr 180,000 protein in the medium as well as the mature alpha and beta subunits. A Scatchard plot of insulin binding to the secreted receptor was curvilinear with a Kd of 7 X 10(-10) M for the high affinity sites and 10(-7) M for the low affinity site (compared to Kd values of 1.1 X 10(-9) M and 10(-7) M, respectively, for human insulin receptors expressed in these cells.     

Post-translational modification of the protein-synthesis initiation factor eIF-4D by spermidine in rat hepatoma cells.

The structural characteristics and glycoprotein nature of the human growth hormone (hGH) receptor in cultured lymphocytes (IM-9 cell line) were studied with the use of a bifunctional reagent (disuccinimidyl suberate) to couple 125I-hGH covalently to intact cells. After cross-linking, the hormone-receptor complexes were analysed by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. A single band of Mr 140,000 was identified under reducing conditions. The labelling of this band was blocked by unlabelled hGH but not by insulin, ovine prolactin, bovine or ovine growth hormones. The Mr 140,000 band was immunoprecipitated by either anti-hGH antibody or by a monoclonal antibody against rat liver growth hormone receptor. In the absence of reductant two major bands of Mr 270,000 and 140,000 were found. On two-dimensional gel electrophoresis, with the first dimension in the absence of reductant and the second in its presence, the Mr 270,000 complex generated the Mr 140,000 band. The nature of the oligosaccharide chains of the receptor was studied by treatment with different glycosidases. The electrophoretic mobility of the Mr 140,000 receptor complex was markedly increased after digestion with endoglycosidase F but showed no or little change after digestion with endoglycosidase H. The Mr 140,000 band was also sensitive to neuraminidase treatment. In addition the 125I-hGH-receptor complex was adsorbed by immobilized wheat germ agglutinin and to a smaller extent by immobilized concanavalin A, lentil lectin, ricin I and ricin II. In conclusion, taking into account that hGH is a Mr 22,000 polypeptide, the binding subunit of the GH receptor in human IM-9 lymphocytes has an Mr of approx. 120,000. The native receptor may exist as a homodimer of the binding subunit formed by disulphide bonds. Furthermore, the GH receptor subunit contains asparagine N-linked type of oligosaccharide chains. Most, if not all, of these chains are of the complex type and appear to be sialylated whereas no high-mannose type chains are detectable in the mature form of the receptor.     

Characterization of the human transferrin receptor produced in a baculovirus expression system

Recombinant human transferrin receptor has been produced in a baculovirus expression system. Magnetic particles coated with an anti-transferrin receptor monoclonal antibody were used to immunoselect virus-infected Sf9 insect cells expressing the human transferrin receptor on their cell surface. Recombinant virus containing the human transferrin receptor cDNA was then plaque-purified from these cells. Biosynthetic labeling studies of infected cells showed that the human transferrin receptor is one of the major proteins made 2-3 days postinfection. The recombinant receptor made in insect cells is glycosylated and is also posttranslationally modified by the addition of a fatty acid moiety. However, studies with tunicamycin and endoglycosidases H and F showed that the oligosaccharides displayed on the recombinant receptor differ from those found on the naturally occurring receptor in human cells. As a consequence, the human receptor produced in the baculovirus system has an Mr of 82,000 and is smaller in size than the authentic receptor. About 30% of human transferrin receptors made in insect cells do not form intermolecular disulfide bonds, but are recognized by the anti-transferrin receptor antibody, B3/25, and bind specifically to a human transferrin-Sepharose column. Binding studies using 125I-labeled human transferrin showed that insect cells infected with the recombinant virus expressed an average of 5.8 +/- 0.9 X 10(5) transferrin receptors (Kd = 63 +/- 9 nM) on their cell surface. Thus, the human transferrin receptor produced in insect cells is biologically active and appears suitable for structural and functional studies.     

Peptide Subunits of γ-Aminobutyric AcidA/Benzodiazepine Receptors from Bovine Cerebral Cortex

The gamma-aminobutyric acidA/benzodiazepine receptor complexes from bovine cerebral cortex were purified by immunoaffinity chromatography, and the main component peptide subunits were characterized. The peptide band originally thought to be a single beta subunit [57,000 Mr band in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE)] is composed of at least four different peptides of 54,000-57,000 Mr. Two peptides of 55,000 and 57,000 Mr were recognized by the beta subunit-specific monoclonal antibody 62-3G1. Peptides in the range of 54,000-57,000 Mr were photoaffinity-labeled with [3H]muscimol. A different 57,000 Mr peptide was photoaffinity-labeled by [3H]flunitrazepam, but neither was recognized by the monoclonal antibody 62-3G1 nor photoaffinity-labeled with [3H]muscimol. Some peptides could be identified by their differential mobility shift in SDS-PAGE after treatment with endoglycosidase H. Two additional subunit peptides of 51,000 and 53,000 Mr were also photoaffinity-labeled by [3H]flunitrazepam and reacted with antiserum A. However, the 57,000 Mr peptide that also was photoaffinity-labeled by [3H]flunitrazepam did not react with antiserum A.