Purification of the muscarinic acetylcholine receptor from porcine brain

The muscarinic acetylcholine receptor of porcine cerebrum has been purified to apparent homogeneity by affinity chromatography, with conjugated 3-(2'-aminobenzhydryloxy)tropane (ABT) as described previously (Haga, K., and Haga, T. (1983) J. Biol. Chem. 258, 13575-13579). In a single step purification using 900 ml of digitonin/cholate-solubilized preparations and 300 ml of the ABT-agarose gel, we obtained, in a yield of 10-15%, more than 250 pmol of muscarinic receptors which bind [3H]N-methylscopolamine with a specific activity of 1,000-5,000 pmol/mg of protein (1,000-5,000-fold purification). The muscarinic receptors eluted from the ABT-agarose gel with 0.1 mM atropine were adsorbed to hydroxylapatite and then recovered as a concentrated solution. Muscarinic receptors were further purified by rechromatography with the same gel or by gel permeation high pressure liquid chromatography. The amino acid composition of the purified receptor was determined, and the specific activity of the purified preparation was estimated to be 13,100 pmol/mg of protein on the basis of amino acid composition. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the purified receptors with or without radioiodination revealed a single, major band with an apparent Mr of 70,000 either by silver staining or radioautogram. The major band corresponded to the band which specifically bound [3H]propylbenzylcholine mustard (irreversible muscarinic ligand). The purified receptor showed essentially the same specificity for muscarinic ligands as unpurified receptors.     

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.     

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.     

Affinity chromatography of the muscarinic acetylcholine receptor

A novel compound, 3-(2'-aminobenzhydryloxy)-tropane (ABT), and an ABT-agarose gel were synthesized and used for the purification of solubilized muscarinic receptors. ABT had a high affinity with an apparent dissociation constant (Kd) of 7 nM for the muscarinic receptors solubilized from the porcine brain by digitonin. An ABT-agarose gel was prepared by coupling ABT with epoxy-activated Sepharose 6B, and the degree of substitution to the gel was determined to be 4-5 mumol/ml of the gel by UV absorption spectrum. During affinity chromatography using 10 ml of the ABT-agarose gel and 100 ml of the digitonin-solubilized preparation, 70% of muscarinic receptors were adsorbed to the gel, in marked contrast with the adsorption of only 2% of proteins. Approximately 25% of muscarinic receptors applied to the gel were eluted biospecifically with 1 mM muscarinic ligands. The purified fraction showed a high affinity for [3H]quinuclidinyl benzylate with a Kd of 0.4 nM and similar specificity for muscarinic ligands to that of unpurified soluble receptors. The protein concentration of the purified fraction was too low to be determined accurately, but very approximately a purification of 10(3)-fold was indicated.     

降钙素基因相关肽（CGRP）受体的纯化和鉴定

降钙素基因相关肽（ＣＧＲＰ）为３７肽,它在体内主要分布于神经系统和心血管系统,是较强的扩张血管物质。人们已认识到脑部的ＣＧＲＰ最多,由于新鲜猪脑来源丰富,故我们选用猪脑为材料来纯化ＣＧＲＰ受体。以期为该受体的深入研究提供足够的材料和奠定基础,纯化的受体将用于制备抗ＣＧＲＰ受体的单克隆抗体,为了从猪脑中纯化ＣＲＲＰ受体,首先用含有胆盐的磷酸盐缓冲液将该受体从猪脑细胞膜上解离下来,解离下来的受体量较多,而杂蛋白较少,且受体活性可保持较长时间不降低。以离子交换柱层析（ＱＡＥ－Ｓｅｐｈａｄｅｘ－Ａ－２５）进行初步分离纯化,再用化学合成的ＣＧＲＰ与活化的琼脂糖（Ａｆｆｉ－Ｇｅｌ－１０,Ｂｉｏ－Ｒａｄ公司产品）制备的亲和层析柱进行亲和层析,取得的纯化受体保留了与１２５Ｉ－ＣａＧＲＰ结合的能力,而与降钙素（Ｃａｌｃｉｔｏｎｉｎ）神经肽Ｙ（ＮｅｕｒｏｐｅｐｔｉｄｅＹ）和Ｋａｔａｃａｌｃｉｎ等无交叉反应,但与有４６％氨基酸序列同源性的Ａｍｙｌｉｎ有一定交叉反应。纯化的受体经ＳＤＳ－聚丙烯酰胺凝胶电泳和高压液相色谱（ＨＰＬＣ）鉴定呈现单一蛋白条带或蛋白峰,其位置对应分子量为６６ｋＤ。     

Purification and identification of G protein-coupled receptor protein complexes under native conditions

G protein-coupled receptors (GPCRs) constitute the largest family of membrane receptors and are of major therapeutic importance. The identification of GPCR-associated proteins is an important step toward a better understanding of these receptors. However, current methods are not satisfying as only isolated receptor domains (intracellular loops or carboxyl-terminal tails) can be used as "bait." We report here a method based on tandem affinity purification coupled to mass spectrometry that overcomes these limitations as the entire receptor is used to identify protein complexes formed in living mammalian cells. The human MT(1) and MT(2) melatonin receptors were chosen as model GPCRs. Both receptors were tagged with the tandem affinity purification tag at their carboxyl-terminal tails and expressed in human embryonic kidney 293 cells. Receptor solubilization and purification conditions were optimized. The method was validated by the co-purification of G(i) proteins, which are well known GPCR interaction partners but which are difficult to identify with current protein-protein interaction assays. Several new and functionally relevant MT(1)- and MT(2)-associated proteins were identified; some of them were common to both receptors, and others were specific for each subtype. Taken together, our protocol allowed for the first time the purification of GPCR-associated proteins under native conditions in quantities suitable for mass spectrometry analysis.     

Monomers and oligomers of the M2 muscarinic cholinergic receptor purified from Sf9 cells

G protein-coupled receptors are known to form oligomers. To probe the nature of such aggregates, as well as the role and prevalence of monomers, epitope-tagged forms of the M(2) muscarinic receptor have been isolated as oligomers and monomers from Sf9 cells. Membranes from cells coexpressing the c-Myc- and FLAG-tagged receptor were solubilized in digitonin-cholate, and the receptor was purified by successive passage through DEAE-Sepharose, the affinity resin 3-(2'-aminobenzhydryloxy)tropane (ABT)-Sepharose, and hydroxyapatite. Coimmunoprecipitation of the two epitopes indicated the presence of oligomers at each stage of the purification up to but not including the fraction eluted specifically from ABT-Sepharose. The affinity-purified receptor therefore appeared to be monomeric. The failure to detect coimmunoprecipitation was not due to an ineffective antibody, nor did the conditions of purification appear to promote disaggregation. Receptor at all stages of purification bound N-[(3)H]methylscopolamine and [(3)H]quinuclidinylbenzilate with high affinity, but the capacity of receptors that were not retained on ABT-Sepharose was only 4% of that expected from densitometry of western blots probed with an anti-M(2) antibody. Similarly low activity was found with oligomers isolated by successive passage of coexpressed receptor on anti-c-Myc and anti-FLAG immunoaffinity columns. M(2) muscarinic receptors therefore appear to coexist as active monomers and largely or wholly inactive oligomers in solubilized extracts of Sf9 cells. A different pattern emerged when coinfected cells were treated with quinuclidinylbenzilate prior to solubilization, in that ABT-purified receptors from those cells exhibited coimmunoprecipitation. Treatment with the antagonist therefore led to oligomers in which at least some of the constituent sites were active and were retained by ABT-Sepharose.     

Truncation of the extended carboxyl-terminal domain increases the expression and regulatory activity of the avian beta-adrenergic receptor.

A series of mutant avian beta-adrenergic receptors with progressively truncated carboxyl termini have been expressed in insect and mammalian cells. Removal of 18-124 amino acid residues caused multiple phenotypic changes in the receptor. Membranes from cells that expressed the truncated receptors displayed elevated basal (2- to 3-fold) and agonist-stimulated adenylylcyclase activities. Adenylylcyclase activity in these membranes also displayed greater stimulation in response to partial agonists. Activity was also markedly stimulated by beta-adrenergic ligands that are usually considered to be antagonists (alprenolol, greater than 4-fold; propranolol, approximately 2-fold). Wild type receptor did not mediate a response to these classical antagonists. After purification and reconstitution with Gs, the truncated receptors did not appear to be more active than the wild type. Guanine nucleotides modulated the affinity of agonist for the truncated receptors, whereas the affinity of agonist for the wild type receptor was not altered by guanine nucleotides. The truncated receptors were solubilized from the membrane more efficiently and were more susceptible to amino-terminal proteolysis than was the wild type protein. These results suggest interaction of the carboxyl terminus of the avian beta-adrenergic receptor with cellular regulatory or structural elements.     

Purification of the pancreatic cholecystokinin receptor

We have previously shown that the pancreatic cholecystokinin (CCK) receptor can be solubilized in 1% digitonin. In this study, digitonin-solubilized CCK receptors from rat pancreas were purified using sequential affinity chromatography on ricin-II agarose and on AffiGel-CCK. Electrophoresis of the radioiodinated purified receptors on SDS-polyacrylamide gels followed by autoradiography revealed two proteins: a major band of Mr = 80,000-90,000, and a minor band of Mr = 55,000. Through the purification procedure, the receptors preserved their agonist specificity (CCK-8 less than CCK-33 less than desulfated CCK-8 less than CCK-4) and binding affinity. Scatchard transformations of binding data for the purified receptor preparation were best fit by linear plots compatible with a single class of binding sites with Kd = 9.4 nM. The estimated purification was about 80,000 fold and consistent with the expected Bmax for a pure Mr = 80,000 protein binding one CCK molecule. This two-step purification procedure opens the possibility for molecular studies of the CCK receptor.     

Immunoaffinity purification and reconstitution of human alpha(2)-adrenergic receptor subtype C2 into phospholipid vesicles

Large quantities of correctly folded, pure alpha(2)-adrenergic receptor protein are needed for structural analysis. We report here the first efficient method to purify human alpha(2)-adrenergic receptor subtype C2 to homogeneity from recombinant yeast Saccharomyces cerevisiae by one-step purification using a monoclonal antibody column (specific for alpha(2)C2). We show that the adrenoceptor antagonist phentolamine stabilized the receptor during purification. We used a very effective chaotropic agent, NaSCN, to elute the receptor from the immunoaffinity column with an overall yield of 34% before reconstitution. Ligand binding of detergent-solubilized, immunoaffinity-purified receptors could not be demonstrated, but partial recovery of ligand binding activity was achieved when purified receptors were reconstituted into phospholipid vesicles. The reconstituted receptors still bound radioligand after storage on ice for 4 weeks. This purification procedure can be easily scaled-up and thus demonstrates the utility of a monoclonal antibody column and NaSCN elution to purify large quantities of G-protein-coupled receptors.     

Immunoaffinity Purification of Epitope-Tagged Human β2-Adrenergic Receptor to Homogeneity

To obtain large quantities of pure human β₂-adrenergic receptor (β₂-AR) needed for structural studies, an efficient method for β₂-AR purification was developed using a recombinant receptor with an eight amino acid epitope at its C-terminus. This epitope is recognized by KT3-monoclonal antibody. The epitope tagged β₂-AR was expressed in Sf9 cells with a specific activity of 5–20 pmol/mg of membrane protein. The epitope-tagged and wild-type receptors had identical ligand binding properties. The tagged receptor was solubilized using dodecyl-β-maltoside with a quantitative yield. Solubilized epitope-tagged receptors were partially purified by KT3-mAb immunoaffinity in 60–70% yield. Further purification of the receptors on an alprenolol-affinity column resulted in a homogenous preparation with an overall yield of >30%. The purified receptor was concentrated to >1 mg/ml without loss of ligand binding activity.     

A new member of the natriuretic peptide family is present in the venom of the green mamba (Dendroaspis angusticeps).

This paper describes the purification, sequence, and biological properties of a 38-amino acid residue peptide from the venom of Dendroaspis angusticeps which shared important sequence homologies with natriuretic peptides. Dendroaspis natriuretic peptide (DNP) relaxed aortic strips that had been contracted by 40 mM KCl with a potency (K0.5 = 20 nM) similar to that of atrial natriuretic peptide (ANP) and larger than that of C type natriuretic peptide (CNP). The relaxing actions of ANP and DNP (both at 100 nM) were mutually exclusive. Bovine aortic endothelial cells responded to ANP (K0.5 = 3 nM) and DNP (K0.5 = 3 nM) but not to CNP by a large activation of guanylate cyclase. Rat aortic myocytes showed larger cGMP responses to CNP (K0.5 = 10 nM) than to ANP or DNP (K0.5 = 100 nM). Finally, DNP completely prevented the specific 125I-ANP binding to clearance receptors in cultured aortic myocytes with a potency (Kd = 10 nM) that was less than that of ANP (Kd = 0.3 nM). It is concluded that DNP is a new member of the family of natriuretic peptides and that it recognizes ANPA receptors and clearance, ANPc receptors, but not CNP-specific ANPB receptors.     

Biochemical analysis of the ligand for the neu oncogenic receptor.

The neu protooncogene (also called HER2 and c-erbB2) encodes a cell-surface tyrosine kinase structurally related to the receptor for the epidermal growth factor (EGF). We have previously reported that a candidate ligand for the neu receptor is secreted by ras-transformed fibroblasts. Biochemical analyses of the neu stimulatory activity indicate that the ligand is a 35-kDa glycoprotein that is heat stable but sensitive to reduction. The factor is precipitable by either high salt concentrations or acidic alcohol. Partial purification of the molecule by selective precipitation, heparin-agarose chromatography, and gel filtration in dilute acid resulted in an active ligand, which is capable of stimulating the protooncogenic receptor but is ineffective on the oncogenic neu protein, which is constitutively active. The purified fraction, however, retained the ability to stimulate also the related receptor for EGF, suggesting that these two receptors are functionally coupled through a bidirectional mechanism. Alternatively, the presumed ligand interacts simultaneously with both receptors. The presented biochemical characteristics of the factor are expected to enable a completely purified factor with which to explore these possibilities.     

Application of the SMALP technology to the isolation of GPCRs from low-yielding cell lines

The ability of styrene–maleic acid (SMAc) co-polymers to spontaneously insert into biological membranes can be exploited to extract G protein-coupled receptors (GPCRs) embedded in styrene–maleic acid lipid particles (SMALPs), preserving the native environment around the protein and thus enhancing the feasibility of functional studies. So far, the SMALP technology has been primarily employed on non-mammalian cells and protocols are not optimized for adherent human cell lines, which cannot be harvested in large amounts. In this work, a fine investigation of key parameters affecting the formation of SMALPs was undertaken with the purpose of maximizing the yield of extraction of a recombinant form of human β₂-adrenergic receptor (rhβ₂AR) from HEK293T cells. The study highlighted an important influence of ionic strength on the membrane solubilization efficiency and GPCR purification yield of SMAc co-polymers: by lowering the salt concentration of all buffers used in previously published SMALP protocols, the water solubility and extraction efficiency of the selected SMAc co-polymer (commercially supplied as a potassium salt) were enhanced. In-line combination of size-exclusion chromatography (SEC) with immobilized metal affinity chromatography (IMAC) allowed further improvement of the final rhβ₂AR yield by reducing the loss of SMALP-embedded GPCRs during the fractionation and purification of SMALPs. The overall findings of this study show that the available SMALP protocols can be significantly optimized in several aspects in order to increase the efficiency of GPCR solubilization and isolation from low-yielding expression systems.     

Affinity purification of a chimeric nicotinic acetylcholine receptor in the agonist and antagonist bound states

Nicotinic acetylcholine receptors (nAChRs) form ligand-gated ion channels that mediate fast signal transmission at synapses. These receptors are members of a large family of pentameric ion channels that are of active medical interest. An expression system utilizing a chimerical construct of the N-terminal extracellular ligand binding domain of alpha7 type nAChR and the C-terminal transmembrane portion of 5HT3 type receptor resulted high level of expressions. Two ligand affinity chromatography purification methods for this receptor have been developed. One method relies on the covalent immobilization of a high affinity small molecule alpha7 nAChR agonist, (R)-5-(4-aminophenyl)-N-(quinuclidin-3-yl) furan-2-carboxamide, and the other uses mono biotinylated alpha-bungarotoxin, an antagonist, that forms a quasi-irreversible complex with alpha7 nAChR. Detergent solubilized alpha7/5HT(3) chimeric receptors were selectively retained on the affinity resins and could be eluted with free ligand or biotin. The proteins purified by both methods were characterized by gel electrophoresis, mass spectra, amino acid composition analysis, and N-terminal sequence determination. These analyses confirmed the isolation of a mature alpha7/5HT(3) receptor with the signal peptide removed. These results suggest a scalable path forward to generate multi-milligram amounts of purified complexes for additional studies including protein crystallization.     

Detergent-free solubilisation & purification of a G protein coupled receptor using a polymethacrylate polymer

G protein coupled receptors (GPCRs) function as guanine nucleotide exchange factors (GEFs) at heterotrimeric G proteins, and conduct this role embedded in a lipid bilayer. Detergents are widely used to solubilise GPCRs for structural and biophysical analysis, but are poor mimics of the lipid bilayer and may be deleterious to protein function. Amphipathic polymers have emerged as promising alternatives to detergents, which maintain a lipid environment around a membrane protein during purification. Of these polymers, the polymethacrylate (PMA) polymers have potential advantages over the most popular styrene maleic acid (SMA) polymer, but to date have not been applied to purification of membrane proteins. Here we use a class A GPCR, neurotensin receptor 1 (NTSR1), to explore detergent-free purification using PMA. By using an NTSR1-eGFP fusion protein expressed in Sf9 cells, a range of solubilisation conditions were screened, demonstrating the importance of solubilisation temperature, pH, NaCl concentration and the relative amounts of polymer and membrane sample. PMA-solubilised NTSR1 displayed compatibility with standard purification protocols and millimolar divalent cation concentrations. Moreover, the receptor in PMA discs showed stimulation of both G_q and G_i1 heterotrimers to an extent that was greater than that for the detergent-solubilised receptor. PMA therefore represents a viable alternative to SMA for membrane protein purification and has a potentially broad utility in studying GPCRs and other membrane proteins.     

Sequence coevolution and structure stabilization modulate olfactory receptor expression

Olfactory receptors (ORs) belong to class A G-protein coupled receptors (GPCRs) and are activated by a variety of odorants. To date, there is no three-dimensional structure of an OR available. One of the major bottlenecks in obtaining purified protein for structural studies of ORs is their poor expression in heterologous cells. To design mutants that enhance expression and thereby enable protein purification, we first identified computable physical properties that recapitulate OR and class A GPCR expression and further conducted an iterative computational prediction-experimental test cycle and generated human OR mutants that express as high as biogenic amine receptors for which structures have been solved. In the process of developing the computational method to recapitulate the expression of ORs in membranes, we identified properties, such as amino acid sequence coevolution, and the strength of the interactions between intracellular loop 1 (ICL1) and the helix 8 region of ORs, to enhance their heterologous expression. We identified mutations that are directly located in these regions as well as other mutations not located in these regions but allosterically strengthen the ICL1-helix 8 enhance expression. These mutants also showed functional responses to known odorants. This method to enhance heterologous expression of mammalian ORs will facilitate high-throughput “deorphanization” of ORs, and enable OR purification for biochemical and structural studies to understand odorant-OR interactions.     

Purification and characterization of the guinea pig sigma-1 receptor functionally expressed in Escherichia coli

Sigma receptors once considered as a class of opioid receptors are now regarded as unique orphan receptors, distinguished by the ability to bind various pharmacological agents such as the progesterone (steroid), haloperidol (anti-psychotic), and drugs of abuse such as cocaine and methamphetamine. The sigma-1 receptor is a 223 amino acid protein, proposed to have two transmembrane segments. We have developed a scheme for the purification of the guinea pig sigma-1 receptor following overexpression in Escherichia coli as a maltose binding protein (MBP) fusion and extraction with Triton X-100. Affinity chromatography using an amylose column and Ni2+ affinity column was used to purify the sigma-1 receptor. The sigma-1 receptor purified by this method is a 26 kDa polypeptide as assessed by SDS-PAGE, binds sigma ligands with high affinity and can be specifically photoaffinity labeled with the sigma-1 receptor photoprobe, [125I]-iodoazidococaine. Ligand binding using [3H]-(+)-pentazocine indicated that approximately half of the purified protein in Triton X-100 bound to radioligand. The MBP-sigma-1 receptor and the sigma-1 receptor in 0.5% triton were maximally stable for approximately two weeks at -20 degrees C in buffer containing 30% glycerol.     

Isolation and characterization of the apolipoprotein E receptor from canine and human liver

Previous results have demonstrated that liver membranes possess two distinct lipoprotein receptors: a low density lipoprotein (LDL) receptor that binds lipoproteins containing either apolipoprotein (apo-) B or apo-E, and an apo-E-specific receptor that binds apo-E-containing lipoproteins, but not the apo-B-containing LDL. This study reports the isolation and purification of apo-B,E(LDL) and apo-E receptors from canine and human liver membranes. The receptors were solubilized with the zwitterionic detergent 3-[(3-cholamidopropyl)-dimethylammonio]-1-propanesulfonate and were partially purified by DEAE-cellulose chromatography. The apo-B,E(LDL) receptor was isolated by affinity chromatography on LDL-Sepharose. The apo-E receptor, which did not bind to the LDL-Sepharose column, was then purified by using an HDLc (cholesterol-induced high density lipoprotein)-Sepharose affinity column and an immunoaffinity column. Characterization of the receptors revealed that the hepatic apo-B,E(LDL) receptor is similar to the extrahepatic LDL receptor with an apparent Mr = 130,000 on non-reducing sodium dodecyl sulfate-polyacrylamide gels. The apo-E receptor was found to be distinct from the apo-B,E(LDL) receptor, with an apparent Mr = 56,000. The purified apo-E receptor displayed Ca2+-dependent binding to apo-E-containing lipoproteins and did not bind to LDL or chemically modified apo-E HDLc. Antibodies raised against the apo-B,E(LDL) receptor cross-reacted with the apo-E receptor. However, an antibody prepared against the apo-E receptor did not react with the apo-B,E(LDL) receptor. The apo-E receptor also differed from the apo-B,E(LDL) receptor in amino acid composition, indicating that the apo-E receptor and the apo-B,E(LDL) receptor are two distinct proteins. Immunoblot characterization with anti-apo-E receptor immunoglobulin G indicated that the apo-E receptor is present in the hepatic membranes of man, dogs, rats, and mice and is localized to the rat liver parenchymal cells.     

Rapid purification of the estrogen receptor by sequence-specific DNA affinity chromatography

Rapid purification of calf uterine estrogen receptor (ER) to near homogeneity has been accomplished by use of sequence-specific DNA affinity resin. Very high selectivity for the estrogen receptor is achieved through the use of DNA-Sepharose containing eight tandem copies of a consensus estrogen response element (ERE) DNA sequence. The highly purified ER prepared by this new scheme may be labeled economically with ligands of high specific activity. This purification scheme selects for intact receptors retaining function in both estrogen-binding and DNA-binding domains. Purified receptor has an electrophoretic mobility consistent with a molecular weight of 68,000, sediments as a 5S species on sucrose gradients, and reacts with antibody specific to the human estrogen receptor.