Immunochemical studies of estrogen receptors

Fusion of splenic lymphocytes from Lewis rats, immunized with affinity-purified estrogen receptor from the cytosol of MCF-7 human breast cancer cells, with two different mouse myeloma lines, has provided 13 monoclonal hybridoma lines secreting antiestrophilin antibodies, each of which (with one possible exception) recognizes a different antigenic determinant in the human receptor molecule. Of this library of monoclonal antibodies, some react with estrophilin from all sources tested, some react with mammalian but not avian receptors, whereas one preparation appears specific for estrophilin from primate sources. By proteolytic digestion under controlled conditions with mercury-deactivated papain, chymotrypsin, and trypsin, respectively, it is possible to remove sequentially the determinants recognized by one, two or three of the monoclonal antibodies, leaving the epitopes for the six remaining antibodies investigated on the steroid-binding portion of the receptor. The proteolytic fragment containing the epitope most readily removed (by mercuripapain) also contains the DNA-binding domain of the activated receptor molecule. Immunocytochemical staining, using the peroxidase procedure with various monoclonal antibody preparations, of frozen sections of human breast cancer tissue, fixed in ethanol or in picric acid-formaldehyde reagent, shows clearly that the majority of the native receptor, which appears in the cytosol after tissue homogenization, is actually localized within the nuclear compartment in the intact cell. The immunocytochemical technique also permits the identification of mixed populations of receptor-containing and non-containing cells in human breast cancers.     

Characterization of two uterine proteases and their actions on the estrogen receptor

We have characterized two previously undetected proteases from the calf uterine cytosol and measured their actions on the estrogen receptor. One is an exopeptidase, purified 60-fold, that hydrolyzed amino acid (lysine-, and alanine-, or leucine-) p-nitroanilide substrates and leucylglycylglycine, did not hydrolyze [14C]methemoglobin, was completely inhibited by 1 mM bestatin or puromycin (specific inhibitors of leucine aminopeptidase like enzymes), and was unable to influence the sedimentation of the 8S form of the estrogen receptor in sucrose gradients containing dilute Tris buffer. A commercial porcine leucine aminopeptidase, like the calf uterine aminopeptidase, did not convert the 8S estrogen receptor to a 4S form. Evidently, removal of the N-terminal amino acid(s) from the estrogen receptor by exopeptidase action cannot alter the sedimentation of the 8S form of the receptor, or the N-terminal amino acid(s) of the receptor is (are) unaccessible or resistant to exopeptidase activity. The second, a receptor-active protease, is an endopeptidase that did not hydrolyze any of the synthetic amide or peptide substrates tested but did possess [14C]methemoglobin-degrading activity and the ability to convert the 8S estrogen receptor to a modified 4S form in sucrose gradients containing dilute Tris buffer. The modified 4S receptor was separable from the native receptor by DEAE-cellulose chromatography. The endopeptidase did not require Ca2+ for activity, and its chromatographic properties were distinctly different from a previously isolated Ca2+-activated protease. It was inhibited by leupeptin or dipyridyl disulfide, suggesting the presence of a thiol group that is essential for its activity. These data indicate that a decrease in the sedimentation rate of the estrogen receptor in sucrose gradients with low salt or a change in the receptor's elution on DEAE-cellulose chromatography is not related to receptor activation but is produced by the receptor-active protease or other proteases.     

Effect of calf endometrium nuclei on human estradiol receptor complex; an in vitro study.

A heterogenous system was created containing purified calf endometrium nuclei and cytosol from adult human uterine tissue to test whether calf endometrium nuclei are able to convert the 4S-form of the estradiol receptor complex into the well known 5S form extracted under high salt conditions from uterine nuclei.Quite in contrast to the receptor hormone complex from immature tissue the complex from mature uterine tissue is translocated in a temperature independent step into calf endomertium nuclei.     

Transformation (4S to 5S) of the nuclear estrogen receptor is reversible but not accompanied by a change in the affinity for DNA

The nuclear estrogen receptor from calf uterus was used to investigate the possible relationship between receptor transformation (4S to 5S) and receptor activation (DNA binding). Receptors extracted from nuclei after exposure of uterine tissue tc [3H]estradiol sedimented at 5.2S, the characteristic value of the transformed receptor. After storage at -20 degrees C the receptor sedimented at 4.0S, indicating conversion of the 5S form into the non-transformed 4S form. Upon reincubation at 28 degrees C the 4S form transformed into the 5S form following second-order kinetics. The rate constant obtained was 4.3 x 10(7) M-1 min-1, a value identical to that reported for the cytosol receptor. These data show that receptor transformation is reversible. Molybdate (10-50 mM) was not able to prevent receptor transformation in the nuclear extract, but was inhibitory in cytosol. This suggests that molybdate does not prevent receptor transformation, but rather inhibits disaggregation of the 8S oligomer into the 4S monomer. In DNA-binding assays (DNA-cellulose or nuclei) the non-transformed (4S) and transformed (5S) states of the nuclear estrogen receptors displayed identical affinities for DNA. The present data show that 4S to 5S transformation of nuclear receptors follows a readily reversible process, but this process is not an essential step for the exposure of the receptors' DNA-binding site. Although the physiological function of the 5S form remains unclear it may be important for the recognition of specific gene regulatory sites.     

Specificity and distribution of antigenic determinants on the polyoma virus capsid and nature of the reaction of immunoglobulin G antibody with the capsid surface.

Antisera to the LP and SP34 strains of polyoma virus have been prepared and their reactions with purified virions studied by double diffusion in agar and direct assay of antibody binding. One or more common antigenic determinants appear on the capsids of both strains. The form of this determinant varies slightly on each of the strains tested. The SP34 strain also carries its own strain-specific antigenic determinant. Both strains of virus were able to bind 150 anti-LP IgG³ molecules per virion and 50 anti-SP IgG molecules per virion. The slow rate of dissociation of bound IgG antibody (k_dissociation = 2 × 10⁻⁶ s⁻¹), and the rapid rate of antibody binding (k_dissociation = 2 × 10⁷m⁻¹ s⁻¹), suggest that IgG antibody is bound to the capsid surface through two antigen-antibody bonds. 50 anti-SP IgG molecules per capsid, divalently bound, completely inhibit the binding of 150 anti-LP IgG molecules, and vice versa. Consideration of the symmetry and molecular dimensions of the IgG molecule and the polyoma virus capsid leads to a model of the divalent interaction of IgG antibody with the common antigenic determinant(s). In this model, one species of antibody binds divalently to opposed subunits of a hexamer morphological unit. The other species of antibody binds divalently to the subunits on either side of the point of tangency of any two morphological units.     

Immunological differences between the estradiol-, tamoxifen- and 4-hydroxy-tamoxifen-estrogen receptor complexes detected by two monoclonal antibodies

Two monoclonal antibodies (D547 and H222), obtained against the estrogen receptor from MCF-7 breast cancer cells, were used to study the estrogen receptor from fetal guinea-pig uterus bound to estradiol or to the antiestrogens tamoxifen and 4-hydroxytamoxifen. The estradiol-receptor complex binds partially to the monoclonal antibody D547, shifting its sedimentation coefficient in high salt sucrose density gradients from 4.5S to 7.5S. Recently, we demonstrated that the form selectively recognized by this monoclonal antibody is the activated form of the receptor. The estrogen receptor complexed with tamoxifen or 4-hydroxytamoxifen is also partially recognized by this monoclonal antibody but the fraction of total receptor bound to the antibody is significantly less than for the receptor complexed with estradiol. Another series of experiments showed that the monoclonal antibody H222, which recognizes a different antigenic site on the receptor molecule, binds all the estradiol-receptor complex (independently of the degree of activation), shifting its sedimentation coefficient to 7.5S. However, even if all the 4-hydroxytamoxifen-receptor complex is bound by this antibody, only a fraction of the receptor is recognized when it is complexed with tamoxifen. These data show different interactions between the estradiol-, tamoxifen- and 4-hydroxytamoxifen-receptor complexes and the two monoclonal antibodies tested and suggest that these compounds induce different conformational modifications of the estrogen receptor molecule.     

RNA-induced transformation of the estrogen receptor detected by a monoclonal antibody which recognizes the activated receptor

The effect of RNA and polyribonucleotides on the estrogen receptor from fetal guinea pig uterus was studied through the analysis of the sedimentation properties of this receptor and its interaction with the monoclonal antibody D547. Different exogenous RNAs (calf thymus RNA, yeast RNA and rabbit liver transfer RNA) were able to induce a transformation of the 9S native receptor to 4.5-7S sedimenting forms in low salt sucrose density gradients, as activating factors such as temperature and time do. This transformation was prevented by 20mM sodium molybdate. Moreover, the RNA treated receptor was partially recognized by the monoclonal antibody D547. This antibody, as was demonstrated previously, selectively reacts with the activated form of this receptor. When different homo-polyribonucleotides were tested, the effect depended on their composition. In contrast, DNA did not affect either the sedimentation properties of the receptor or its reaction with the antibody. These observations suggest that RNA induces a dissociation of the 9S receptor and that at least one of the resulting forms is the activated receptor. However, RNA and polyribonucleotides inhibited the receptor binding to DNA-cellulose apparently by competing with DNA. The data suggest a role of RNA in estrogen receptor activation.     

Monoclonal antibodies to the rat liver glucocorticoid receptor.

Monoclonal antibodies against the 90 000 mol. wt. form of the activated rat liver glucocorticoid receptor were generated from mice immunized with a partially purified receptor preparation. The screening assay was based on the precipitation of liver cytosol, labelled with [3H]triamcinolone acetonide, with monoclonal antibodies bound to immobilized rabbit anti-mouse IgG. Out of 102 hybridomas obtained, 76 produced immunoglobulin and eight of them were found to react with the receptor molecule. Only one of the positive clones secreted IgG whereas the other seven produced IgM. The complexes of receptor and antibodies were identified by sucrose density gradient centrifugation. All seven monoclonal antibodies tested reacted with the 90 000 mol. wt. form of the receptor but not with the 40 000 mol. wt. form that contains the steroid and DNA binding domains. None of the monoclonal antibodies interfered with the binding of the receptor to DNA cellulose, thus suggesting that the antigenic determinants are located in a region of the receptor that is not directly implicated in either steroid binding or DNA binding. These antigenic determinants were common to glucocorticoid receptors from several tissues of the rat, whereas glucocorticoid receptors from other species react only with some of the antibodies.     

Interaction of the antiestrogen [3H]H1285 with the two forms of the molybdate-stabilized calf uterine estrogen receptor

The high affinity antiestrogen [3H]H1285 bound to the cytosol calf uterine estrogen receptor dissociated very slowly (t 1/2 approx 30 h at 20 degrees C) and did not demonstrate a change in dissociation rate in the presence of molybdate, which is characteristic of [3H]estradiol-receptor complexes. [3H]H1285-Receptor complexes sediment at approx 6S on 5-20% sucrose density gradients containing 0.3M KCl with or without 10 mM molybdate. This is in contrast to [3H]estradiol-receptor complexes which sedimented at approx 4.5S without molybdate and at approx 6S with molybdate. These results suggest a physicochemical difference in the estrogen receptor when occupied by antiestrogens versus estrogens. We recently reported that the cytoplasmic uterine estrogen receptor, when bound by estradiol and prepared in 10 mM molybdate, eluted from DEAE-Sephadex columns as Peak I (0.21 M KCl) & Peak II (0.25 M KCl). However, [3H]H1285 bound to the estrogen receptor eluted only as one peak at 0.21 M KCl, also suggesting that the initial interaction of antiestrogens with the estrogen receptor is different. We have extended these studies and report that H1285 can compete with [3H]estradiol for binding to both forms of the estrogen receptor and [3H]H1285 can bind to both forms if the unoccupied receptor is first separated by DEAE-Sephadex chromatography. However, if the receptor is first bound by unlabeled H1285, eluted from the column and post-labeled by exchange with [3H]estradiol, only one peak is measured. Thus, it appears that H1285 binding alters the properties of the receptor such that all receptor components seem to elute as one form. These partially purified [3H]H1285-receptor complexes obtained from DEAE-Sephadex columns sedimented as 5.5S in sucrose density gradients in contrast to the sedimentation values for the [3H]estradiol-receptor components eluting as Peak I (4.5S) and Peak II (6.3S). These differences in the physicochemical characteristics of the estrogen receptor when bound by estrogen versus antiestrogens may be related to some of the biological response differences induced by these ligands.     

A monoclonal antibody to the estrogen receptor inhibits in vitro criteria of receptor activation by an estrogen and an anti-estrogen

The effect of an IgM class monoclonal antibody (B36) (Greene, G. L., Fitch, F. W., and Jensen, E. V. (1980) Proc. Natl. Acad. Sci. U. S. A. 77, 157-161) raised against the calf uterine estrogen receptor was tested in vitro on certain parameters of estrogen receptor activation by estradiol or 4-hydroxytamoxifen, a potent anti-estrogen. The following results were obtained. The antibody prevented the decrease in the dissociation rate of the receptor-estradiol complex which results from activation of the complex, whereas it did not affect the dissociation rate of the receptor-4-hydroxytamoxifen complex, which remains unchanged upon activation. The antibody also increased the dissociation rate of the preactivated receptor-estradiol complex. The antibody protected the naked estrogen receptor against heat-inactivation. B36 partially inhibited the binding of the estradiol- and 4-hydroxy-tamoxifen-receptor complexes to DNA adsorbed onto cellulose, but did not reverse the receptor-DNA binding. This inhibition was not overcome by higher DNA concentrations and was more pronounced for the receptor interacting with estrogen than with anti-estrogen. All these effects were specific since they were related to antibody/antigen recognition and were dose-dependent. These results indicate that the binding of the antibody to the estrogen-activated receptor induces a conformational change in the receptor and that the antibody can prevent and overcome the effect of activation whatever its mechanism. They also confirm that the conformations of the estrogen receptor differ when bound to estradiol or to 4-hydroxytamoxifen.     

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.     

Estrogen-binding proteins of calf uterus. Purification to homogeneity of receptor from cytosol by affinity chromatography.

The estrogen receptor has been purified to homogeneity from calf uterus cytosol by sequential affinity chromatography by using heparin--Sepharose 4B and 17-hemisuccinyl-17beta-estradiol-ovalbumin--Sepharose 4B. The procedure yields about 1.2 mg of receptor protein from 1 kg of calf uteri, with a recovery of 53%. The receptor protein, as a complex with 17beta-[3H]estradiol, is purified more than 99%. A single band is seen on polyacrylamide gel ectrophoresis under nondenaturing conditions. 17beta-[3H]Estradiol comigrates with the protein band. As computed from the specific activity of radioactive hormone, 64,450 g of purified receptor protein binds 1 mol of 17beta-estradiol. 17beta-[3H]Estradiol bound to the protein is displaced by estrogenic steriods but not by progesterone, testosterone, or cortisone. As judged by chromatography on calibrated Sephadex G-200 columns, the purified receptor is identical with native receptor in crude cytosol: both show a Stokes radius of 6.4 nm. On sucrose gradient in low-salt buffer, the purified receptor sediments at 8 S. On electrophoresis in NaDodSO4 gels, the purified receptor migrates as a single protein band with an apparent molecular weight of 70,000. The sedimentation coefficient measured on sucrose gradients in the presence of chaotropic salts [1 M NaBr or NaSCN (0.1 M)] is 4.2 S. We conclude that the estrogen receptor of cytosol consists of a single subunit weighing about 70,000 daltons and endowed with one estrogen binding site. Under native conditions in cytosol, several subunits associate to form a quaternary structure with a Stokes radius of 6.4 nm.     

Identification of an antigenic determinant on the S2 domain of the severe acute respiratory syndrome coronavirus spike glycoprotein capable of inducing neutralizing antibodies

Severe acute respiratory syndrome (SARS) is a life-threatening disease caused by a newly identified coronavirus (CoV), SARS-CoV. The spike (S) glycoprotein of CoV is the major structural protein responsible for induction of host immune response and virus neutralization by antibodies. Hence, knowledge of neutralization determinants on the S protein is helpful for designing protective vaccines. To analyze the antigenic structure of the SARS-CoV S2 domain, the carboxyl-terminal half of the S protein, we first used sera from convalescent SARS patients to test the antigenicity of 12 overlapping fragments spanning the entire S2 and identified two antigenic determinants (Leu 803 to Ala 828 and Pro 1061 to Ser 1093). To determine whether neutralizing antibodies can be elicited by these two determinants, we immunized animals and found that both of them could induce the S2-specific antisera. In some animals, however, only one determinant (Leu 803 to Ala 828) was able to induce the antisera with the binding ability to the native S protein and the neutralizing activity to the SARS-CoV pseudovirus. This determinant is highly conserved across different SARS-CoV isolates. Identification of a conserved antigenic determinant on the S2 domain of the SARS-CoV S protein, which has the potential for inducing neutralizing antibodies, has implications in the development of effective vaccines against SARS-CoV.     

Properties of the estrogen receptors contained in the MtTF4 tumor whose growth is inhibited by estradiol: 17 beta-estradiol, 17 alpha-estradiol and DNA bindings

The steroid and the DNA bindings of the estrogen receptor of the MtTF4 tumor whose growth is inhibited by estradiol where characterized and compared to those of uterine estrogen receptors. In the tumor cytosol: E protects its binding sites against thermal denaturation, depending on the effects of sodium molybdate upon the dissociation rate of [3H]E at 20 degrees C and the ability of receptor to bind to DNA, the activation (or transformation) process, supposed to be necessary for the full action of estrogen ligand, occurs on estrogen receptor complexes and the calf thymus DNA interacts with estrogen receptor with an affinity similar to that of uterine estrogen receptor. Kinetic and equilibrium studies with 17 alpha-[3H]E both in uterus and tumor indicate that this ligand is fast-associating, fast-dissociating and that its affinity for ER is 2- to 4-fold lower than that of 17 beta-[3H]estradiol one. Competition experiments between 17 beta-[3H]estradiol and the unlabelled 17 alpha epimer reveal, in both uterus and tumor, a time-dependent decrease of the apparent potency of 17 alpha-E to inhibit the binding of [3H]E. It is concluded that the estrogen receptors are very similar in MtTF4 tumor and uterus and the diversity of the response of cell growth to E is due rather to differences at the post-receptor level.     

The distribution and relative immunogenicity of calf alpha-crystallin antigenic determinants on different subunits.

In the native alpha-crystallin molecule, 45.9% of all reactive antigenic determinants were found to be located on SH-containing subunits. Of these, the majority (35.3%) were reaggregation dependent, and 10.6% were reactive on monomeric subunits. By contrast, only 10.9% of all antigenic determinants were located on SH-free subunits, and the ratio of aggregation-dependent determinants (4.4%) to those of monomeric subunits (6.5%) was reversed compared to SH-containing subunits. Among all antigenic determinants reactive in native alpha-crystallin, 44.1% were dependent on the presence of both types of subunits. These data indicate that the antigenic determinants requiring subunit interaction were formed from SH-containing and SH-free subunits in a ratio of 1:1. Direct analysis showed that in the alpha-crystallin molecule, the ratio of these subunits is 2:1. The experiments indicate that some conformations of subunits in the native molecule persist in separated subunits. The relative immunogenicity of each type of antigenic determinant expressed as the ratio of the percentage of the determinant reactive in the native calf lens alpha-crystallin to the percentage of corresponding antibodies induced by native alpha-crystallin was found to be close to 1.     

Comparative analysis of the interaction of various estrogens with the estrogen-receptor system of the uterus

Equilibrium binding of labeled estron, estradiol, estriol and DES was studied in uterine cytosol of immature Wistar rats. The dissociation kinetics of the ligand complexes with specific high affinity sites suggested the homogeneity of estrogen receptors in rat uterine cytosol. The feasibility of intracellular regulation of estrogen action in target cells both at the receptor and post-receptor levels is discussed.     

An approach to the identification of adenosine''s inhibitory site on adenylate cyclase

The separate and combined effects of molybdate and dithiothreitol on the stability of human uterine 9 S estrogen receptor were studied. Maximal, short-term, protection of the 9 S estrogen receptor was achieved by the joint inclusion of both stabilizing agents in cytosol buffers. This molybdate—dithiothreitol-mediated stability was dependent on reducing agent concentration inferring sulphydryl involvement in 9 S receptor protection by molybdate. The study also showed that molybdate—dithiothreitol could not prevent the gradual decay of the 9 S estrogen receptor to the 4 S form in cytosols stored at 4°C over prolonged periods.     

One-step immunoaffinity purification of active progesterone receptor. Further evidence in favor of the existence of a single steroid binding subunit

A very high capacity immunoaffinity matrix for the purification of progesterone receptor was prepared by cross-linking a monoclonal antireceptor antibody to protein A-Sepharose through the Fc fragment. The monoclonal antibody was selected for its property of losing affinity for the receptor at pH 10.5, i.e., in conditions where the receptor remains stable for extensive periods of time. This made it possible to elute active receptor form the immunosorbent. From crude rabbit uterine cytosol the steroid-receptor complexes were purified in a single step. A 1-mL column (containing 7 mg of monoclonal antibody) bound 1600 pmol of steroid-receptor complexes of which 79.5% were eluted. The overall yield of purification was 49%. The specific activity of the purified steroid-receptor complexes was 6.71 +/- 0.79 nmol of bound steroid/mg of protein (mean +/- SE of four experiments). The purified receptor consisted of a mixture of 110 000- and 79 000-dalton forms. The latter appeared to be produced by proteolysis of the larger form during purification since immunoblot experiments showed that, at the start of purification, the 110 000-dalton form was present in overwhelming majority (80-95%) in the uterine cytosol and that the 79 000-dalton form only appeared during purification. This conclusion was also supported by the peptide analysis of both forms of receptor: the purified receptor was denatured and labeled with 125I; the 110 000- and 79 000-dalton forms were isolated by gel electrophoresis in denaturing conditions and electroelution and were then submitted to mild or extensive digestions by trypsin, chymotrypsin, and protease V8 from Staphylococcus aureus.(ABSTRACT TRUNCATED AT 250 WORDS)     

Novel antiprogestins Org 31806 and 31710: interaction with mammalian progesterone receptor and DNA binding of antisteroid receptor complexes.

We have examined steroid binding parameters and transformation of calf uterine progesterone receptor (PR) liganded with progestins (progesterone and R5020) and the newly synthesized antiprogestins (Org 31806 and 31710). Species specificity analysis indicated that [3H]R5020 binding in the chicken oviduct cytosol could be eliminated in the presence of 100-fold excess radioinert progesterone and R5020 but not Org 31806 and 31710. In the calf uterine cytosol, the progestins and the antiprogestins appeared to interact with the same PR as revealed by the displacement of [3H]R5020 by all of the above steroids. When the extent of [3H]R5020 binding was examined in the presence of different concentrations of radioinert steroids, the relative affinity with which these compounds interacted with the uterine PR was found to be comparable. A 23 degrees C incubation of cytosol transformed the progestin-bound PR complexes increasing their binding to DNA-cellulose from 5 (0 degrees C, nontransformed) to 35%. Under these conditions, 20% Org 31710- and RU486-occupied PR complexes bound to DNA-cellulose whereas only 10% Org 31806-receptor complexes were retained by the resin. Transformation (23 degrees C) of cytosol receptor caused a loss of the larger 8 S form and an increase in the smaller 4 S form. In its unliganded state or when it was complexed with R5020 or the antiprogestins, incubation of PR at 23 degrees C led to dissociation of the receptor-associated 90 kDa heat-shock protein (hsp90). The PR-hsp90 association was stabilized in the presence of 10 mM iodoacetamide when the ligand binding site was occupied by Org 31806 and 31710. The R5020-receptor complexes, however, allowed release of hsp90 under the above transforming conditions. Our results indicate that although Org 31806 and 31710 show no affinity for the avian PR, these steroids interact with the mammalian PR. We propose that the reported antiprogestational effects of Org 31806 and 31710 are mediated via their interaction with PR which appears similar to one that exists between PR and RU486.     

Identification of immunoassayable estrogen receptor lacking hormone binding ability in tamoxifen-treated rat uterus

Using two different monoclonal antibodies to human estrogen receptor (ER), the enzymeimmunoassay was performed. The values of ER contents in human breast cancer and untreated rat uteri obtained by this procedure were correlated well with those by [3H] estradiol binding assay. When estradiol was injected to immature rats, the enzymeimmunoassay showed the uterine receptor dynamic pattern similar to those analyzed by exchange assays. In contrast, tamoxifen administration induced the immunoassayable but nonsteroid binding form of ER. This ER-like antigen was the heat-labile molecule with the sedimentation constant of 7 S while ER in untreated rat uterine cytosol sedimented at 9 S. These results suggest the presence of unique molecular state of ER induced by tamoxifen.