Estrogen receptor purification by affinity chromatography using an orange triazine dye

A rapid two-step procedure was devised for the purification of the estrogen receptor from the calf uterus. A 900- to 1700-fold purification of the estrogen receptor was obtained using ammonium sulfate precipitation followed by dye affinity chromatography with Reactive Orange 14 immobilized to Sepharose. The Reactive Orange 14-Sepharose was used to purify the estrogen receptor in the presence or absence of estradiol as well as to purify the progesterone receptor. The purified estrogen receptor retained its estradiol- and DNA-binding properties and sedimented into sucrose gradients as the 5 S receptor dimer. The Reactive Orange 14-Sepharose is easily prepared and offers a higher yield and purity of the estrogen receptor than that afforded by estrogen- or heparin-Sepharose chromatography.     

An automatic multidimensional chromatography system for purification of human uterine progesterone receptor and induction of polyclonal antibodies

This paper reports on the synthesis of Org2058-bonded microparticulate silicas and their use in affinity chromatography as the first step for the purification of human progesterone receptor. The development of microprocessor-controlled instruments allows all the various steps to be performed automatically. The various steps used for the purification of human progesterone receptor were carried out with the FPLC system: affinity chromatography, desalting of eluate on Sephadex G-25, anion-exchange chromatography using a Mono Q column. With this procedure the receptor was purified approx. 10,000-fold within 24 h. The yield of receptor was generally 85-95%. Investigations with induced anti-progesterone receptor antibodies obtained after the fourth immunization show their immunoreactive behaviour towards progesterone receptor in crude cytosol, which was proved by sucrose density gradient centrifugation and by gel filtration on the FPLC system using a Sepharose 12 column. This implies that progesterone receptor was efficiently purified by our purification procedure.     

Hydrophobic interaction chromatography of the rabbit uterine progesterone receptor

The chromatographic behavior of the rabbit uterine progesterone receptor interaction on several different hydrophobic matrices was characterized. Receptor, prepared in 0.6 M NaCl, exhibited a progressive retardation of elution, followed by retention, on a series of alkyl agarose columns as the length of the alkyl chain [(CH2)nH-] increased (n = 0-10), reflecting the presence of hydrophobic regions on the protein. Adsorption did not occur directly at the steroid binding site of the molecule and did not require activation to the DNA-binding form. Elution could be achieved by a decrease in the ionic strength of the buffer or the addition of glycerol, resulting in partial purification of receptor. Receptor bound tightly to phenyl agarose, although elution of the receptor under mild conditions (decreasing salt gradient, increasing glycerol gradient) resulted in poor yield and only modest purification. Passage of the non-activated progesterone receptor over Reactive Blue Sepharose effectively removed albumin, presumably by a hydrophobic interaction, although receptor was not retained. In the activated form, approximately 25% of receptor was bound to Reactive Blue Sepharose, reflecting an interaction of the Cibacron Blue dye with the polynucleotide binding site of the receptor. Hydrophobic chromatography may be an important adjunct to methods for purification of the progesterone receptor.     

Involvement of a non-hormone-binding 90-kilodalton protein in the nontransformed 8S form of the rabbit uterus progesterone receptor

Nontransformed 8S progesterone receptor (8S-PR) was purified by hormone-specific affinity chromatography from rabbit uterine low-salt cytosol containing 20 mM molybdate. In the eluate obtained with radioactive progestin, sodium dodecyl sulfate-polyacrylamide electrophoresis (SDS-PAGE) showed the presence of several bands, including three that corresponded to approximately 90-, approximately 120-, and approximately 85-kDa proteins. None of these three proteins was found in the eluate of the affinity column when the molybdate-containing cytosol was chromatographed in the presence of nonradioactive progesterone ("mock purification"). Subsequent purification of the affinity eluate by DEAE-Sephacel chromatography gave a single radioactive receptor peak at 0.15 M KCl (approximately 20% yield, 19% purity on the basis of one binding site per approximately 100 kDa) with a sedimentation coefficient of 8.5 S. Silver staining after SDS-PAGE revealed that this purified 8S-PR fraction contained mainly the 120-, 90-, and 85-kDa proteins. [3H]R5020-labeled 8S-PR purified by DEAE-Sephacel column chromatography was UV irradiated, and after SDS-PAGE the 120- and 85-kDa proteins were revealed, but the 90-kDa protein was not.(ABSTRACT TRUNCATED AT 250 WORDS)     

Immunological similarity between the chick oviduct progesterone receptor forms A and B

A large-scale purification of the progesterone receptor from laying hens is described which yields apparently homogeneous form A and form B receptor in denatured form. The purification procedure is based initially on differential DNA affinity chromatography of both form A and B receptors. Under the conditions of preparation and activation described, progesterone receptor form B binds to DNA-cellulose even in the presence of 100 mM salt. This binding cannot be observed after thermal activation. Receptors obtained at 5% purity using conventional chromatographic purification steps were covalently cross-linked with radioactive ligand by photoaffinity labeling and purified to homogeneity using preparative gel electrophoresis systems under denaturing conditions. This material has been successfully used to generate polyclonal antibodies in rabbits. Immunoblots demonstrated a high degree of cross-reaction between anti-A antibodies and progesterone receptor form B, as well as between anti-B antibodies and progesterone receptor form A, using homogeneous as well as 5% pure receptors as probes. Implications of the immunological data and the novel DNA-binding characteristics of form B are discussed with respect to topological conformation of the progesterone receptor and the structural similarity between forms A and B.     

Purification of the intact monomeric 110 kDa form of the androgen receptor from calf uterus to near homogeneity

In the present study, calf uterine tissue has been used for isolation of androgen receptors. This tissue appeared to be a favourable source for large-scale purification of androgen receptors, because of the relatively high level of androgen receptors and the low concentration of proteolytic enzymes. The purification involved differential phosphocellulose and DNA affinity chromatography as first steps. The non-transformed receptor was passed through these matrices in order to remove contaminating DNA-binding proteins. After a transformation step to the DNA-binding state, the receptor was bound to DNA cellulose and subsequently eluted with MgCl2. A 0.5% pure androgen receptor preparation was obtained. Photoaffinity labelling with [3H]R1881 (methyltrienolone) was used to determine the size of the receptor at this stage of purification and during the following steps. Subsequently, isoelectric focussing of the partially purified androgen receptor preparation in an aqueous glycerol gradient was performed. In this step, the progesterone receptor, which is copurified with the androgen receptor protein during the first part of the purification procedure, focussed at pH 5.5 while the androgen receptor could be isolated at pH 5.8. The isoelectric focussing procedure could be applied in a preparative way for further purification of androgen receptors. After this step an approx. 8% pure preparation was obtained. Polyacrylamide gel electrophoresis of S-carboxymethylated androgen receptor was used as the final purification step. The [3H]methyltrienolone labelled androgen receptor from calf uterus was purified to homogeneity and consisted of one polypeptide with a molecular mass of 110 kDa.     

Chemical and antigenic properties of pure 108,000 molecular weight chick progesterone receptor

Previous purifications of the progesterone receptor have yielded inadequate amounts of pure protein along with significant amounts of a nonreceptor contaminant. We have taken advantage of the high yield provided by an affinity chromatography method for partial purification and after the incorporation of additional steps, we obtained purified progesterone receptor devoid of detectable contaminants and suitable for chemical analysis. A polyclonal antibody was obtained using the pure receptor as the antigen. The antibody was specific for progesterone-binding receptor. Tissue distribution of cross-reacting material, analyzed by immunoblotting, confirmed the presence of the receptor protein only in the two tissues where progesterone binding has been described in the chick: the oviduct and the bursa of Fabricius. It was absent in receptor-negative tissues such as liver and lung. The receptor was cleaved with cyanogen bromide and trypsin to obtain fragments that were partially sequenced.     

Purification of the intact monomeric 110 kDa form of the androgen receptor from calf uterus to near homogeneity

In the present study, culf uterine tissue has been used for isolation of androgen receptors. This tissue appeared to be a favourable source for large-scale purification of androgen receptors, because of the relatively high level of androgen receptors and the low concentration of proteolytic enzymes. The purification involved differential phosphocellulose and DNA affinity chromatography as first steps. The non-transformed receptor was passed through these matrices in order to remove contaminating DNA-binding proteins. After a transformation step to the DNA-binding state, the receptor was bound to DNA cellulose and subsequently eluted with MgCl₂. A 0.5% pure androgen receptor preparation was obtained. Photoaffinity labelling with [³H]R1881 (methyltrienolone) was used to determine the size of the receptor at this stage of purification and during the following steps. Subsequently, isoelectric focussing of the partially purified androgen receptor preparation in an aqueous glycerol gradient was performed. In this step, the progesterone receptor, which is copurified with the androgen receptor protein during the first part of the purification procedure, focussed at pH 5.5, while the androgen receptor could be isolated at pH 5.8. The isoelectric focussing procedure could be applied in a preparative way for further purification of androgen receptors. After this step an approx. 8% pure preparation was obtained. Polyacrylamide gel electrophoresis of S-carboxymethylated androgen receptor was used as the final purification step. The [³H]methyltrienolone labelled androgen receptor from calf uterus was purified to homogeneity and consisted of one polypeptide with a molecular mass of 110 kDa.     

A progesterone receptor affinity chromatography reagent: 17α-Hexynyl nortestosterone sepharose

Several affinity chromatography reagents have been proposed for purification of progesterone receptor (PgR), and significant results have been achieved with some of these. None, however, have approached the results achieved in affinity chromatography of estrogen receptor. We have therefore synthesized a number of new 19-nortestosterone derivatives capable of chemically stable linkage with Sepharose beads, and have identified one with very high PgR affinity for further study. We first synthesized the epoxides of 17α-allyl nortestosterone, by analogy with the estradiol derivatization of Greene and Jensen. The relative affinity of these epoxides for PgR from T47D human breast cancer cells, however, was only around 5% that of R5020, and affinity beads prepared from them bound very little PgR. We then reacted appropriately protected 17α-ethynyl-nortestosterone with a series of diiodo alkanes, and found that 17α-(6'-iodohex-1'-ynyl)nortestosterone had an affinity of 22% relative to R5020, equal to the affinity of progesterone itself. Reaction with Thiopropyl-Sepharose 6B yielded hexynyl-nortestosterone-Sepharose beads with a ligand density of about 7 micromoles/ml beads. One-hundred μl of these beads adsorbed 71% of the PgR present in 1 ml ofcytosol from T47D cells. This adsorption was inhibited by 10 μM progesterone but not Cortisol, indicating the specificity of the binding. Comparisions with NADAC and Sterogel, other affinity beads used for PgR purification, show that the former takes up much less receptor, while the latter takes up and releases similar amounts of receptor but more extraneous protein, and is less stable. We therefore believe that hexynyl-nortestosterone-Sepharose, having a high density of a high affinity ligand, and having chemically and biochemically stable covalent bonds, should be a good reagent for affinity purification of PgR.     

The rat ovarian lutropin receptor. Purification, hormone binding properties, and subunit composition

The luteinizing hormone/human choriogonadotropin (hCG) receptor from superovulated rat ovary was purified to homogeneity. A novel scheme based on reverse immunoaffinity chromatography using immobilized antibodies to membrane proteins from receptor down-regulated ovary and subsequent two-step affinity purification on hCG-Sepharose was used to isolate homogeneous receptor. The purification method was also compared to an alternate scheme involving lectin affinity chromatography followed by hCG affinity chromatography. The purified receptor obtained by the latter method was heterogeneous and highly aggregated. The hormone binding properties, molecular size, and subunit composition of the purified receptor obtained by either method were identical. The stability of the receptor during and following solubilization was markedly improved by using 20% glycerol. The pure receptor consists of four nonidentical subunits of molecular weight 79,300 (alpha), 66,400 (beta), 55,300 (gamma), and 46,700 (delta) as indicated by polyacrylamide gel electrophoresis under reducing conditions. All receptor subunits generally, but occasionally excepting the alpha-subunit, were specifically labeled with iodinated hCG in membrane and soluble receptor preparations using bifunctional cross-linking agents. Analysis of the cross-linked hormone-receptor complexes under nonreducing conditions showed the molecular mass of the undissociated receptor to be 268,000 daltons. Hormone binding studies demonstrated that the isolated receptor retained all of the specific binding characteristics expected for the luteinizing hormone/hCG receptor. In combination, these results indicate that the functional and structural properties of the receptor were not altered during purification.     

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.     

Evidence for a single steroid-binding protein in the rabbit progesterone receptor

The rabbit uterine progesterone receptor copurifies as two molecular weight (Mr) forms of about 105,000 and 78,000. To investigate whether these are different proteins, we have used protease digestion, reversible denaturation, and photoaffinity labeling in studies on the steroid-binding domain of the receptor. Digestion of the Mr 105,000 and 78,000 forms, photoaffinity labeled with [3H]R5020, with Staphylococcus aureus V8 protease revealed identical peptide fragments of Mr 43,000, 39,000, and 27,000-30,000. When receptor in cytosol was denatured, separated by electrophoresis, and then reconstituted, [3H]progesterone bound specifically to a single form at about Mr 105,000. After partial purification, the reversible denaturation procedure revealed both the larger and the smaller progesterone-binding species similar to the photoaffinity-labeled species in this preparation. Receptor in uterine cytosol prepared under mild conditions appeared as a predominant large molecular weight form on photoaffinity labeling with [17 alpha-methyl-3H]R5020, [6,7-3H]R5020, or [3H]RU27987. Further purification of this cytosol showed the generation of a smaller labeled species. These results from three different approaches reinforce the view that the rabbit progesterone receptor contains a single steroid-binding protein.     

Purification of a progesterone receptor from rabbit uterus

A progesterone receptor has been purified to homogeneity from rabbit uterus by steroid affinity chromatography. The receptor was obtained in 5% yield, with a specific activity for [³H]progesterone binding of 14,580 pmol/mg protein. The pure receptor migrated as a single band on SDS-polyacrylamide electrophoresis, with a MW of 70,000. Progesterone binding to the receptor was heat labile and was displaced by an excess of R5020. Photoaffinity labeling of the pure receptor with [³H]R5020 corresponded to the major photoaffinity labeled species in crude cytosol.     

Analysis of the molecular species of the chick oviduct progesterone receptor using isoelectric focusing.

Conditions are described for the preparative isoelectric focusing in flat beds of Sephadex of the progesterone receptor from the chick oviduct. The method allows the fractionation of the receptor into two molecular species, one focusing at pI 6 and the other at pI 7 with good purification and recovery. The pI 6 and pI 7 receptor species were purified 2- and 26-fold, respectively. The assaying of the focused fractions with the charcoal binding method provides an accurate identification and quantitation of the [3H]progesterone receptor. The method is reproducible in recovery, quantitation, and resolution of the two receptor species. The receptor with an apparent pI of 6 sediments at approximately 4 S on linear sucrose gradients, while the receptor with an apparent pI of 7 sediments at approximately 3.5 S. On the basis of the sedimentation values and elution patterns from diethylaminoethyl (DEAE) chromatography, the pI 6 component is equivalent to the "B" receptor species and the pI 7 component is equivalent to the "A" receptor species described previously [schrader, W, T., 7 O'Malley, B. W. )1972) J. Biol. Chem. 241, 51--59].     

Progesterone binding components of chick oviduct. X. Purification by affinity chromatography.

Cytoplasmic progesterone receptors of chick oviduct have been purified in 8% yield by steroid affinity and ion exchange chromatography. The affinity resin, deoxycorticosterone-bovine serum albumin-Sepharose, binds progesterone receptors with high affinity (KD equals 8 times 10-minus 10 M) and its use resulted in a greater than 2000-fold purification over the starting material in a single step. DEAE-Sephadex A-50 chromatography was then used to achieve final purification. NA dodecyl-SO4 gel electrophoresis and DEAE-cellulose chromatography showed that the purified receptors contained both of the previously described 4 S progesterone binding components in near equal amounts. Na dodocyl-SO4 gel electrophoresis also showed that these components consisted of single polypeptide chains with molecular weights of 110, 000 (A component) and 117, 000 (B component). There was no evidence for subunits of lower molecular weight. The purified materials have identical hormone-binding kinetics and steroid specificity to crude cytosol receptors. The isolated receptors retain the three biologically important properties exhibited by progesterone binding components present in cruder preparations: they bind specifically to (a) nuclei (KD equals 1.1 times 10-minus 9 M, 10, 000 sites per nucleus); (b) chromatin (KD equals 3 times 10-minus 9 M, 2000 sites per pg of DNA-);and (C) DNA.     

Modulation of the progesterone receptor in the fetal uterus of the progesterone-primed guinea pig in vivo and in organ culture

Guinea pig fetuses were treated with progesterone for 7 days before placing fetal uteri in organ culture to see if progesterone pre-treatment of fetuses in utero would permanently inhibit the spontaneous rise in progesterone receptor which occurs in organ culture. The data show that: the basal level of progesterone receptor in fetal uteri was not affected by the progesterone treatment and progesterone receptor concentrations in vitro were also not inhibited. When guinea pig fetuses were treated sequentially with progesterone and estradiol, estradiol failed to provoke an uterotrophic effect but it retained its ability to stimulate progesterone receptor concentrations.     

Preparation and characterization of a fully active biotinylated probe of cholecystokinin

In this study we describe the synthesis and purification of biotinylated cholecystokinin-8 (Bio-CCK-8) and characterize its use as a probe for the pancreatic cholecystokinin receptor. CCK-8 (0.1 umoles) was reacted with either radiolabeled d-[8,9(-3)H]biotin succinimide ester (0.5 umoles) or N-hydroxysuccinimidyl-biotin in dimethylformamide and triethylamine, and purified by anion exchange chromatography. Concentrations of Bio-CCK-8 and CCK-8 needed for half-maximal inhibition of [125]I-CCK-8 binding to pancreatic membranes were the same (1.0 and 1.3 nM). Bio-CCK-8 retained full biological activity as determined by stimulation of pancreatic protein secretion from rats, and the biotin group bound to CCK-8 retained its high sensitivity for avidin.     

Use of dual affinity tags for expression and purification of functional peripheral cannabinoid receptor

The human peripheral cannabinoid receptor (CB2) was expressed as a fusion with the maltose-binding protein (at the N-terminus), thioredoxin A (at the C-terminus) and two small affinity tags (a Strep-tag and a polyhistidine tag). Expression levels of the recombinant receptor in Escherichia coli BL21(DE3) cells were dependent on location and type of tags in the expression construct, and were as high as 1-2mg per liter of bacterial culture. The recombinant receptor was ligand binding-competent, and activated cognate G-proteins in an in vitro coupled assay. The fusion CB2-125 protein was purified by immobilized metal affinity chromatography on a Ni-NTA resin. Maltose-binding protein, thioredoxin and a decahistidine tag were removed from the fusion by treatment with Tobacco etch virus (Tev) protease. Purification to over 90% homogeneity of the resulting CB2, containing an N-terminal Strep-tag was achieved by affinity chromatography on a StrepTactin resin. Circular dichroism spectroscopy indicated an alpha-helical content of the purified recombinant protein of approximately 54%. The expression and purification protocol allows for production of large (milligram) quantities of functional peripheral cannabinoid receptor, suitable for subsequent structural characterization. Preliminary results of reconstitution experiments indicate that the CB2 has retained its ligand-binding properties.     

The use of affinity chromatography in purification of cyclic nucleotide receptor proteins.

Biospecific affinity chromatography has been used to purify specific cyclic AMP and cyclic GMP receptor proteins. Several variables are important for successful purification of the cyclic AMP receptor protein, the most critical being the length of the aliphatic spacer side arm. 8-(2-Aminoethyl)-amino-cyclic AMP coupled to the aliphatic spacer side arm. 8-(2-Aminoethyl)-amino-cyclic AMP coupled to agarose specifically retains the cyclic AMP receptor protein by interaction with the immobilized nucleotide. Binding of the cyclic AMP receptor subunit of cyclic AMP-dependent protein kinase to the immobilized nucleotide results in dissociation of the catalytic protein phosphokinase subunit which is not retained. The retained cyclic AMP receptor protein is subsequently eluted by cyclic AMP. Homogeneous cyclic AMP receptor protein prepared from rabbit skeletal muscle by affinity chromatography has been characterized. The molecular weight of the native protein as determined by analytical ultracentrifugation and polyacrylamide gel electrophoresis at varying acrylamide concentrations is 76 800 and 82 000, respectively. The protein is asymmetric with frictional and axial ratios of 1.64 and 12. SDS and urea polyacrylamide gel electrophoresis indicate that the native cyclic AMP receptor is composed of two identical subunits of 42 700 molecular weight. The native protein dimer binds 2 moles of cyclic AMP per mole of protein and is active in suppressing activity of isolated catalytic subunits of cyclic AMP-dependent protein kinase. Cyclic GMP receptor protein from bovine lung has been purified using the same affinity chromatography media. Since cyclic nucleotide binding to cyclic GMP-dependent protein kinase does not result in dissociation of regulatory receptor and catalytic phosphotransferase subunits, the cyclic GMP-dependent protein kinase holoenzyme is retained on the column and can be subsequently specifically eluted with cyclic GMP.     

Preparation and Characterization of a Fully Active Biotinylated Probe of Cholecystokinin

In this study we describe the synthesis and purification of biotinylated cholecystokinin-8 (Bio-CCK-8) and characterize its use as a probe for the pancreatic cholecystokinin receptor. CCK-8 (0.1 umoles) was reacted with either radiolabeled d-[8,9-³H]biotin succinimide ester (0.5 umoles) or N-hydroxysuccinimidyl-biotin in dimethylformamide and triethylamine, and purified by anion exchange chromatography. Concentrations of Bio-CCK-8 and CCK-8 needed for half-maximal inhibition of [l25]I-CCK-8 binding to pancreatic membranes were the same (1.0 and 1.3 nM). Bio-CCK-8 retained full biological activity as determined by stimulation of pancreatic protein secretion from rats, and the biotin group bound to CCK-8 retained its high sensitivity for avidin.