Characterization of a [3H]methyltrienolone (R1881) binding protein in rat liver cytosol

The binding of radiolabelled methyltrienolone 17 beta-hydroxy-17 alpha-methyl-estra-4,9,11-trien-3-one (R1881) to adult male rat liver cytosol has been characterized in the presence of Na-molybdate to stabilize steroid-hormone receptors, and triamcinolone acetonide to block progestin receptors. Using sucrose density gradient analysis, male liver cytosol contains a [3H] R1881 macromolecular complex which sediments in the 8-9S region. 8S binding of R1881 to male rat serum, female liver cytosol or cytosol from a tfm rat cannot be demonstrated. Further metabolism of [3H] R1881 following 20h incubation with male rat liver cytosol was excluded: In the 8S region 97% of [3H] R1881 was recovered by thin layer chromatography. Characteristics of this [3H] R1881-8S binding protein include high affinity (Kd = 2.3 +/- 41 nM) and low binding capacity (18.8 +/- 3.3 fmol/mg cytosol protein), precipitability in 0-33% ammonium sulfate, and translocation to isolated nuclei following in vivo R1881 treatment. Whereas, the cytosol R1881-receptor is competed for by dihydrotestosterone, testosterone, and estradiol, [3H] estradiol binding in the 8S region is not competitive with androgens but does compete with diethylstilbestrol. The nuclear androgen binding site has a Kd = 2.8 nM for [3H] R1881, and is androgen specific (testosterone greater than 5 alpha-dihydrotestosterone greater than estradiol greater than progesterone greater than cyproterone acetate greater than diethylstilbestrol greater than dexamethasone greater than triamcinolone). Since a number of liver proteins including the drug and steroid metabolizing enzymes are, in part, influenced by the sex-hormone milieu, the presence of a specific androgen receptor in male rat liver may provide valuable insight into the regulation of these proteins.     

Effects of sex steroids and antihormones on growth, adhesiveness and receptors of L-929 cells cultured in serum-containing and serum-free media.

L-929 cells contain distinct steroid hormone receptors for glucocorticosteroids, for androgens and for estrogens. We studied the effects of different hormones at physiological concentrations on androgen and estrogen receptor protein accumulation and on cell multiplication. The cells were cultured in steroid-free serum-containing medium, either in Petri dishes or in suspension cultures, and in serum-free medium in Petri dishes. The presence of androstanolone (30 nM) in suspension cultures decreased the concentration of estradiol receptor-binding sites in the cytoplasmic fraction. This decrease was progressive following 3, 5 or 10 days of suspension culture in the presence of the androgen; simultaneously a parallel increase in cell multiplication and DNA was observed. The estradiol receptor decrease was approx. 50% after 10 days of treatment and was unaltered after a further 5 days. It was verified that the low androstanolone concentration in the medium did not provoke the translocation of the estradiol receptor into the nucleus. Progesterone 50 nM also decreased the cytoplasmic estradiol binding sites but had no influence on cell growth and no cytoplasmic progesterone receptor could be found. Diethylstilbestrol (30 nM) did not decrease the concentration of androgen receptor.Cell multiplication was stimulated after several days of suspension culture in the presence of either diethylstilbestrol, estradiol or androstanolone at a concentration of 10–30 nM. The specific anti-hormones, tamoxifen and cyproterone acetate, inhibited selectively the growth effects of estrogens and androgen, respectively. L-929 cells could be cultured for a long period of time in serum-free medium in Petri dishes. Cell adhesiveness was increased in the presence of 40 nM androstanolone or 40 nM estradiol, as well as cell multiplication. Dexamethasone had a negative effect on cell adhesiveness and cell growth. The experimental data suggest that at low concentrations the different steroids operated each through its own receptor and were active on cell growth even in serum-free medium.     

Atypical Androgen Receptor in the Human Melanoma Cell Line IIB-MEL-J

To evaluate the presence of androgen receptors in the human melanoma cell line IIBMEL-J, a Scatchard plot analysis was performed. Cells in culture revealed a single binding component with an apparent dissociation constant (K_D) at 37°C of 11 nM and a binding capacity of 326 fmol/mg protein when measured with [³H]-R1881. Competition analysis revealed an atypical relaxation of specificity, since not only androgen (testosterone, dihydrotestosterone [DHT], R1881) and antiandrogen (hydroxy-flutamide [OH-FLU]) competed for [3H]-R1881 binding, but also estradiol, progesterone, and cortisol at 500-fold excess concentration. Binding of [3H]-estradiol and [3H]-R5020 in the absence of unlabeled DHT were completely suppressed in its presence. Immunohistochemistry of androgen receptor with a monoclonal antibody showed that nuclei were vigorously stained. Different doses of flutamide (FLU) and OH-FLU tested on cultured IIB-MEL-J cells in the presence of serum inhibited significantly cell proliferation in a dose-dependent manner. When cells were incubated with 10 nM DHT and 1%charcoal-adsorbed serum, a significant stimulation of growth that was observed was inhibited by 4 μM OH-FLU. DHT stimulation was completely reversed by the antiestrogen tamoxifen. In addition, male nude mice transplanted with IIB-MEL-J tumor were treated with FLU when tumors were palpable. FLU was effective in diminishing tumor growth and increasing survival rate of the animals. As a conclusion, the presence of functional androgen receptors in these cells has been demonstrated by growth inhibition in vitro and in vivo with antiandrogens, and their atypical nature is suggested by binding cross-reactivity and competition studies.     

A male specific hepatic estrogen binding protein: characteristics and binding properties

Mammalian liver is a sex-steroid responsive tissue in that androgen and estrogen receptors are present and mediate differential hepatic hormonal effects. Further, we and others have found a sexual dimorphism in the hepatic cytosolic content of estrogen binding proteins. In addition to the estrogen receptor, the male has a high-capacity (12.0-15.0 pmol/mg protein) estrogen binding protein (MEB) which demonstrates a moderate affinity for estradiol (Kd = 31.0-43.2 nM) if estradiol metabolizing enzymes are first precipitated with protamine sulfate. This protein exhibits a unique specificity for steroidal estrogens: 2-methoxyestriol greater than estradiol greater than estriol = 2-methoxyestradiol greater than 2-hydroxyestradiol greater than estrone greater than 2-methoxyestrone greater than estriol 3-glucuronide greater than 2-hydroxyestrone = 3-methoxyestriol greater than androstanediol greater than dihydrotestosterone greater than testosterone. Other androgens such as androstenedione and methyltrienolone, nonsteroidal estrogens such as diethylstilbestrol, and the antiestrogens tamoxifen and 4-hydroxytamoxifen do not compete for [3H]estradiol ([3H]E2) binding. MEB is a relatively small-molecular-weight protein with a Sr of 20.4 A as determined by gel filtration on Sephadex G-100. The kinetics of [3H]E2 association and dissociation at 4 degrees C are very rapid, with t1/2 values of less than 5 s. Sodium molybdate, generally used to stabilize steroid receptors, inhibits MEB-[3H]estradiol binding activity in cytosol in a time- and dose-dependent manner, an effect not observed with partially purified MEB. Magnesium chloride inhibits binding activity of the Sephadex G-100 MEB pool, an effect reversed by EDTA. Other divalent cations also inhibit binding: Mn2+ greater than Mg2+ greater than Ca2+. Furthermore, EDTA complexes of these cations slightly enhance binding relative to EDTA alone: Ca2+ EDTA greater than Mg2+ EDTA greater than Mn2+ EDTA. These results demonstrate that MEB is a unique sex-steroid binding protein, albeit of unknown function, which is distinct from hepatic steroid receptors.     

Translocatable estrogen receptors in rat splenocytes

Estradiol has previously been shown to suppress the response of the cellular immune system of the rat while enhancing the production of IgM antibodies. Analysis of the cytosol from rat splenocytes showed saturation of specific binding sites at concentrations of between 80 and 160 nM [3H]-estradiol with an approximate Kd of 12 nM. Competitive binding studies showed a dose-dependent decrease in the binding of [3H]-estradiol to the receptor in the presence of increasing concentrations of unlabeled estradiol. Dexamethasone, progesterone and R1881 (synthetic androgen) had no effect on the binding of [3H]-estradiol. The in vivo administration of estradiol resulted in increased nuclear binding of [3H]-estradiol as compared to vehicle treated controls. These results indicate that rat splenocytes possess specific, translocatable estrogen receptors which may be responsible for the observed modulation of the immune system.     

Binding of [3H]methyltrienolone to androgen receptor in rat liver

The synthetic androgen methyltrienolone is superior to testosterone and androstenedione for the measurement of androgen receptor in tissues where the native ligands are metabolized into inactive derivatives. [³H]Methyltrienolone binds with a high affinity to androgen receptor in cytosol prepared from male rat livers, as the Scatchard analysis revealed that the K_d value was 3.3 · 10^?8 M and the number of binding sites was 35.5 fmol/mg protein. Since methyltrienolone also binds glucocorticoid receptor which exists in rat liver, the apparent binding of androgen receptor is faulty when measured in the presence of glucocorticoid receptor. The binding of methyltrienolone to glucocorticoid receptor can be blocked by the presence of a 100-fold molar excess of unlabeled synthetic glucocorticoid, triamcinolone acetonide, without interfering in its binding to androgen receptor, because triamcinolone does not bind to androgen receptor. Triamcinolone-blocked cytosol exhibited that the K_d value was 2.5 · 10^?8 M and the number of binding sites was 26.3 fmol/mg protein, indicating a reduction to $\text{3}\text{4}$ of that in the untreated cytosol. The profile of glycerol gradient centrifiguration indicated that [³H]methyltriemolone-bound receptor migrated in the 8–9 S region in both untreated and triamcinolone-blocked cytosols, but the 8–9 S peak in triamcinolone-blocked cytosol was reduced to about $\text{3}\text{4}$ of that of untreated cytosol.     

Studies of kidney plasma membrane adenosine-3′,5′-monophosphate-dependent protein kinase

Porcine kidney cortex was utilized for the preparation of plasma-membrane-enriched and soluble cytoplasmic (cytosol) fractions for the purpose of examining the relative properties of cyclic [³H]AMP receptor and cyclic AMP-dependent protein kinase activities of these preparations. The affinity, specificity and reversibility of cyclic [³H]AMP interaction with renal membrane and cytosol binding sites were indicative of physiological receptors.Binding sites of cytosol and deoxycholate-solubilized membranes were half-saturated at approx. 50nM and 100 nM cyclic [³H]AMP. Native plasma membranes exhibited multiple binding sites which were not saturated up to 1 mM cyclic [³H]AMP. Modification of the cyclic phosphate configuration or 2′-hydroxyl of the ribose moiety of cyclic AMP produced a marked reduction in the effectiveness of the cyclic AMP analogue as a competitor with cyclic [³H]AMP for renal receptors. The cyclic [³H]AMP interaction with membrane and cytosol fractions was reversible and the rate and extent of dissociation of bound cyclic [³H]AMP was temperature dependent. With the plasma-membrane preparation, dissociation of cyclic [³H]AMP was enhanced by ATP or AMP.Assay of both kidney subcellular fractions for protein kinase activity revealed that cyclic AMP enhanced the phosphorylation of protamine, lysine-rich and arginine-rich histones but not casein. The potency and efficacy of activation of renal membrane and cytosol protein kinase by cyclic AMP analogues such as N⁶-butyryl-adenosine cyclic 3′,5′-monophosphate or N⁶,O²-dibutyryl-adenosine cyclic 3′,5′-monophosphate supported the observations on the effectiveness of cyclic AMP analogues as competitors with cyclic [³H]AMP in competitive binding assays.This study suggested that the membrane cyclic [³H]AMP receptors may be closely associated with the membrane-bound catalytic moiety of the cyclic AMP-dependent protein kinase system of porcine kidney.     

Identification of an androgen receptor in the adult chicken oviduct

The chicken oviduct androgen receptor was characterized by sucrose density gradient centrifugation, Scatchard analysis, competition studies, and affinity labeled with dihydrotestosterone 17 beta-bromoacetate. A specific 8.5 S peak was seen on 0.01 M KCl sucrose density gradients when the receptor was labeled with [3H]5 alpha-dihydrotestosterone. Specific 4.6 S peaks were seen when receptor labeled with [3H]5 alpha-dihydrotestosterone or [3H]dihydrotestosterone 17 beta-bromoacetate was analyzed on 0.3 M KCl sucrose density gradients. Scatchard analysis of [3H]5 alpha-dihydrotestosterone binding by oviduct cytosol was consistent with two binding sites. A Kd of 0.13 nM was found for the high affinity androgen receptor. Competition studies showed the following order of ligand affinity: 5 alpha-dihydrotestosterone greater than dihydrotestosterone 17 beta-bromoacetate greater than progesterone greater than estradiol. A 61.2 kDa protein was specifically covalently labeled with [3H]dihydrotestosterone 17 beta-bromoacetate. The chicken oviduct androgen receptor possesses characteristics similar to other androgen receptors, and provides a good source of androgen receptor for physicochemical studies of the native receptor protein.     

Steroid metabolism and binding activity in a murine renal tumor cell line

The purpose of this study was to partially characterize the steroid binding activity of murine renal tumor cells in continuous culture. The steroid receptor content of a cloned renal tumor cell line (RAG) and a subline RAG-2 was examined by sucrose gradient analysis, hydroxylapatite and dextran-coated charcoal methods. The RAG cells lacked estrogen- and progestin-binding activity, whereas specific 5 alpha-dihydrotestosterone (DHT) and dexamethasone (Dx) binding activities were detected as 8S peaks on low salt gradients. The specificity of DHT binding was examined by sucrose gradient analysis: DHT, R1881 and ORG2058 all completely inhibited [3H]DHT binding whereas diethylstilbestrol and Dx were ineffective. The androgen receptor content of the RAG cells was approx. 15 fmol/mg cytosol protein by the hydroxylapatite-filter assay, with an estimated Kd for methyltrienolone (R1881) of 5 nM at 0 degrees C. Scatchard analysis of [3H]Dx binding by RAG cytosol showed a Kd of 6 nM for Dx and 44 nM for corticosterone at 0 degrees C. Glucocorticoid receptor levels were estimated to be 182 fmol/mg cytosol protein by dextran-coated charcoal assay. Metabolism of [3H]testosterone and [3H]DHT by RAG cells was examined 1, 4 and 6 h after exposure to labeled hormone. Radioactive DHT was the primary intracellular metabolite recovered after exposure to [3H]testosterone. There was little conversion of DHT to androstanediol.     

Identification of α2 adrenergic receptors in human frontal cortex membranes by binding of [H]RX 821002, the 2-methoxy analog of [H]idazoxan

The antagonist [³H]idazoxan binds with comparable affinity to α₂ adrenergic receptors and to phentolamine-displaceable non-stereoselective sites in human frontal cortex membranes. In contrast, idazoxan analogs possessing alkyl and alkoxy substituents at the 2-position of the benzodioxan moiety (i.e. RX 821002: 2-methoxy-1,4-[6,7-³H]benzodioxan-2-yl-2-imidazolin HCl, 43.8 Ci/mmol) possess 300–1200 times lower affinity for the non-stereoselective sites. Their affinity for the α₂ receptors is increased as well, resulting in more than a 1000-fold selectivity towards the receptors as compared to the non-stereoselective sites. [³H]RX 821002, the 2-methoxy analog of idazoxan possesses an approx. 10-fold higher affinity for the α₂ receptors (K_D = 2.8 nM than [³H]idazoxan (K_D = 24 nM) and about equal affinity as [³H]rauwolscine (K_D = 3.6 nM).[³H]Rauwolscine binds with comparable affinity to α₂ receptors and to 5-HT_1A receptors, and competition studies indicate that the K_i value of unlabelled RX 821002 for the 5-HT_1A receptors (30 nM) is about one order in magnitude above its K_i value for the α₂ receptors (4.1 nM). Labelling of the 5-HT_1A receptors by [³H]RX 821002 and by [³H]rauwolscine can be prevented by selective masking with 8-OH-DPAT (30 nM) or 5-HT (0.3 μM). Under these conditions, specific binding of [³H]RX 821002 to the α₂ receptors represents 84% of total binding (at its K_D), as compared to 77% for [³H]rauwolscine and 20% for [³H]idazoxan.[³H]RX 821002 labels the α₂ receptors as a single class of non-cooperative sites. Association and dissociation kinetics are very fast at 37°C. Antagonist competition curves are steep with Hill coefficients close to one and the agonist curves can be analysed in terms of two affinity sites, confirming the antagonistic properties of [³H]RX821002. About 60% of the α₂ receptors possess high agonist affinity.     

Steroid hormone receptor studies in melanoma model systems

The Transplantable B-16 melanotic melanoma carried in syngeneic C57B1/6J female mice and the Syrian hamster melanoma cell line, RPMI 3460, were utilized to determine whether steroid-hormone receptors are present in animal melanomas. In the B-16 melanoma, a cytoplasmic-estrogen receptor is detectable, but there is no evidence for androgen or progestin receptors. Some tumors contain a glucocorticoid-binding macromolecule. Sucrosedensity gradient centrifugation of cytosol after incubation with [³H]-estradiol revealed an 8S peak that was suppressed by excess radioinert diethylstilbesterol. Binding varied from 5–35 fmoles per mg cytosol protein. Scatchard analysis of [³H]-estradiol binding in cytosol yielded a single class of high-affinity binding sites; the dissociation constant is 6 × 10^?10 M. The receptor molecule is shown to be estrogen-specific by ligand competition assays. In contrast to B-16 melanoma, no estrogen, androgen, or progestin receptor can be found in the Syrian hamster melanoma cell line. However, a substantial level of specific binding is observed using [³H]-dexamethasone. Sucrose-gradient centrifugation of cytosol from this cell line after incubation with [³H]-dexamethasone revealed a 7S peak that was suppressed by excess radioinert dexamethasone. Scatchard analysis indicated a single class of high affinity sites with a dissociation constant of 2 × 10^?9 M. Binding levels from 70–610 fmoles per mg cytosol protein were observed. The Syrian hamster melanoma cells also exhibit a biological response to glucocorticoids: Dexamethasone causes both an inhibition of growth and a decrease in final-cell density in these cells.     

Selective labeling of alpha-noradrenergic receptors in rat brain with [3H]dihydroergokryptine.

Using concentrations of [³H] dihydroergokryptine between 0.1 and 5 nM, saturable binding can be demonstrated in rat cerebral cortical membranes with a dissociation constant (K_D) of about 0.8 nM. α-Noradrenergic agonists and antagonists compete for the sites labeled by these low concentrations of [³H] dihydroergokryptine with relative potencies characteristics of classical α-noradrenergic receptors. The very low potency of serotonin in competing for these binding sites indicates that, in contrast to findings with higher concentrations of [³H] DHE, low concentrations do not label serotonin receptors. Moreover, the low potency of dopamine in competing for [³H] dihydroergokryptine binding in both striatal and cortical membranes indicates that no detectable portion of binding is associated with postsynaptic dopamine receptors.     

Temperature-sensitive high affinity [3H]serotonin binding: Characterization and effects of antidepressant treatment

Characterization of temperature-sensitive [³H]serotonin (5-HT) binding sites (1 and 4 nM Kd sites) revealed complex inhibition by neuroleptics and serotonin antagonists. There was no simple correlation with affinities for S₁ and S₂ receptors. $\text{In vivo}$ pretreatment (48 h before) with mianserin did not alter Bmax or Kd for the 1 nM Kd [³H]5-HT site, although [³H]ketanserin (S₂) densities were decreased by 50%. This suggested that possible S₂ components of [³H]5-HT binding must be negligeable, even though ketanserin competed with high affinity (IC₅₀ = 3 nM) for a portion of the 1 nM Kd [³H]5-HT site. Low concentrations of mianserin inhibited the 1 nM Kd [³H]5-HT site in a non-competitive manner, as shown by a decrease in Bmax with no change in Kd after $\text{in vitro}$ incubation. The complex inhibition data may therefore represent indirect interactions through another site.     

Binding of [H]methyltrienolone to androgen receptor in rat liver

The synthetic androgen methyltrienolone is superior to testosterone and androstenedione for the measurement of androgen receptor in tissues where the native ligands are metabolized into inactive derivatives. [³H]Methyltrienolone binds with a high affinity to androgen receptor in cytosol prepared from male rat livers, as the Scatchard analysis revealed that the K_d value was 3.3 · 10⁻⁸ M and the number of binding sites was 35.5 fmol/mg protein. Since methyltrienolone also binds glucocorticoid receptor which exists in rat liver, the apparent binding of androgen receptor is faulty when measured in the presence of glucocorticoid receptor. The binding of methyltrienolone to glucocorticoid receptor can be blocked by the presence of a 100-fold molar excess of unlabeled synthetic glucocorticoid, triamcinolone acetonide, without interfering in its binding to androgen receptor, because triamcinolone does not bind to androgen receptor. Triamcinolone-blocked cytosol exhibited that the K_d value was 2.5 · 10⁻⁸ M and the number of binding sites was 26.3 fmol/mg protein, indicating a reduction to of that in the untreated cytosol. The profile of glycerol gradient centrifiguration indicated that [³H]methyltriemolone-bound receptor migrated in the 8–9 S region in both untreated and triamcinolone-blocked cytosols, but the 8–9 S peak in triamcinolone-blocked cytosol was reduced to about of that of untreated cytosol.     

Dopamine Receptors in Subcellular Fractions from Bovine Caudate: Enrichment of [3H]Spiperone Binding in a Postsynaptic Membrane Fraction

Abstract: Specific binding of tritiated dopamine, spiperone, and N-propylnorapomorphine was examined in subcellular fractions from bovine caudate nucleus. All fractions contained at least two sets of specific binding sites for [³H]spiperone (K_{D 1}^aPP= 0.2 nM, K_{D 2}^aPP= 2.2 nM), the higher affinity sites accounting for one-third to one-eighth of the total. [³H]Spiperone binding was slightly enriched over the total particulate fraction in P₂, P₃, SPM, and a crude fraction of synaptic mitochondria. A microsomal subfraction (P₃B₂) exhibited the highest specific binding capacity obtained, representing a fourfold enrichment over the total particulate fraction. [³H]Dopamine exhibited apparent binding to a single class of high-affinity sites in all fractions examined (K_D^aPP= 4.0 nM). A greater than twofold enrichment was observed in all fractions except myelin and P₃, with a fivefold enrichment in SPM and P₃B₂. At least two classes of receptors were labeled by [³H]-N-propylnorapomorphine (K_{D 1}^aPP= 0.55 nM, K_{D 2}^aPP= 20 nM), using 50 nM-spiperone together with 100 nM-dopamine to define nonspecific binding. Although binding to the higher affinity site was displaced by spiperone, and lower affinity binding by dopamine, comparison of receptor densities with values obtained by using [³H]spiperone and [³H]dopamine directly suggested that [³H]-N-propylnorapomorphine labeled additional sites. We have also examined a postsynaptic membrane (PSM) fraction obtained from SPM by successive extraction with salt and EGTA followed by sonication and separation on a density gradient. [³H]Spiperone binding in PSM was enriched two- to threefold over unfractionated SPM with a concomitant decrease in [³H]dopamine binding. The enrichment in spiperone receptors was almost entirely due to an increase in the number of lower affinity binding sites, suggesting that these sites may be associated with the postsynaptic membrane.     

Steroid hormone radioautography in cultured cells: Studies with Shionogi carcinoma 115

A radioautographical technique for the localization of soluble compounds in cultured cells is described. It has been used to investigate the distribution of steroid hormones in target cells, and an example is given with the Shionogi carcinoma SC-115, an androgen-sensitive mammary tumor in mice. Experiments at 37 °C have given direct evidence for the specific binding of [³H]-androstanolone (5α-dihydrotestosterone) in the cytoplasm. This result is based on the labeling after incubation with 0.5 nM radioactive androgen, on the isotope dilution-test showing a limited capacity, and on competition assays with other hormones. Results also show the transfer to and the specific binding of the hormone in the nucleus. No cellular labeling has been observed at 0 °C, even when using 10 nM of high specific activity [³H]androstanolone. The technique appears promising for the study of various aspects of the interactions between hormones and isolated cells.     

Two Classes of [3H]Spiperone Binding Sites in Bovine Neurohypophysis: D-2 Receptors and Putative 5-Ht2 Receptors

Abstract

Binding of [³H]spiperone was studied in membranes obtained from bovine neurohypophyses devoid of intermediate lobe tissue. Non-linear Scatchard plot suggested the presence of more than a single class of binding sites. Competition experiments using ketanserin, a ligand selective for 5-HT₂ receptors, were carried out to ascertain whether serotonergic, in addition to dopaminergic receptors, might be responsible for the heterogeneity of [³H]spiperone binding. Computer-assisted modeling suggested the presence of two classes of binding sites for ketanserin (K_a = 1.6 ± 0.2 and 366.7 ± 20.5 nM, respectively). The K_a value for ketanserin binding to the high-affinity sites, as well as the K_a of [³H]spiperone for these sites suggested by the 2 sites model indicate that they represent serotonin 5-HT₂ receptors. The [³H]spiperone K_a at the ketanserin low-affinity sites (65 ± 7 pM) and the rank order of inhibitory potencies for several antagonists show that the lowaffinity sites represent dopamine D-2 receptors.     

Heterogeneity of [3H]estradiol binding sites in the rat prostate: properties and distribution of type I and type II sites

In order to assess the rat prostate as a target tissue for receptor-mediated estrogen action, we have studied the properties and distributions of estrogen binding sites in the dorsolateral (DLP) and ventral (VP) prostate. Saturation analyses over a wide range of [3H]estradiol ([3H]E2) concentrations (0.5-100 nM) revealed two distinct types of binding sites in the cytosol and nuclear fractions of DLP of intact rats. The high affinity (type I) estrogen binding sites saturated at 2-4 nM of [3H]E2 and had a capacity of 170 fmol/mg DNA in the cytosol and 400 fmol/mg DNA in the nuclei. DLP type I sites had ligand specificity similar to that described for the classical estrogen receptors (ERs) found in female target tissues. The moderate affinity (type II) estrogen binding sites saturated at 15-30 nM of [3H]E2 and had a capacity of 850 fmol/mg DNA in the cytosol and 1600 fmol/mg DNA in the nuclei. DLP type II sites shared some characteristics of the type II ERs described for the rat uterus; they were estrogen specific, heat labile, and sensitive to reducing agents such as dithiothreitol. Saturation analyses on VP cytosols and nuclear fractions revealed only high affinity sites but no moderate affinity sites in the tissue preparations. Our finding that prostatic type II estrogen binding sites are present exclusively in the DLP supports the concept that basic biological differences exist between the two major prostatic lobes of the rat. Furthermore, our findings may help elucidate the observed differences in susceptibility between these two lobes to the hormonal induction of proliferative prostatic lesions.     

Intracellular Ca2+ stimulates the binding to androgen receptors in platelets

In this study, we demonstrated that ADP-induced platelet aggregation activates the binding of testosterone (T) to its receptor. It is well known that binding of ADP to its receptors induced the release of Ca2+ ions from dense bodies into the cytosol of platelets. In this work, we compared the binding of testosterone or dihydrotestosterone to their receptors using cytosol obtained from ADP-treated and non-treated platelets. These experiments were repeated using EGTA (a calcium chelator) or U73122 (a phospholipase C enzymatic activity inhibitor) to the ADP-treated platelets. In addition, we also developed a competition analysis for the androgen receptors (AR) using [3H]DHT, non-radioactive T, DHT or cyproterone acetate from ADP-treated platelets cytosol. The results from this study indicate that the cytosol obtained from non-ADP-treated platelets did not show any binding to [3H]T or [3H]DHT, whereas cytosol from ADP-treated platelets binds to the radio-labeled androgens. Furthermore cytosol from ADP plus U73122-treated platelets did not show binding to [3H]T or [3H]DHT. These data suggest that intracellular Ca2+ ions stimulates the binding of androgens to their receptors in platelets cytosol. The competition analysis shows that T and DHT have high affinities for the androgen receptors with similar IC50 values, whereas cyproterone acetate shows a lower affinity. The results from these data clearly indicate the presence of androgen receptors in platelets.