Somatostatin receptors on rat cerebrocortical membranes. Structural characterization of somatostatin-14 and somatostatin-28 receptors and comparison with pancreatic type receptors

Somatostatin binding and cross-linking to its receptors on rat cerebrocortical membranes were characterized with [125I-Tyr1]somatostatin-14 and [125I-Leu8, D-Trp22, Tyr25]somatostatin-28. When [125I-Tyr1]somatostatin-14 was cross-linked to its receptors with the photoreactive cross-linker, N-(5-azido-2-nitrobenzoyloxy)succinimide, the hormone was specifically associated with a Mr = 72,000 protein band in the presence or absence of reducing agents. Affinity labeling of the Mr = 72,000 protein band was decreased with increasing concentrations of unlabeled somatostatin-14 and nonhydrolyzable guanine nucleotide analog, guanyl-5'-yl imidodiphosphate (Gpp(NH)p). Pretreatment of cerebrocortical membranes with islet-activating protein resulted in a decrease in subsequent labeled somatostatin-14 binding and affinity-labeling of the protein and abolished an inhibitory effect of somatostatin-14 on vasoactive intestinal peptide-stimulated increase in adenylate cyclase activity. When the affinity-labeled protein was solubilized with Zwittergent 3-12 and adsorbed to wheat germ agglutinin-agarose, it was eluted by N-acetylglucosamine. [125I-Leu8, D-Trp22, Tyr25]somatostatin-28 cross-linking to cerebrocortical and pancreatic membranes with the same photoreactive agent revealed specifically labeled protein bands of a Mr = 74,000 in cerebrocortical membranes and a Mr = 94,000 in pancreatic membranes, respectively. These results suggest that: 1) somatostatin receptor on cerebrocortical membranes is a monomeric glycoprotein with a Mr = 70,000 binding subunit, coupled to guanine nucleotide regulatory protein, and 2) the Mr = 70,000 protein may be a common receptor for somatostatin-28 and somatostatin-14 and is distinct from a common pancreatic type receptor.     

Solubilization and characterization of guinea-pig pancreatic somatostatin receptors

The solubilization of somatostatin receptors from guinea-pig pancreas by different non-denaturing detergents was investigated after stabilization of the receptors by prior binding of 125I-[Tyr11]somatostatin or its analogue 125I-[Leu8,DTrp22,Tyr25]somatostatin 28, to pancreatic plasma membranes. The somatostatin-receptor complexes were solubilized in a high yield by Zwittergent 3-14 (3-[tetradecyldimethylammonio]-1-propanesulfonate), a zwitterionic detergent. Other detergents, digitonin, Triton X-100, Chaps (3-[cholamidopropyldimethylammonio]-1-propanesulfonate) and octyl beta-D-glycopyranoside, achieved only partial solubilization. The recovery of receptor complexes was increased by glycerol. In order to characterize solubilized somatostatin-receptor complexes, membranes receptors were covalently labelled using N-5-azido-2-nitrobenzoyloxysuccinimide as cross-linking reagent before solubilization. Gel filtration chromatography analysis resulted in the identification of a major protein component of apparent Mr = 93,000 which interacted with the two radioligands. In addition, a similar component of Mr = 88,000 was characterized after analysis by SDS-PAGE of membrane receptors covalently cross-linked with 125I-[Leu8,DTrp22,Tyr25]somatostatin 28 by different heterobifunctional reagents: N-5-azido-2-nitrobenzoyloxysuccinimide, N-hydroxysuccinimidyl 4-azidobenzoate, N-succinimidyl 6-(4'-azido-2'-nitrophenylamino)hexanoate. Optimal cross-linking results were obtained with N-5-azido-2-nitrobenzoyloxysuccinimide. The solubilized somatostatin-receptor complex was adsorbed to wheat-germ agglutinin-agarose column and eluted by specific sugars. We concluded that the guinea-pig pancreatic somatostatin receptor in the membrane and in the non-denaturing detergent solution behaves as a protein monomer of apparent Mr approximately 85,000-90,000. The somatostatin receptor is a glycoprotein which contains complex-type carbohydrate chains.     

Solubilization and characterization of active somatostatin receptors from rat pancreas

Somatostatin receptors were solubilized from rat pancreatic membranes with the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propane-sulfonic acid (CHAPS). The binding of an iodinated somatostatin analog [125I-Tyr3]SMS to the soluble fraction was time-dependent, saturable, and reversible. Scatchard analysis of equilibrium binding data indicated that the soluble extract contained a single class of somatostatin binding sites with a Kd of 0.3 nM and a Bmax of 210 fmol/mg. As observed with membrane-bound receptors, soluble binding receptors were sensitive to the GTP analog GTP gamma S indicating that they are functionally linked to a G protein. A molecular weight of about 400,000 was determined for soluble receptors under native conditions by gel filtration. In denaturing gel electrophoresis, photoaffinity labeling of soluble receptors identified a major protein of Mr = 100,000 and two minor proteins of Mr = 56,000 and 21,000. Isoelectric focusing of soluble receptors revealed that the somatostatin receptor is an acidic protein with pI 4.8. The soluble somatostatin receptor is a glycoprotein which can be specifically bound to the wheat germ agglutinin lectin and eluted by triacetyl-chitotriose.     

Galanin receptor in the rat pancreatic beta cell line Rin m 5F. Molecular characterization by chemical cross-linking

125I-Galanin was cross-linked to receptor in Rin m 5F cell membranes using the bifunctional reagent disuccinimidyl tartarate. Regardless of the presence of reducing agents, sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of cross-linked galanin-receptor complexes revealed the presence of a radioactive band at Mr 57,000. Excess unlabeled galanin completely inhibited the labeling of the band while other regulatory peptides had no effect. Labeling of the Mr 57,000 complex was abolished by galanin concentration from 10(-9) to 10(-6) M (IC50 = 5 X 10(-9) M). Initial incubation with 125I-galanin in the presence of increasing concentrations of guanyl-5'-yl imidodiphosphate (GMP-P(NH)P) (10(-7) to 10(-4) M) also inhibited the labeling of the Mr 57,000 complex. Moreover, pretreatment of membranes with pertussis toxin before formation of the covalent galanin-receptor complex, dramatically reduced the labeling of the Mr 57,000 species. Covalent Mr 57,000 galanin-receptor complexes solubilized by Triton X-100 bound specifically to wheat germ agglutinin-concanavalin A-, and soybean-coupled Sepharose, supporting the glycoproteic nature of the galanin receptor. Assuming one molecule of 125I-galanin (Mr 3,000) was bound per molecule of protein, these results suggest that the pancreatic galanin receptor is a glycoprotein with a Mr of 54,000 bearing the recognition site for the ligand and which is coupled with a pertussis toxin-sensitive G protein in the plasma membrane.     

Characterization of a bombesin receptor on Swiss mouse 3T3 cells by affinity cross-linking

We have previously identified by chemical cross-linking a cell surface protein in Swiss 3T3 cells of apparent Mr 75,000-85,000, which may represent a major component of the receptor for peptides of the bombesin family in these cells. Because bombesin-like peptides may interact with other cell surface molecules, it was important to establish the correlation between receptor binding and functions of this complex and further characterize the Mr 75,000-85,000 cross-linked protein. Detailed time courses carried out at different temperatures demonstrated that the Mr 75,000-85,000 affinity-labelled band was the earliest cross-linked complex detected in Swiss 3T3 cells incubated with 125I-labelled gastrin-releasing peptide (125I-GRP). Furthermore, the ability of various nonradioactive bombesin agonists and antagonists to block the formation of the Mr 75,000-85,000 cross-linked complex correlated extremely well (r = 0.994) with the relative capacity of these peptides to inhibit 125I-GRP specific binding. Pretreatment with unlabelled GRP for up to 6 h caused only a slight decrease in both specific 125I-GRP binding and the affinity labelling of the Mr 75,000-85,000 protein. We also show that the cross-linked complex is a glycoprotein. First, solubilized affinity labelled Mr 75,000-85,000 complex applied to wheat germ lectin-sepharose columns was eluted by addition of 0.3 M N-acetyl-D-glucosamine. Second, treatment with endo-beta-N-acetylglucosaminidase F reduced the apparent molecular weight of the affinity-labelled band from 75,000-85,000 to 43,000, indicating the presence of N-linked oligosaccharide groups.     

Functional and immunological evidence for stable association of solubilized vasoactive-intestinal-peptide receptor and stimulatory guanine-nucleotide-binding protein from rat liver

We have reported the solubilization of complexes between vasoactive intestinal peptide (VIP) and its receptor from rat liver in a GTP-sensitive form of Mr 150,000 [Couvineau, A., Amiranoff, B. & Laburthe, M. (1986) J. Biol. Chem. 261, 14482-14489]. In the present study, we demonstrate a stable association of solubilized VIP receptor and stimulatory guanine nucleotide-binding protein (Gs protein), taking advantage of the ability of the glycoproteic VIP receptor (Mr 48,000), and the inability of the Gs protein, to adsorb to wheat germ agglutinin (WGA). 125I-VIP-receptor complexes solubilized in Triton X-100 were adsorbed on WGA-Sepharose, extensively washed and the radioactivity retained was eluted with 1 mM GTP showing that: (a) radioactivity corresponds to free 125I-VIP and (b) alpha s (Mr 42,000) and beta (Mr 35,000) subunits of Gs protein are detectable in the GTP eluate by immunoblotting using antisera against these subunits. Such an effect of GTP implied that a stable ternary complex consisting of VIP, receptor and Gs protein had been adsorbed to WGA-Sepharose. When Triton-solubilized 125I-VIP-receptor complexes were adsorbed on WGA-Sepharose, then retained material was specifically eluted with 0.3 M N-acetylglucosamine, analysis of the sugar eluate showed the following results. (a) GTP induces the dissociation of 125I-VIP-receptor complexes of Mr 150,000 contained in the eluate indicating that 125I-VIP-receptor-G protein complexes had been adsorbed to the WGA column. (b) The Mr-42,000 alpha s subunit can be specifically ADP-ribosylated by cholera toxin. (c) Immunoblotting using antisera against the alpha s and beta subunits of Gs protein, reveals Mr-42,000 and Mr-35,000 components corresponding to alpha s and beta subunits, respectively. (d) Affinity cross-linking using dithiobis(succinimidyl-propionate) of 125-I-VIP-receptor complexes eluted from the WGA column reveals a major band corresponding to Mr 150,000. Immunoblotting using antisera against the beta-subunit shows the presence of the beta subunit (Mr 35,000) in this Mr-150,000 component. In conclusion, these data provide functional and immunochemical evidence for the physical association of solubilized VIP-receptor complexes with alpha s and beta subunits of Gs protein.     

Parathyroid hormone receptors are plasma membrane glycoproteins with asparagine-linked oligosaccharides

In the preceding article, we described physicochemical and kinetic properties of parathyroid hormone (PTH) receptors in clonal rat osteosarcoma cells (ROS 17/2.8) using photoaffinity ligand labeling and showed that the physiologically relevant receptor-ligand complex has an apparent Mr = 80,000. In this study, the photoaffinity labeled Mr = 80,000 receptor was localized exclusively on the cell surface plasma membrane and its glycoprotein nature was demonstrated through the use of lectin affinity-chromatography and specific exo- and endoglycosidases. Rinsing ROS cells, preincubated in the dark with 125I-labeled [Nle8, N-epsilon-(4-azido-2-nitrophenyl)Lys13,Nle18,Tyr34]bovine PTH-(1-34)-NH2 (NAP-NlePTH) (4 h, 15 degrees C, equilibrium conditions) with acidic phosphate-buffered saline (pH 2.5, 30 s, 4 degrees C) before photolysis resulted in selective and nearly total disappearance of the labeled Mr = 80,000 receptor. PTH receptor integrity to acid rinsing and photolysis was shown by relabeling the Mr = 80,000 receptor after a second incubation of these cells with 125I-labeled NAP-NlePTH, followed by photolysis. Adsorption of Triton X-100-solubilized, 125I-labeled NAP-NlePTH receptors to wheat germ agglutinin-agarose is nearly complete and highly selective, and elution with N-acetylglucosamine resulted in virtually total recovery of the labeled receptors from the column. The wheat germ agglutinin-retarded PTH receptors show increased electrophoretic mobility upon treatment with neuraminidase which was inhibited by simultaneous addition of 2,3-dehydro-3-desoxy-N-acetylneuraminic acid, a specific neuraminidase inhibitor. Endoglycosidase F treatment of the Mr = 80,000 receptors generated a single, labeled polypeptide with a Mr = 59,000 which migrated as a narrow band. PTH receptors on ROS 17/2.8 cells appear to be monomeric plasma membrane glycoproteins with an apparent Mr of 80,000 which contain a Mr = 59,000 polypeptide backbone and a polymeric arrangement of N-acetylglucosamine with N-acetylneuraminic acid as major terminal sugar residues.     

Purification and characterization of the bombesin/gastrin-releasing peptide receptor from Swiss 3T3 cells

The bombesin/gastrin-releasing peptide (GRP) receptor was solubilized from Swiss mouse 3T3 cell membranes in an active form and was purified about 90,000-fold to near homogeneity by a combination of wheat germ agglutinin-agarose and ligand affinity chromatography. The purified receptor displayed a single diffuse band with a Mr of 75,000-100,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. After treatment of the receptor with N-glycanase, removing N-linked oligosaccharide moieties, the protein yielded a Mr = 38,000 band. These results agree with the Mr value estimated for the GRP receptor that was labeled on Swiss 3T3 cells by cross-linking to 125I-GRP1-27. GRP1-27 bound to the purified receptor with a Kd of 0.038 +/- 0.019 nM. By comparison, the soluble receptor in unfractionated extracts and intact membranes displayed a Kd for GRP1-27 of 0.036 +/- 0.003 nM and 0.13 +/- 0.04 nM, respectively. The relative potencies of a series of GRP analogs for the soluble receptor and intact membranes indicated that the extraction procedure did not significantly alter the receptor's ligand binding specificity. However coupling of the receptor to its guanyl nucleotide regulatory protein was not maintained in the soluble extract, and a G-protein did not co-purify with the receptor. Physiological concentrations of NaCl greatly inhibited the binding of some GRP analogs to the receptor, while the binding of other analogs was not affected. A domain on the GRP molecule involving Lys-13 or Arg-17 was identified which promoted binding to the GRP receptor under conditions of low ionic strength. These findings aided the development of an effective ligand affinity resin for the purification of the GRP receptor.     

Solubilization and affinity purification of the Y2 receptor for neuropeptide Y and peptide YY from rabbit kidney.

Neuropeptide Y (NPY) is an important neuropeptide in both central and peripheral neurones whereas peptide YY (PYY) is a gut hormone present in endocrine cells in the lower bowel. Both peptides interact with multiple binding sites that have been further classified into Y1 and Y2 receptors. We have solubilized native Y2 receptors both from basolateral membranes of proximal convoluted tubules from rabbit kidney and from rat hippocampal membranes. Solubilization of functional Y2 receptors was obtained with both 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS) and digitonin and resulted in each case in a single class of high affinity binding sites. The soluble receptor retained the binding specificity for different peptides and long C-terminal fragments of NPY exhibited by membrane preparations. Gel filtration of solubilized receptors resulted in a single peak of specific PYY binding activity corresponding to Mr = 350,000 whereas affinity labeling revealed a major band of Mr = 60,000. Since this binding activity was inhibited by guanosine 5'-3-O-(thio)triphosphate (GTP gamma S) the Y2 receptor is probably solubilized as a receptor complex containing a G-protein along with the ligand binding protein. Y2 receptor binding sites from kidney tubular membranes were purified to homogeneity by a three-step procedure employing Mono S cation-exchange adsorption, affinity chromatography on wheat germ lectin-agarose beads, and affinity chromatography on NPY-Affi-Gel. Electrophoresis and silver staining of the final receptor preparation revealed a single protein with Mr = 60,000 whereas gel filtration showed a single peak at approximately Mr = 60,000. The purified protein can be affinity labeled with [125I-Tyr36]PYY, indicating that the Mr = 60,000 protein contains the ligand binding site of the Y2 receptor, and this binding is not affected by GTP gamma S. Scatchard transformation of binding data for the purified Y2 receptors was compatible with a single class of binding sites with Kd = 76 pM. The purified Y2 receptors retain their binding properties with regard to affinity and specificity for different members of the pancreatic polypeptide-fold peptide family. The specific activity of purified Y2 receptors was calculated to approximately 14.7 nmol of ligand binding/mg of receptor protein, which is consistent with the theoretical value (16.6 nmol/mg) for a pure Mr = 60,000 protein binding one PYY molecule. Purification to homogeneity thus reveals the Y2 receptor as an Mr = 60,000 glycoprotein.     

Purification of opioid receptor in the presence of sodium ions.

Opioid receptor was solubilized from rat brain membranes with a mixture of the detergents CHAPS and digitonin in the presence of protease inhibitors and 1 M NaCl. The solubilized receptor bound mu-opioid agonists and antagonists with affinities similar to those of native membrane receptor. The affinity of solubilized receptor for the agonist PL017 was greatly reduced by GTP gamma S, suggesting the receptor is still associated with G-protein. The solubilized material was passed through an opioid antagonist (10cd) affinity column and a wheat germ agglutinin column, set up in series, to obtain a partially purified receptor preparation. This partially purified material bound mu-agonist with low affinity and the binding affinity was no longer affected by GTP gamma S. The partially purified receptor was further purified by repeating the affinity and lectin chromatography with smaller size column. Binding of opioid antagonist [3H]diprenorphine to the partially or purified receptors was dependent upon the presence of sodium ions. The purified receptor showed saturable and stereospecific binding for opioid ligands, was predominantly of the mu-type, and exhibited as a diffuse band with a medium molecular mass of 62 kD upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The average specific binding activity of the purified receptor was 18.8 +/- 2.3 pmol/micrograms protein, a value close to the theoretical estimation.     

Solubilization and purification of rat pituitary gonadotropin-releasing hormone receptor

Gonadotropin-releasing hormone (GnRH) receptors were solubilized from rat pituitary membrane preparations in an active form by using the zwitterionic detergent CHAPS (3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid). The solubilized receptor exhibits high affinity, saturability, and specificity. The soluble supernatant retained 100% of the original binding activity when stored at 4 or -20 degrees C in the presence of 10% glycerol. The receptors were resolved into two components on the basis of chromatography on wheat germ agglutinin-agarose. Homogeneous receptor preparation was obtained by two cycles of affinity chromatography on immobilized avidin column coupled to [biotinyl-D-Lys6]GnRH. The overall recovery of the purified receptor was 4-10% of the initial activity in the CHAPS extract, and the calculated purification -fold was approximately 10,000 to 15,000. Analysis of iodinated purified GnRH receptors by autoradiography indicated the presence of two bands, Mr = 59,000 and 57,000. This was confirmed by photoaffinity labeling of the partially purified receptors and suggests that both components can specifically bind the hormone.     

The hepatic glucagon receptor. Solubilization, characterization, and development of an affinity adsorption assay for the soluble receptor

The hepatic glucagon receptor was covalently labeled with [125I-Try10]monoiodoglucagon [( 125I]MIG) by use of the heterobifunctional cross-linker hydroxysuccinimidyl p-azidobenzoate. Labeling of the Mr = 63,000 peptide was sensitive to glucagon and GTP at concentrations at which they affect [125I]MIG binding to the receptor. The labeled receptor was solubilized with Lubrol-PX, and the hydrodynamic characteristics of the receptor were determined. The molecular parameters of the solubilized receptor are: S20,w = 4.3 +/- 0.1, Stokes radius = 6.3 +/- 0.1 nm, frictional coefficient f/f0 = 1.8, and a calculated Mr = 119,000. Incubation of liver membranes at 32 degrees C for 15 min prior to the addition of [125I]MIG permitted us to identify the high molecular weight form (Mr = approximately 113,000) of the receptor by direct sodium dodecyl sulfate-gel electrophoretic analysis. The Mr = 63,000 peptide can be adsorbed to wheat germ lectin-Sepharose. The glycoprotein nature of the receptor has been utilized to develop an assay for the detergent-solubilized receptor that uses wheat germ lectin-Sepharose as a solid matrix to adsorb the [125I] MIG-receptor complex. The free hormone remains in the liquid phase and is removed in the supernatant after low speed centrifugation. 3-[(3-Cholamidopropyl)dimethylammonio]-1-propane sulfonate (CHAPS) solubilizes receptors with retention of [125I]MIG binding activity. [125I]MIG binding to the CHAPS-solubilized receptor is specifically affected by unlabeled glucagon. Interaction of [125I]MIG with the soluble receptor is insensitive to the presence of GTP. IC50 for glucagon using the soluble receptor was 33-70 nM, irrespective of the presence or absence of GTP, while when the membrane-bound receptor was used, the IC50 in the absence of GTP was 2-4 nM and in the presence of GTP was 35-80 nM. These data allow us to conclude that the hepatic glucagon receptor in the membrane and in the nondenaturing detergent solution is a dimer of the Mr = 63,000 hormone-binding subunit and a glycoprotein. The soluble receptor does not display any functional interaction with the stimulatory regulator.     

Solubilization and hydrodynamic properties of active peptide YY receptor from rat jejunal crypts. Characterization as a Mr 44,000 glycoprotein.

Peptide YY (PYY) receptors were solubilized from rat jejunal crypts using 3-[(3-cholamidopropyl) dimethylammonio]-1-propanesulfonic acid (CHAPS). The binding of [125I-Tyr36]monoiodo-PYY ([125I]PYY) to CHAPS extracts was time-dependent and reversible. The order of potency of PYY-related peptides for inhibiting [125I]PYY binding was PYY greater than neuropeptide Y much greater than pancreatic polypeptide. Scatchard analysis of equilibrium binding data indicated the presence in soluble extracts of a single class of binding sites with a Kd of 1.02 +/- 0.26 nM and a Bmax of 79 +/- 6 fmol/mg protein. Gel filtration on Sephacryl S-300 and ultracentrifugation on sucrose density gradients of soluble [125I] PYY-receptor complexes revealed a single binding component with the following hydrodynamic parameters: Stokes radius, 4.43 nm; s20,w, 2.48 S; Mr, 48,000; frictional ratio, 1.82. Solubilized PYY receptors bound specifically to concanavalin A-, wheat germ agglutinin-, and soybean-coupled Sepharose, supporting their glycoproteic nature. After cross-linking with disuccinimidyl suberate, electrophoresis of covalent [125I]PYY-receptor complexes in membranes or CHAPS extracts revealed the presence of two bands of Mr 49,000 or 28,000 whose labeling was completely abolished by 1 microM unlabeled PYY. The Mr 49,000 band probably corresponded to the Mr 48,000 PYY-receptor complex evidenced by hydrodynamic studies. Assuming one molecule of [125I]PYY (Mr 4,000) was bound per molecule of receptor, these data show that intestinal PYY receptor consists of a Mr 44,000 glycoprotein after solubilization with CHAPS. The availability of this CHAPS-soluble receptor from rat jejunum represents a major step toward the purification of this newly characterized receptor.     

Characterization of ovarian gonadotropin receptor. Monomer and associated form of the receptor

We have purified luteinizing hormone/human choriogonadotropin (hCG) receptor from rat ovary by sequential affinity column on wheat germ lectin-Sepharose and hCG-Sepharose chromatography. The purified receptor, previously identified as a single protein on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) (Kusuda, S., and Dufau, M.L. (1986) J. Biol. Chem. 261, 16161-16168), was further characterized by radioiodination with 1,3,4,6-tetrachloro-3 alpha, 6 alpha-diphenylglycouril, and column chromatography on wheat germ lectin-Sepharose. Autoradiography of SDS-PAGE analysis under reducing conditions showed a single radiolabeled band of Mr = 80,000. The radioiodinated receptors treated with peptide:N-glycosidase F migrated at Mr = 54,000. Treatment with neuraminidase alone caused only a minor reduction in molecular weight, and subsequent treatment with endo-alpha-N-acetyl-D-galactosaminidase had little further effect on the receptor. When the radioiodinated receptor was analyzed by fast protein liquid chromatography, a single broad peak was eluted with Mr of approximately 350,000. The higher Mr of radioiodinated receptors than that of native receptors (Mr = 190,000 dimeric form) could be due to the aggregation of labeled molecules. These complexes dissociated into the monomeric form in the presence of SDS. To determine whether the monomers can bind hormone, the purified unlabeled receptors resolved with SDS were electroblotted to nitrocellulose membranes and incubated with 125I-hCG. Autoradiograms of the blots showed a band of monomer (Mr = 78,000) as well as one of dimer (Mr approximately 150,000). These studies have demonstrated that the luteinizing hormone/hCG receptors are predominantly N-linked glycosylated and suggest that the native receptor is a dimer of identical hormone binding subunits associated by noncovalent interactions. Although the individual subunits can bind hormone, it is conceivable that the dimeric form is necessary for signal transduction.     

Characterization of the solubilized charybdotoxin receptor from bovine aortic smooth muscle.

Monoiodotyrosine ([125I]ChTX) binds with high affinity to a single class of receptors present in bovine aortic smooth muscle sarcolemmal membranes that are functionally associated with the high-conductance Ca(2+)-activated K+ channel [maxi-K channel; Vázquez, J., et al. (1989) J. Biol. Chem. 265, 20902-20909]. Cross-linking experiments carried out with this preparation in the presence of [125I]ChTX and disuccinimidyl suberate indicate specific incorporation of radioactivity into a protein of Mr 35,000. The smooth muscle ChTX receptor can be solubilized in active form in the presence of selected detergents. Treatment of membranes with digitonin releases about 50% of the ChTX binding sites. The solubilized receptor retains the same biochemical and pharmacological properties that are characteristic of toxin interaction with membrane-bound receptors. The solubilized receptor binds specifically to wheat germ agglutinin-Sepharose resin, suggesting that it is a glycoprotein. Functional ChTX binding sites can also be solubilized in 3-[(3-cholamidopropyl)dimethylamino]-1-propanesulfonate (CHAPS). Sucrose density gradient centrifugation of either digitonin or CHAPS extracts indicates that the ChTX receptor has a high apparent sedimentation coefficient (s20,w = 23 and 18 S, respectively). Cross-linking experiments indicate that the appearance of the 35-kDa membrane protein correlates with ChTX binding activity after both wheat germ agglutinin-Sepharose and sucrose density gradient centrifugation steps. Given the high apparent sedimentation coefficient of the ChTX receptor, the 35-kDa membrane protein may be a subunit of a higher molecular weight complex which forms the maxi-K channel in smooth muscle sarcolemma.     

Autophosphorylation and rapid dephosphorylation of the cAMP-dependent protein kinase from Blastocladiella emersonii zoospores

The photoaffinity label 8-azido[32P]adenosine 3':5'-monophosphate and affinity chromatography on N6-(2-aminoethyl)-cAMP-Sepharose were used to analyze the cAMP-binding proteins present in cell-free extracts of Blastocladiella emersonii zoospores. In the presence of a mixture of protease inhibitors, 8-azido[32P]cAMP was specifically and quantitatively incorporated into a major protein band of Mr = 58,000, and three minor protein bands of Mr = 50,000, Mr = 43,000, and Mr = 36,000 respectively, after autoradiography following sodium dodecyl sulfate-polyacryl-amide gel electrophoresis. In the absence of the protease inhibitors, the Mr = 58,000 protein band was converted into the lower molecular weight cAMP-binding proteins, indicating a high sensitivity of the intact Mr = 58,000 protein band to endogenous proteases. The Mr = 58,000 protein corresponded to the regulatory subunit (R), of the cAMP-dependent protein kinase of zoospores, as shown by their identical behavior on DEAE-cellulose chromatography. The partially purified protein kinase incorporated 32P from [gamma-32P] ATP . Mg2+ into R as demonstrated by the specific adsorption of the 32P-labeled protein with N6-(2-aminoethyl)-cAMP-Sepharose. The incorporated 32P group was rapidly removed by endogenous phosphoprotein phosphatases in the presence of cAMP, as shown by pulse-chase experiments with [gamma-32P]ATP. Dephosphorylation of R-cAMP and rapid proteolysis may indicate two other mechanisms, in addition to cAMP, for the control of this protein kinase in vivo.     

Molecular properties of solubilized CCK receptor from guinea-pig pancreas

In order to characterize the CCK receptor in guinea-pig pancreas, iodinated CCK-39 was bound to pancreatic membranes and the reversible complex was solubilized using various non-denaturing detergents. In term of recovery of ligand stabilized receptors, the relative potencies were Zwittergent 3-14 greater than CHAPS = CHAPSO greater than digitonin greater than MEGA 10 greater than octyl beta-D-glucopyranoside. The stability of receptor complexes was increased by glycerol. Chromatographic analysis revealed that digitonin was the most efficient detergent for disaggregation of CCK receptor complex since it yielded a 76 kDa component in addition to the large components obtained after solubilization with CHAPS and Zwittergent. Furthermore, CCK receptors were covalently labelled using dissuccinimidyl suberate or UV irradiation of labelled membranes by photoactivable radioiodinated CCK-39 and subsequently solubilized by CHAPS + SDS or by SDS alone. A predominant molecule was characterized by chromatography (76 kDa) and SDS-PAGE (89 kDa). In addition to this component, other components having molecular masses of 130-150 kDa, 57 kDa and 40 kDa were detected by SDS-PAGE. They correspond to minor bands. These bands, except the 40 kDa band, were protected from covalent labelling by the presence of CCK-39 (10(-6) M) during initial incubation. Reduction under beta-mercaptoethanol mainly resulted in the decrease of high molecular weight aggregates (Mr greater than 200 kDa). We concluded that for a given detergent a specific molecular weight pattern of solubilized CCK receptor complex is achieved. The minimal component had a molecular mass of 71-84 kDa according to the method of biochemical analysis used.     

Partial purification of dopamine D2 receptors using lectin affinity columns

Dopamine D₂ receptors , detected by [³H]spiperone Dopamine D₂ receptors , detected by [³H]spiperone binding, were solubilized from bovine caudate nucleus by cholate/sodium chloride and were found to bind to wheat germ agglutinin immobilized on agarose. Specific elution could be achieved with N-acetylglucosamine whereas other sugars tested were inactive in this regard . The eluted preparation was enriched in solubilized receptors about sevenfold. The pharmaco-logical properties of the preparation were essentially unchanged by the lectin affinity purification procedure. The D₂ dopamine receptor is therefore a glycoprotein. binding, were solubilized from bovine caudate nucJeus by cholate/sodium chloride and were found to bind to wheat germ agglutinin immobilized on agarose. Specific elution could be achieved with N-acetylglucosamine whereas other sugars tested were inactive in this regard . The eluted preparation was enriched in solubilized receptors about sevenfold. The pharmacological properties of the preparation were essentially unchanged by the lectin affinity purification procedure. The D₂ dopamine receptor is therefore a glycoprotein.     

Purification by affinity chromatography of the glycine receptor of rat spinal cord

The glycine receptor of rat spinal cord was solubilized with the nonionic detergent Triton X-100 and subsequently purified by affinity chromatography on aminostrychnine-agarose and wheat germ agglutinin-Sepharose. An overall purification of 1950-fold was achieved. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and mercaptoethanol revealed three glycine receptor-associated polypeptides of Mr = 48,000, 58,000, and 93,000. [3H]Strychnine was incorporated irreversibly into the Mr = 48,000 polypeptide upon UV-illumination. The dissociation constant (KD) of [3H]strychnine binding to the purified glycine receptor was 9.3 +/- 0.6 nM. The glycine receptor agonists glycine, beta-alanine, and taurine inhibited the binding of [3H]strychnine to the purified receptor. Gel filtration and sedimentation in sucrose/H2O and sucrose/D2O gradients gave a Stokes radius of 7.7 nm, a partial specific volume of 0.780 +/- 0.005 ml/g and a sedimentation coefficient s20,w of 8.2 +/- 0.2 S for the purified glycine receptor. From these data, a molecular weight of 246,000 +/- 6,000 was calculated for the glycine receptor protein.     

Purification of vasoactive intestinal peptide receptor from porcine liver by a newly designed one-step affinity chromatography

Vasoactive intestinal peptide (VIP) receptors were solubilized from porcine liver membrane using the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid. The solubilized VIP receptor has been purified approximately 50,000-fold to apparent homogeneity by a one-step affinity chromatography using a newly designed VIP-polyacrylamide resin. The purified receptor bound 125I-VIP with a Kd of 22.3 +/- 0.7 nM and retained its peptide specificity toward VIP-related peptides. The specific activity of the purified receptor (16,400 pmol/mg of protein) was very close to the theoretical value (18,900 pmol/mg of protein) calculated assuming one binding site/protein. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of purified receptor revealed a single band with an Mr of 53,000 after either silver staining or radioiodination. Affinity labeling of the purified receptor with 125I-VIP using dithiobis(succinimidyl propionate) gave a single radioactive band, the labeling of which was completely inhibited by an excess of unlabeled VIP. In conclusion, an Mr 53,000 protein containing the VIP-binding site was purified to homogeneity by a one-step affinity chromatography using immobilized VIP.