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.     

Protein purification using a soluble affinity matrix: purification of estrogen receptor with estradiol-polylysine conjugate.

A new strategy for protein purification using a soluble affinity matrix is described. The method was used for purification of estrogen receptor. Cytosols from rat uteri and human fibroid uterine tissue, after fractionation by ammonium sulfate, were treated with estradiol-polylysine conjugate. The highly basic affinity complex was separated from other proteins by DEAE-Sephacel chromatography. After dissociation of the eluted complex with excess estradiol, the receptor was recovered by CM-Sephadex chromatography. A 2000-fold purification of the rat uterine estrogen receptor was obtained with an activity recovery of 35%.     

Dihydrotestosterone derivatives: relative binding affinity versus affinity purification.

Mono esters of a homologous series of diacids of dihydrotestosterone were synthesized and converted to the corresponding n-butyl amides. The relative binding affinities of these amides to androgen receptor were compared with the degree of purification of rat prostate androgen receptor by affinity columns prepared by linking the steroidal acid to amino Sepharose. There was good correlation between binding of the amide model to androgen receptor and the extent of purification by the affinity resin.     

A new exchange procedure for the quantitation of prostatic androgen receptor complexes formed in vivo

A procedure is described for the measurement of rat prostatic androgen receptor saturated in vivo with non-radioactive androgen. While NaSCN alone induces irreversible dissociation (denaturation) of androgen from the receptor, the combination of this chaotropic salt (0.15 M) with sucrose (15%) and sodium molybdate (10 mM) allows the exchange of R DHT with [3H]DHT at 0 degrees C with only minimal receptor denaturation. The validity of the present exchange assay is based on the following: a similar quantity of androgen receptor was detected when binding was measured directly after in vivo treatment with radioactive androgen or indirectly by [3H]DHT exchange after treatment with non-radioactive androgen. Steroid specificity, sedimentation analysis and equilibrium association constants indicated that this exchange assay labels the androgen receptor without interference from other prostatic steroid binding proteins. With this method it is now possible to quantitate not only prostatic androgen receptors bound to androgens in vitro but also hormone-receptor complexes formed in intact animals under the influence of endogenous androgen.     

Characterization of steroid binding specificity of the androgen receptor in human foreskin fibroblasts

Our objective was to evaluate a convenient in vitro model for measuring steroid affinities to the human androgen receptor. The ability of unlabeled analogues of dihydrotestosterone (DHT) to compete with [3H]DHT for binding to the receptor in human fibroblasts was measured and expressed relative to DHT. The C-3 ketone group and the planar configuration of the A and B rings were critical for binding. Absence of the 10 beta-methyl group increased affinity of the androstane compounds for the receptor. The 17 beta-hydroxyl group was also essential for high affinity binding and addition of a 17 alpha-methyl group enhanced binding. Binding of steroids with a delta 4 double bond was consistently less than that of the 5 alpha-reduced steroids. This was true of both the androstene and estrene series. We conclude that human foreskin fibroblasts offer a useful model for in vitro studies characterizing the effects of steroid structural modifications on binding to the human androgen receptor.     

Androgen-induced nuclear accumulation of the estrogen receptor.

The effect of androgens on the nuclear uptake of both tritiated estradiol (3H-E2) and the estrogen receptor was studied in immature rat uteri. It was demonstrated that in vitro preincubation of immature rat uteri with various androgens (1 muM to 50 muM) followed by incubation with 3H-E2 (20 nM) resulted in a greatly decreased specific nuclear uptake of 3H-E2. Non-androgenic steroids had no effect. It was also confirmed that 5alpha-dihydrotestosterone (DHT) causes the accumulation of the estrogen receptor in the nuclei of uterine tissue. In vitro incubations of rat uteri with DHT (1muM and 50muM) were found to cause maximal nuclear estrogen receptor accumulation to the same degree as caused by estradiol, i.e. the nuclear uptake of approximately 100% of the estrogen receptor. Antiandrogens, which block the binding of androgens to the testosterone receptor in various tissues, did not inhibit the DHT - induced decrease in the 3H-E2 uptake by the uterine nuclei or the DHT - caused accumulation of the estrogen receptor in nuclei. These results seem to indicate that the uterine testosterone receptor has no role in the androgen - induced nuclear uptake of the estrogen receptor. However, the non-steroidal antiestrogens inhibited the DHT - induced nuclear accumulation of the estrogen receptor. This would seem to indicate that the estrogen - and androgen - induced nuclear accumulation of the estrogen receptor share a common mechanism.     

Ammonium sulfate precipitation as a tool for the study of androgen receptor proteins in rat prostate and mouse kidney.

Ammonium sulfate precipitation has been used for the separation of bound and free steroids in rat prostate and mouse kidney cytosol equilibrated with tritiated androgens. A high affinity, low capacity binding protein has been identified in the 35% saturation precipitate. Biochemical and physiological data indicate that this protein is identical with the previously described 8-10 S androgen receptor. It has been demonstrated that this receptor protein binds 17 beta - hydroxy-5alpha-androstan-3-one (DHT) and testosterone in both tissues. The apparent dissociation constant (Kd) of the prostatic receptor for DHT and of the renal receptor for testosterone is 1-2 nM. The number of binding sites equals 57 and 23 fmoles/mg protein in prostate and kidney respectively. Dterminations of apparent inhibition constants (Ki) for 26 steroidal and non-steroidal compounds suggest that the binding sites in these tissues is similar or identical.     

Synthesis of a disulfide affinity adsorbent for purification of estrogen receptor

Synthesis of an estrogen affinity adsorbent containing a disulfide linkage between the steroid and stationary matrix permitted facile purification of high affinity estrogen binding proteins. Following affinity chromatography of either antibody directed against estrone 17-carboxymethyloxime — bovine serum albumin or immature calf uterine cytoplasmic estrogen receptor proteins, the specifically bound protein was recovered by incubating the adsorbent with 2-mercaptoethanol. Crude antibody and uterine cytosol was prepared for affinity chromatography in buffer containing 10^?3 to 10^?2M cystamine (S-S) to block SH-containing proteins, in order to protect the adsorbent against protein-mediated S-S ag SH exchange. Cystamine was found to markedly stabilize crude cytosol receptor protein by 200–300% compared with preparations obtained under ordinary conditions. Disulfide affinity adsorbents are versatile in that they can be used either under conventional conditions of specific protein recovery, or with 2-mercaptoethanol which removes the ligand and bound protein from the stationary matrix quantitatively.     

Androgen receptor in rat liver: characterization and separation from a male-specific estrogen-binding protein

Many liver processes are sexually dimorphic. In particular, the microsomal content of specific enzymes and the synthesis of specific proteins are under sex steroid hormone control. Because the liver of male rats is strikingly androgen responsive, we sought evidence for an androgen receptor in this tissue. We detected and characterized both cytosolic and nuclear androgen-binding proteins. Both forms bind [3H]R1881 (methyltrienolone, 17 beta-hydroxy-17 alpha-methyl-4,9,11-estratriene-3-one) with the high affinity, low capacity, and specificity for androgens and antiandrogens characteristic of androgen receptors. No high-affinity binding of [3H]DHT could be detected in unfractionated cytosol because of the rapid metabolism of this ligand; however, binding of a DHT metabolite to the high-capacity male-specific estrogen binder (MEB) of cytosol was observed. Both gel filtration and heparin-Sepharose affinity chromatography separate the cytosolic androgen receptor from MEB. Incubation of cytosol in the absence of sodium molybdate resulted in androgen-binding activity which was retained by DNA-cellulose. Castration of male rats results in a time-dependent loss of both cytosolic and nuclear androgen binding, as well as a loss in MEB activity. Androgen-binding activity is low in livers from female rats, but can be induced by testosterone treatment. An intact pituitary is necessary for maintenance of androgen-binding activity, as hypophysectomy results in complete loss of activity.     

Estrogen and androgen receptor binding affinity of 10 beta-chloro-estrenen derivatives

10 beta-Chloroestradien-3-one and its derivatives with chlorine substitution in ring A have been prepared. Efficient synthetic methods for 2-chloro- and 4-chloroestradiol are described. The binding affinity of these chlorinated estrogens to the uterine estrogen receptor was measured by a competitive binding assay using [3H]estradiol as ligand. 4-Chloroestradiol showed high binding affinity for the receptor (110% of that of estradiol). 2-Chloroestradiol, 10 beta-chloroestradien-3-one and 4,10 beta-dichloroestradien-3-one had moderate binding affinity. The structures of 10 beta-chloroestradien-3-one and androst-1,4-dien-3-one are very similar and can almost be superimposed. However, their binding affinities to the estrogen and androgen receptor were different. Androst-1,4-dien-3-one displayed no measurable affinity for the estrogen receptor and measurable affinity for the androgen receptor whereas 10 beta-chloroestradien-3-one had very low affinity for the androgen receptor.     

Androgens on the estrogen receptor II — correlation between nuclear translocation and uterine protein synthesis

In the immature rat uterus, occupation of the androgen and estrogen receptor sites after injection of 5 α dihydrotestosterone (DHT = 17β-hydroxy-5α-androstan-3-one) were compared to the biological responses induced by the androgen on protein synthesis. Injection of 100 μg DHT induced a maximal occupation of androgen receptor sites (RA) but was totally ineffective in translocating the estrogen receptor sites and in increasing general protein synthesis. Conversely, high doses of androgen (? 3 mg) translocated the estrogen receptor (RE) and stimulated general protein synthesis. In addition, these high doses induced a specific uterine protein undistinguishable from that induced by estradiol treatment (IP). These results strongly suggest that the uterotrophic response of the uterus to androgen is correlated with the nuclear translocation of the estrogen receptor and not with that of the androgen receptor which is present in much smaller amounts.     

Relative binding affinity of novel steroids to androgen receptors in hamster prostate

The in vivo and in vitro antiandrogenic activity of four aromatic esters 10a-10d, one aliphatic ester 10e based on the pregna-4,16-diene-6, 20-dione structure and two aromatic 17c, 17d and two aliphatic valeroyloxy esters 17a, 17b based on the more saturated 4-pregnene-6,20-dione skeleton was examined. The biological activity of steroids 9, 10a-10e and 17a-17d, was determined using prostate glands from gonadectomized adult male golden hamsters. In the in vitro studies, the relative binding affinity of these steroids to cytoplasmic androgen receptor (AR) of hamster prostate was determined from, the corresponding IC50 values obtained from the competitive binding plots. The standards dihydrotestosterone (DHT) and cyproterone (CA) acetate used have displaced [3H]DHT from the AR with an IC50 value of 3.2 and 4.4 nM respectively. All steroidal compounds synthesized in this study showed a binding affinity for the androgen receptor, present in the cytosol from prostate hamster; compounds 10a-10c showed the highest affinities for this receptor. The in vivo experiments showed that all steroidal derivatives were subcutaneously active, since they decreased the weight of the prostate gland in gonadectomized hamsters treated with DHT, and are antagonists for the androgen receptor since they block the DHT-induced prostate weight gain. The derivatives having the more conjugated 4,16-pregnadiene-6, 20-dione system (10a-10c) exhibited a higher antiandrogenic activity than the corresponding steroids (17a-17d) based on the more saturated 4-pregnene-6,20-dione system.     

Determination of rat muscles androgen-receptor complexes with methyltrienolone

In the present study, “in vitro” evidences are shown for the existence of a highly active 3α-hydroxysteroid dehydrogenase in the crude cytosol of rat muscle homogenates; the use of 5α-dihydrotestosterone (DHT) is therefore compromised in receptor binding measurements because of its extensive metabolism. The synthetic anabolic androgen, methyltrienolone (MT) palliates this disadvantage of DHT. Both steroids, as well as testosterone, appear to be bound to an 8–8.5 S androgen receptor on sucrose density gradient. The androgen receptor in the vastus and the levator ani bulbocavernosus complex (LA/BC) shows similar association constants, but the number of binding sites in LA/BC is about 5 times higher than in vastus. Otherwise, the total number of muscle androgen receptors seems to be invariant in adult and aged rats. The binding to these macromolecules can thus be measured “in vitro” provided specific and sensitive methods are utilized.     

Partial purification of androgen receptor from hypertrophic human prostate

For purification of androgen receptor from hypertrophic human prostate, solutions used for elution of androgen receptor from DNA Sepharose, affinity labeling of the receptor and ability of affinity gel to retain the receptor were examined. Elution with 20 mM pyridoxal 5'-phosphate of the receptor from DNA Sepharose was more efficient than that with diluted pyridoxal 5'-phosphate, high ionic solution or various concentrations of Mg++, 3H-dihydrotestosterone bromoacetate was applicable to covalent binding with partially purified androgen receptor regardless of the low specificity of the ligand. Affinity gel of thiopropyl-Sepharose 6B coupled to 17 alpha-(2', 3'-epoxy-propyl)-5 alpha-dihydrotestosterone was better than Affigel 102 coupled to N-[3-(3-oxo-5 alpha-androstane-17 beta-yloxycarbonyl) propionyloxy] succimide or aminoethyl-Sepharose 4B coupled to 17 alpha-carboxyethynyl testosterone with respect to the rate of retention of androgen receptor. In view of these observations, the following purification procedures were constructed: Removal of DNA Sepharose-binders from the cytosol, 40% ammonium sulfate precipitation, affinity chromatography using thiopropyl-Sepharose 6B coupled to 17 alpha-(2',3'-epoxypropyl)-5 alpha-dihydrotestosterone, and DNA Sepharose chromatography. After affinity labeling of the receptor thus obtained, the molecular weight was estimated. Some 1300-fold purification with a yield of 0.25% of the androgen receptor was achieved. The molecular weight of the receptor was mainly 45 K with 90 K in a lesser amount. The Stokes radius was calculated as 30 A.     

Analysis and isolation of human transferrin receptor using the OKT-9 monoclonal antibody covalently crosslinked to magnetic beads.

A method is described for the use of magnetic beads as a solid phase for the immunoprecipitation of labeled proteins. The anti-human transferrin receptor monoclonal antibody OKT-9 has been coupled to sheep anti-mouse IgG1-coated magnetic beads using the crosslinking agent dimethyl pimelimidate. The transferrin receptor is readily detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography following immunoprecipitation from 35S-labeled cell lysates. When compared with precipitations using OKT-9 coupled to protein G Sepharose the magnetic beads result in fewer nonspecific bands. The protocol described is generally applicable to the identification of labeled proteins. In addition, because magnetic beads are amenable to covalent crosslinking procedures they can be used for the purification of proteins from complex mixtures. Covalently crosslinked OKT-9 sheep anti-mouse IgG1-coated magnetic beads have been used to affinity purify unlabeled transferrin receptor from cell lysates giving comparable purity and yield to transferrin Sepharose isolated transferrin receptor. The major advantages offered by magnetic beads compared to conventional affinity matrices are low nonspecific binding and the rapidity with which the purification can be performed.     

DNA and protein components of nuclear acceptor sites for androgen receptors in the rat prostate

Androgen receptor-acceptor complexes in nuclei from rat ventral prostates were cross-linked in situ with formaldehyde and partially purified using affinity chromatography. To isolate acceptor DNA, the cross-linked receptor-acceptor complexes in formaldehyde-treated chromatin samples were adsorbed to dihydrotestosterone-17 beta-succinyl agarose, eluted with 75 microM dihydrotestosterone-1% SDS, digested with proteinase K and extracted with phenol-chloroform. After 32P end-labelling and PAGE, this DNA contained two distinct bands of DNA (about 300 and 400 base pairs respectively) which were unique relative to the total prostatic DNA. As an alternative approach for characterizing acceptor DNA, the DNA in prostatic nuclei and cross-linked chromatin was labelled with 32P by nick translation and analysed in glycerol density gradients for associations with cross-linked androgen receptors. A symmetrical 7s peak of 32P-DNA with a small amount of coincident receptor was observed in the gradients after mild trypsin treatment. In the absence of trypsin treatment, both the cross-linked receptors and the labelled DNA sedimented to the bottom of the gradients. Isolation of acceptor proteins involved iodination of cross-linked chromatin with 125I and androgen affinity chromatography. A comparison of the relative efficiency of retention and elution of 125I-proteins from different affinity columns revealed that testosterone-17 beta-succinyl agarose was potentially most suitable for purification of acceptor proteins. After electrophoresis on SDS-polyacrylamide gels, the eluates from this type of affinity matrix were found to contain two major peaks of 125I-labelled proteins--one corresponding to a protein with a similar molecular weight as the nuclear androgen receptor (33,000 Da); the other having a molecular weight of 20,000 Da. While the precise identity of this latter entity is unknown, its enrichment and retention by the affinity gel implies that it is closely associated with the androgen receptor and may be a component of the acceptor sites.     

Androgen receptor in human skin fibroblasts. Characterization of a specific 17beta-hydroxy-5alpha-androstan-3-one-protein complex in cell sonicates and nuclei.

Cultured human skin fibroblasts were shown to contain an androgen binding activity (receptor) which was heat-labile and destroyed by trypsin. Specific binding was seen after incubations of these cells with 1,2-3-H-testosterone, 1,2-3-H17beta-hydroxy-5alpha-androstan-3-one (dihydrotestosterone, DHT) and 1,2-3-H-5alpha-androstane-3alpha, 17beta-diol. This receptor had a high affinity (Kd=0,2-1.6 nM) and a high degree of specificity for DHT. It was measured as a 3-H-DHT-protein complex by gel filtration chromatography using a method which distinguishes specific from nonspecific binding. Receptor activity was distributed about equally between nuclear and extranuclear components at all times studied and was present in both compartments when cell incubations were carried out at 4 degrees and 37 degrees. Saturation analysis indicated that there were 1250-18,600 binding sites per whole cell. By sucrose gradient centrifugation the receptor had a sedimentation coefficient (S20,w) of about 4. Cells grown for 8 days without serum in the medium maintained the same levels of 3-H-DHT binding. Within 15 hours puromycin (20 mug/ml) in serum-free medium caused a 40-60 percent decrease in binding for the same cell lines. Although the highest levels of 3-H-DHT binding were observed in fibroblasts from newborn foreskin, appreciable cytosol and nuclear binding were seen in cells from forearm, neck and abdominal skin. Receptor activity was stable during prolonged culture. Fibroblasts from several skin sites from patients with the androgen insensitivity syndrome (testicular feminization) had no detectable specific DHT binding. In this study it was demonstrated that skin fibroblasts can rapidly convert testosterone to its active form, DHT, bind DHT to a specific receptor protein and transport this complex to their nuclei. Therefore this may prove to be a convenient system for studying androgen action in vitro.     

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.