Nuclear type II [3H]estradiol binding site ligands: inhibition of ER-positive and ER-negative cell proliferation and c-Myc and cyclin D1 gene expression

These studies assessed the effects of 3,4-dihydroxybenzalacetone (ZN-1) and 1-(3,4-dihydroxyphenyl)-2-propanol (ZN-2) on MCF-7 cell proliferation. The compounds blocked [3H]estradiol binding to nuclear type II sites, but did not compete for [3H]estradiol binding to recombinant ERalpha or ERbeta. ZN-1 and ZN-2 inhibited the proliferation of ERalpha and ERbeta positive (MCF-7) and negative (MCF-10A) breast cells, further ruling out direct binding to ER in the mechanism of action of these compounds. Pre-loading type II sites with ZN-1 or ZN-2 reduced [3H]estradiol exchange, strongly suggesting the drugs were binding covalently. ZN-1 treatment resulted in complete occupancy of type II sites and sustained (9 days) inhibition of MCF-7 cell proliferation following its removal from the tissue culture medium. This cell growth inhibition was not due to non-specific toxicity, as the numbers of viable, attached cells per dish (determined by trypan blue dye exclusion) remained constant throughout this 9-day period and eventually reversed by day 19. ZN-2 effects on cell proliferation reversed more rapidly following discontinuation of treatment, a response consistent with the inability of the compound to totally block type II binding. Both ZN-1 and ZN-2 blocked estradiol stimulation of c-Myc and cyclin D1 gene expression in MCF-7 cells, two events that are clearly coupled to cell cycle progression. We suspect this may occur through ZN-1 or ZN-2 modification of nucleosome function and/or chromatin remodeling since nuclear type II sites are localized to a complex of histones H3 and H4 (Shoulars et. al, J Steroid Biochem. Mol. Biol. 96: 19-30, 2005).     

Bioflavonoid interaction with rat uterine type II binding sites and cell growth inhibition

Competition analysis with a number of known bioflavonoids demonstrated that these compounds (luteolin, quercetin, pelargonin) compete for [3H]estradiol binding to cytosol and nuclear type II sites in rat uterine preparations. The inhibition of [3H]estradiol binding to type II sites was specific and these bioflavonoids did not interact with the rat uterine estrogen receptor. Since estradiol stimulation of nuclear type II sites in the rat uterus is highly correlated with cellular hypertrophy and hyperplasia, we assessed the effects of these compounds on the growth of MCF-7 human breast cancer cells in culture and on estradiol stimulation of uterine growth in the immature rat. The data demonstrated that addition of quercetin (5-10 micrograms/ml) to MCF-7 cell cultures resulted in a dose-dependent inhibition of cell growth (DNA/flask). This effect was reversible by removal of quercetin from the culture medium, or by the addition of 10 nM estradiol-17 beta to these cell cultures containing this bioflavonoid. Since estradiol-17 beta (10 nM) stimulated nuclear type II sites and proliferation of MCF-7 cells, we believe bioflavonoid inhibition of MCF-7 cell growth may be mediated through an interaction with nuclear type II sites. This hypothesis was confirmed by in vivo studies which demonstrated that injection of luteolin or quercetin blocked estradiol stimulation of nuclear type II sites in the immature rat uterus and this correlated with an inhibition of uterine growth (wet and dry weight). These studies suggest bioflavonoids, through an interaction with type II sites, may be involved in cell growth regulation.     

11 beta-chloromethyl-[3H]estradiol-17 beta: a very high affinity, reversible ligand for the estrogen receptor

It has been suggested that binding of 11 beta-chloromethyl estradiol (11 beta-CME2) to the estrogen receptor is irreversible, since its complex with receptor fails to undergo exchange with estradiol (E2). To investigate this behavior directly, 11 beta-CME2 was prepared in high specific activity, tritium-labeled form: The binding of [3H]11 beta-CME2 to the estrogen receptor from lamb and rat uterus and MCF-7 human breast cancer cells was shown to be fully reversible; the 11 beta-CME2 complex with receptor, as well as that of a structural analog 11 beta-ethyl estradiol, however, do not dissociate or exchange with [3H]E2 over a 22 h period at 25 degrees C. By competitive or direct binding assays, the affinity of 11 beta-CME2 for the estrogen receptor can be estimated to be as much as 10- to 30-fold higher than that of E2. The complexes of estrogen receptor from MCF-7 cells with [3H]11 beta-CME2 and [3H]E2 show identical velocity sedimentation profiles on sucrose gradients, under conditions when the receptor is either a monomer of a dimer. Because of its very high affinity and unusual dissociation kinetics, [3H]11 beta-CME2 should be a very useful ligand for studies of estrogen receptor dynamics and in the assay of estrogen receptor concentrations in tumors and tissues.     

Two sex steroid receptors in SC-115 mammary tumor cells

The growth of the SC-115 mammary carcinoma in mice is androgen dependent. Estrogens antagonize the androgen effect. The high affinity binding of androgens and estrogens has been studied in soluble extracts of the tumor, of primary culture cells and clone MI₁ cells.Results indicate that two distinct specific steroid hormone-binding sites (termed ‘receptors’) are found in all cytosol fractions. The androgen-receptor (A) binds testosterone, androstanolone, cyproterone (an anti-androgen), progesterone and estradiol, but only very weakly non-steroidal diethylstilbestrol. The estrogen-receptor (E) binds estrogenic substances such as estradiol and diethylstilbestrol, but no androgen. The apparent K_{D, eq} for A and E receptors of [³H]androstanolone and [³H]estradiol respectively, is identical (-0.5-1 nM at 4 °C). The affinity of estradiol for the A-receptor, when measured against [³H]androstanolone binding, indicates a K_i = 17.5 nM. The concentration of binding sites is of the order of 0.1 pmole/mg protein (somewhat higher for A than for E receptor) in MI₁ cell cytosol. Studies by ultracentrifugation through glycerol-Tris gradients (low salt medium) reveal the macromolecular nature of the cytosol A and E receptors (7–7.5 S). Evidence is presented of the transfer of the A and the E receptors to nuclei after incubation of tumor slices as well as of clone MI₁ cells with the corresponding hormones.Experiments suggest that the two different binding sites are present on two separated macromolecular moieties. After incubation at 37 °C of tumor slices with 10–20 nM [³H]testosterone, or with 10 nM [³H]estradiol, the corresponding radioactive hormone-receptor complexes are, as expected, found in the nuclear KCl extracts. In parallel experiments, where slices are incubated with non-radioactive hormones at the same concentration and the nuclear KCl extracts subsequently treated by radioactive steroids, no available androgen-binding sites are found in the nuclei after exposure to estradiol, nor estrogen-binding sites after exposure to testosterone.Therefore, in the same cell, two receptors are present which bind androgens and estrogens with high affinity, and one given hormone (estradiol) can be specifically bound (with different affinities) by two different receptors which, however, discriminate a synthetic analog (diethylstilbestrol). The data may give some molecular background for interpreting responses to the same hormone which may differ at various concentrations, for studying effects of analogs, and for analysing the control of tumor growth by antagonistic steroids.     

Effect of insulin at dilution endpoint concentrations on macromolecular synthesis in normal mouse mammary and human breast cancer epithelial cells

Employing defined media conditions, the insulin sensitivities of mouse mammary gland epithelial cells in primary culture and MCF-7 human mammary epithelial cells were determined. Insulin stimulated the rates of [³H]uridine incorporation into RNA and [³H]leucine incorporation into protein in both primary mouse mammary gland epithelial cell cultures and MCF-7 cell cultures at concentrations approximating the dilution endpoint of the hormone (10⁻²¹ M). Insulin stimulated the rate of [³H]thymidine incorporation into DNA in primary mouse mammary gland epithelial cells at the dilution endpoint concentrations. However, MCF-7 cells required insulin concentrations 100–1000-times that necessary in mouse mammary epithelial cultures to elicit an increased rate of [³H]thymidine incorporation into DNA. Evidence is presented which suggests that the increased rates of uptake of [³H]uridine, [³H]thymidine and [³H]leucine into their respective precursor pools is not responsible for the apparent stimulatation of RNA, DNA and protein synthesis.     

Comparative studies of 5α-reductase inhibitors within MCF-7 human breast cancer cells

We have compared the inhibitory effects of six synthetic steroid analogs (17β-carboxy-4-androsten-3-one benzylanilide (VP-1), 17α -acetoxy-6-methylene-4-pregnene-3, 20-dione (VP-2), 6-methylene-4-pregnene-3, 20-dione (VP-3), 17β-acetoxy-6-methylene-4-androsten-3-one (VP-4), 17β -acetoxy-16, 16-dimethyl-6-methylene-4-androsten-3-one (VP-5), and 3β-hydroxy-16-methylene-5-androsten-17-one (VP-6)) upon 5α-reductase activity within MCF-7 human breast cancer cells and rat prostate. Enzyme assays were performed by quantifying the amounts of [³H]5α-androstan-3α-17β-diol and/or [³H]dihydrotestosterone formed from 40 nM [³H]testosterone within each system. Five μM concentrations of VP-2 and VP-3 inhibited prostatic 5α-reductase by 55 and 65%, respectively, whereas the other analogs showed little activity. In contrast, each of the six analogs was active against MCF-7 homogenate 5α reductase activity. VP-2 and VP-4 demonstrated approx 65 and 70% inhibitions, respectively, whereas the other four compounds inhibited enzyme activity by 40–55% in this system. These results suggest that rat prostate and MCP-7 cells contain different 5α-reductase isozymes. When these agents were examined for 5α-reductase inhibitory activity following 1 h preincubations with intact MCF-7 cultures, VP-1 and 3 demonstrated potencies similar to those in MCF-7 homogenate. The other compounds, however, were far less active under these conditions. Longer culture preincubations (16 h) were associated with substantially increased VP-6 potency, moderate increases for VP-4 and 5, but no change in VP-2 activity. Additional studies examining the abilities of these agents to bind to MCF-7 androgen receptor (AR) and progesterone receptor (PR) revealed moderate AR binding activities of VP-2, 3, and 4, and substantial PR binding for VP-2 and 3. Finally, VP-4 failed to inhibit estrogen-dependent MCF-7 PR synthesis, suggesting that it has no androgenic activity despite its ability to interact with MCF-7 AR.     

Characterization of 5-HT transporter and receptor system in HeLaS3 cells by [H]8-OH-DPAT and other serotonergic ligands

[³H]8-OH-DPAT is a selective ligand for labeling 5-HT_1A receptor sites. In competition binding experiments, we found that classic biogenic amine transporter inhibitors displaced [³H]8-OH-DPAT binding at its high-affinity binding sites in HeLaS3 cells. [¹²⁵I]RTI-55 and [³H]paroxetine are known to specifically label amine transporter sites, and this was observed in our cells. Displacement studies showed that 8-OH-DPAT displayed affinity in a dose-dependent manner for the labeled amine transporter sites. These data suggest that [³H]8-OH-DPAT binds to amine uptake sites in HeLaS3 cells. A variety of drugs targeting different classes of receptors did not significantly affect [³H]8-OH-DPAT binding. Moreover, we determined the specific binding effects of various serotonergic ligands (i.e. [¹²⁵I]cyanopindolol, [³H]ketanserin/[³H]mesulergine, [³H]GR-65630, [³H]GR-113808 and [³H]LSD) that specifically labeled 5-HT₁, 5-HT₂, 5-HT₃, 5-HT₄ and 5-HT_5–7 receptors, respectively. It is suggested that HeLaS3 cells contain distinct types of the related to 5-HT receptor recognition binding sites. These observations could help elucidate the relevant characteristics of different types of 5-HT receptors and 5-HT membrane transporters in tumor cells and their role in tumorigenesis.     

The estriol-induced inhibition of the estrogen receptor's positive cooperativity

The effect of estriol on the positive cooperativity of [³H]estradiol binding to the partially purified calf uterine estrogen receptor was investigated using the kinetic analysis of Sasson and Notides (J. biol. Chem. 257 1982, 11540). The receptor was titrated with variable concentrations of [³H]estradiol with or without estriol; the estriol was maintained in a constant molar ratio to the [³H]estradiol concentration. A 4-fold molar excess of estriol above the [³H]estradiol concentrations inhibited the receptor's cooperative [³H]estradiol binding. In the absence of estriol, the [³H]estradiol receptor interaction was highly cooperative, the Scatchard plot was convex and the Hill coefficient was 1.61 ± 0.02a. In the presence of sufficient estriol to reduce the maximally bound [³H]estradiol to 77%, the Scatchard plot was linear and the Hill coefficient was 1.04 ± 0.04. The inhibition of the cooperative [³H]estradiol binding by estriol was not due to isotope dilution of the specifically bound [³H]estradiol by the unlabeled estriol.These data demonstrate that the cooperative binding of ³H]estradiol by the receptor that is characteristic of the equilibrium between the two states of the receptor (active and nonactive) is eliminated by the presence of estriol. This finding is consistent with the agonist/antagonist activity of estriol observed in vivo.     

Rapid and sensitive detection of oestrogen receptors in cells and tissue sections by autoradiography with 125I-oestradiol

Summary The presence of receptors for steroid hormones in individual cells and tissue sections was assessed within 4–24 h using dry mount autoradiography with radio-iodinated oestradiol. Low affinity and nonspecific binding of steroids were significantly reduced by washing the cells or sections with diluted antiserum to oestradiol.For cells of the MCF-7 cell line variations in grain density were observed, indicating that cells of the MCF-7 cell line are heterogenous with respect to their cellular receptor concentrations of oestrogen receptors. Receptor-negative cells, such as peritoneal macrophages, did not retain oestradiol label.In tissue sections of rat and calf uterus, predominant labelling was observed on the endometrial gland cells and stroma.Oestradiol receptor binding in the uterus cytosol for both radio-iodinated and tritiated oestradiol showed the same qualitative characteristics as determined by sucrose gradient sedimentation profiles and a comparable amount of binding sites was found for both labels. The relative binding affinity of¹²⁵I-oestradiol compared to [³H]oestradiol is about 70–80%.The dry mount autoradiographic technique as presented can be used for rapid screening of heterogeneiety in oestrogen receptor distribution in cells and tissue sections, since this technique reveals differences in receptor concentrations on the single cell level.     

Estrogenic effect of phenol red in MCF-7 cells is achieved through activation of estrogen receptor by interacting with a site distinct from the steroid binding site

MCF-7 cells serially subcultured in media containing phenol red show poor stimulation of progesterone receptor (PR) synthesis in response to estradiol compared to cells grown in phenol red-free media. Phenol red, when added to cytosol, did not compete with [3H]estradiol for estrogen binding sites in concentrations ranging from 2 microM-1 mM. However 25 microM of the dye was sufficient to increase nuclear translocation of estrogen receptor (ER) in the intact cell. Phenol red activates cytoplasmic ER as indicated by DNA-cellulose binding studies. When cells grown in phenol red-free medium were exposed to phenol red for 48 h, PR levels increased in a dose dependent manner. From these data, it may be concluded that phenol red causes estrogenic effect in MCF-7 cells through activation of cytoplasmic receptor by interacting at a site distinct from the steroid binding site.     

Modulation of function of three ABC drug transporters, P-glycoprotein (ABCB1), mitoxantrone resistance protein (ABCG2) and multidrug resistance protein 1 (ABCC1) by tetrahydrocurcumin, a major metabolite of curcumin

Many studies have been performed with the aim of developing effective resistance modulators to overcome the multidrug resistance (MDR) of human cancers. Potent MDR modulators are being investigated in clinical trials. Many current studies are focused on dietary herbs due to the fact that these have been used for centuries without producing any harmful side effects. In this study, the effect of tetrahydrocurcumin (THC) on three ABC drug transporter proteins, P-glycoprotein (P-gp or ABCB1), mitoxantrone resistance protein (MXR or ABCG2) and multidrug resistance protein 1 (MRP1 or ABCC1) was investigated, to assess whether an ultimate metabolite form of curcuminoids (THC) is able to modulate MDR in cancer cells. Two different types of cell lines were used for P-gp study, human cervical carcinoma KB-3-1 (wild type) and KB-V-1 and human breast cancer MCF-7 (wild type) and MCF-7 MDR, whereas, pcDNA3.1 and pcDNA3.1-MRP1 transfected HEK 293 and MXR overexpressing MCF7AdrVp3000 or MCF7FL1000 and its parental MCF-7 were used for MRP1 and MXR study, respectively. We report here for the first time that THC is able to inhibit the function of P-gp, MXR and MRP1. The results of flow cytometry assay indicated that THC is able to inhibit the function of P-gp and thereby significantly increase the accumulation of rhodamine and calcein AM in KB-V-1 cells. The result was confirmed by the effect of THC on [³H]-vinblastine accumulation and efflux in MCF-7 and MCF-7MDR. THC significantly increased the accumulation and inhibited the efflux of [³H]-vinblastine in MCF-7 MDR in a concentration-dependent manner. This effect was not found in wild type MCF-7 cell line. The interaction of THC with the P-gp molecule was clearly indicated by ATPase assay and photoaffinity labeling of P-gp with transport substrate. THC stimulated P-gp ATPase activity and inhibited the incorporation of [¹²⁵I]-iodoarylazidoprazosin (IAAP) into P-gp in a concentration-dependent manner. The binding of [¹²⁵I]-IAAP to MXR was also inhibited by THC suggesting that THC interacted with drug binding site of the transporter. THC dose dependently inhibited the efflux of mitoxantrone and pheophorbide A from MXR expressing cells (MCF7AdrVp3000 and MCF7FL1000). Similarly with MRP1, the efflux of a fluorescent substrate calcein AM was inhibited effectively by THC thereby the accumulation of calcein was increased in MRP1-HEK 293 and not its parental pcDNA3.1-HEK 293 cells. The MDR reversing properties of THC on P-gp, MRP1, and MXR were determined by MTT assay. THC significantly increased the sensitivity of vinblastine, mitoxantrone and etoposide in drug resistance KB-V-1, MCF7AdrVp3000 and MRP1-HEK 293 cells, respectively. This effect was not found in respective drug sensitive parental cell lines. Taken together, this study clearly showed that THC inhibits the efflux function of P-gp, MXR and MRP1 and it is able to extend the MDR reversing activity of curcuminoids in vivo.     

Binding of [3H]batrachotoxinin A-20-α-benzoate and [3h]saxitoxin to receptor sites associated with sodium channels in trout brain synaptoneurosomes

1. [³H]Batrachotoxinin A-20-α-benzoate ([³H]BTX-b) and [³H]saxitoxin ([³H]STX), radioligands that bind to distinct sites on the voltage-sensitive sodium channel, were bound specifically to saturable sites in rainbow trout (Oncorhynchus mykiss) brain synaptoneurosomes.2. Specific [³H]BTX-B binding was temperature dependent with highest levels of specific [³H]BTX-B binding observed at 7°C. Specific binding was inversely correlated with assay temperature at temperatures above 7°C.3. Saturating concentrations of scorpion (Leiurus quinquestriatus) venom (ScV) stimulated specific [³H]BTX-B binding at 27°C, but not at 7°C. The dihydropyrazole insecticide RH 3421 inhibited specific [³H]BTX-B binding at 7°C but had no effect on specific binding at 27°C. The sodium channel activators veratridine and aconitine and the local anesthetic dibucaine inhibited specific [³H]BTX-B binding at both 7°C and 27°C.4. Displacement experiments in the presence of ScV at 27°C gave an equilibrium dissociation constant (K_d) for [³H]BTX-B of 710 nM and a maximal binding capacity (B_max) of 11.3 pmol/mg protein. Kinetic experiments established the rates of association (1.17 × 10⁵min⁻¹ nM⁻¹) and dissociation (0.0514min⁻¹) of the ligand-receptor complex.5. The binding of [³H]STX reached apparent saturation at 7.5 nM. Scatchard analysis of the saturation data indicated a K_d of 3.8nM and a B_max of 1.9 pmol/mg protein.6. These studies provide evidence for high affinity, saturable binding sites for [³H]BTX-B and [³H]STX in trout brain preparations. Whereas certain neurotoxins modified the specific binding of [³H]BTX-B in trout brain synaptoneurosomes in a predictable fashion, other compounds known to affect specific [³H]BTX-B binding in mammalian brain preparations had no effect on specific [³H]BTX-B binding in the trout.     

[3H]-BIBP3226 and [3H]-NPY Binding to Intact SK-N-MC Cells and CHO Cells Expressing the Human Y1 Receptor

Abstract

We have studied the binding of [³H]-NPY and the newly developed non-peptide Y₁ receptor antagonist [³H]-BIBP3226 to intact SK-N-MC cells and CHO-K1 cells transfected with the human NPY Y₁ receptor gene i.e. CHO-Y1 cells. Whereas the association and dissociation of the specific [³H]-NPY binding was slow, the binding kinetics of [³H]-BIBP3226 binding was very rapid. Saturation binding of both radioligands reveal the presence of an apparently homogeneous population of high affinity binding sites in both cell lines. The corresponding equilibrium dissociation constants are similar for the two cell lines and are close to those obtained from previous competition binding experiments. The specific binding of both radioligands was completely and with high affinity displaced by BIBP3226 and its inactive (S)-enantiomer BIBP3435 was much less potent. Whilst the NPY Y₁ agonists NPY, PYY and [Leu³¹-Pro³⁴]-NPY completely and potently displaced [³H]-NPY binding, they could only displace 70 to 80 % of the [³H]-BIBP3226 binding sites in CHO-Y1 and SK-N-MC cells. A possible explanation can be that only part of the receptors are G-protein coupled. In agreement pertussis toxin was found to reduce high affinity [³H]-NPY binding sites in CHO-Y1 cells whereas [³H]-BIBP3226 binding parameters remained unchanged.     

High affinity estrogen binding by rabbit liver

Macromolecular binding components for [³H]estradiol-17β are present to cytosol prepared from rabbit liver. When cytosol from sexually mature male liver was incubated with [³H]estradiol and analyzed for binding on low ionic strength sucrose gradients, two peaks of binding activity were detected. One peak had a sedimentation coefficient of 4–5 S and the other had a sedimentation coefficient of 8–9 S. The two components differed from each other regarding steroid specicity and various physiocochemical parameters. [³H]-estradiol binding to the 4–5 S component was not inhibited by estrogens, 5α-dihydrotestosterone, progesterone or cortisol. Binding to this component did not appera to be saturable and lavel was rapidly stripped from it by cahrcoal. Estradiol bindng to the 8–9 S component was estrogen specific, saturable and of high affinity. The specific binder dissociates on high ionic strength sucrose gradients and sediments as a 4–5 S moiety. The specific binding protein has a K_d of 3.05 · 10⁻¹⁰ M and a dissociation half-time of 33 h and there are 35.2 fmol of binding sites/mg cytosol protein. Estrogen binders are also present in liver cytosol from sexually mature female and sexually immature male rabbits. During prolonged incbuation of [³H]estradiol with mature male liver cytosol at 0–5°C polar metabolites of estradiol are produced.     

Characteristics of β-adrenergic-agonist binding to rat adipocyte membranes: Evidence that (±)-[3H]hydroxybenzylisoproterenol interacts selectively with the adipocyte β-adrenergic receptors

The binding characteristics of the β-adrenergic agonist $\text{(±)-[}{}^3\text{H]hydroxybenzylisoproterenol}$ to rat adipocyte membranes were studied. Binding was rapid, reaching equilibrium within 10 min at 37°C (second order rate constant k₁=1.37·10⁷·M^?1·min^?1). Dissociation of specific binding by 0.5 mM (?)-isoproterenol suggested dissociation from two different sites with respective dissociation rate constants k₂ of 0.106·min^?1 and 0.011·min^?1.[³H]Hydroxybenzylisoproterenol binding was saturable (B_max=690±107 fmol/mg protein), yielding curvilinear Scatchard plots. Computer modeling of these data were consistent with the existence of two classes of [³H]hydroxybenzylisoproterenol binding sites, one having high affinity (K_D=3.5±0.7 nM) but low binding capacity (10% of the total sites) and one haveing low affinity (K_D=101±20 nM) but high binding capacity (90% of the sites). Adrenergic ligands competed with [³H]hydroxybenzylisoproterenol binding with the following order of potency=(?)-propranolol>(?)-isoproterenol>(?)-norepinephrine≈ (?)-epinephrine>>(+)-isoproterenol=(+)-propranolo, which is consistent with binding to β₁-adrenergic receptors. Competition curves of [³H]hydroxybenzylisoproterenol binding by the β-agonist (?)-isoproterenol were shallow and modeled to two affinity states of binding, whereas, competition curves by β-antagonist (?)-propranolol were steeper with Hill number near to one. Gpp[NH]p severely reduced [³H]hydroxybenzyl-isoproterenol binding, an effect which apparently resulted from the reduction of the number of both the high and low affinity sites. In membranes which had been previously exposed to (?)-isoproterenol, then number of [³H]hydroxybenzylisoproterenol binding sites was reduced by 50%, an effect which apparently resulted from the loss of part of both the high and low affinity state binding sites. Finally, the ability of (?)-isoproterenol to stimulate adenylate cyclase correlate closely with the ability of (?)-isoproterenol to displace [³H]hydroxybenzylisoproterenol binding. Comparison of these findings with the binding characteristics of the β-antagonist [³H]dihydroalprenolol to rat adipocyte membranes, led to conclude that [³H]hydroxybenzylisoproterenol can be successfully used to label the β-adrenergic receptors of rat fat cells and suggests that it might be a better ligand than [³H]dihydroalprenolol in these cells.     

Multiple binding states of muscarinic acetylcholine receptors in membranes from neuroblastoma X glioma hybrid cells

Membranes of neuron-like NG108-15 hybrid cells bind [³H]quinuclidinyl benzilate (QNB) with high affinity and specificity. Greater than 90% of total [³H]QNB binding is to sites having the pharmacological specificity of muscarinic acetylcholine receptors. Three significant features characterize the interaction of ligands with these sites: (1) Specific binding of [³H]QNB at equilibrium follows a simple adsorption isotherm with an apparent K_D of 1 × 10^?10 M; (2) Rates of [³H]QNB association and dissociation are biphasic and, as the binding reaction proceeds, the fraction of readily dissociable [³H]QNB decreases; (3) Competition against [³H]QNB for specific binding sites by antagonists gives a slope of 1 when analyzed on Hill plots, but competition for binding sites by agonists gives a slope of less than 1. A simple two-step model for activation is proposed to account for these features.     

Autoradiographic localization of strychnine-sensitive glycine receptor in bovine adrenal medulla

The presence of an uptake system and a functional glycine receptor in adrenal medulla chromaffin cells was investigated using an autoradiographic technique in adrenal gland slices. Specific³[H]-glycine binding was observed in both adrenal cortex and medulla slices, while only specific binding of [³H]strychnine was seen only in chromaffin cells and was not associated with cortical cells. [³H]Glycine binding sites in the cortex are apparently different from those of [³H]strychnine binding sites in the medulla since excess strychnine does not displace [³H]glycine from adrenal cortex but does so from medulla. This difference supports biochemical evidence for glycine transport into medulla cells and glycine receptor sites on the chromaffin cell membrane.     

Estradiol esters can replace 17 beta-estradiol in the stimulation of DNA and esterase synthesis by MCF-7 cells: a possible role for the estrogen-sensitive MCF-7 cell esterase

In this communication we extend our earlier observations on estrogen-sensitive carboxyl esterases in MCF-7 human breast cancer cells able to hydrolyze esters of estradiol. Using either estradiol acetate or p-nitrophenyl hexanoate as substrates, esterase activity was found to increase 2-3-fold in MCF-7 cells maintained in the presence of 10(-8) M estradiol. Following sucrose density centrifugation, over 85% of total esterase activity was found in the cytoplasmic fraction. No esterase activity was found in spent media from growing cells. By size exclusion chromatography, estradiol acetate esterase activity exhibited a mol. wt of 45-50 kDa. Attempts to demonstrate incorporation of [3H]estradiol into estradiol fatty acid esters by the above MCF-7 cell line (203P) were unsuccessful, although, such incorporation could be demonstrated in two other MCF-7 cell sublines. Incubation of the 203P cells with 10 nM [3H]estradiol in the presence of 0.5 mM radioinert estradiol acetate resulted in the incorporation of 35 +/- 12% of the label into the estradiol acetate in 10 min. In the absence of radioinert estradiol acetate, no incorporation was observed. When MCF-7 cells were incubated with [3H]estradiol in the presence of a large excess of radioinert estradiol valerate, label was found only in estradiol valerate. Similarly, when the incubation was carried out in the presence of a mixture of radioinert estradiol acetate and valerate, label was incorporated into both esters. We conclude that the apparent formation of radiolabeled estradiol esters by MCF-7 cells incubated under the above conditions, results at least in part, from an esterase-catalyzed exchange reaction. Under conditions where no ester hydrolysis could be detected in the absence of cells, valerate and stearate esters of estradiol were found to be as effective as unesterified estradiol in stimulating esterase synthesis and the incorporation of [3H]thymidine into DNA. These results are consistent with a model in which an intracellular esterase in MCF-7 cells can generate estradiol from an exogenous lipoidal steroid and elicit an estrogen response.     

Direct studies of beta-adrenergic receptors intact frog erythrocytes.

(?) [³H]Dihydroalprenolol, a potent competitive β-adrenergic antagonist can be used to directly study β-adrenergic receptors by ligand binding techniques in an intact cell system, the frog erythrocyte. At 37°, binding reached equilibrium within 1 minute. Upon addition of excess unlabeled propranolol, complete dissociation of receptor bound ligand occurred within 1 minute. The characteristics of (?) [³Hdihydroalprenolol binding to β-adrenergic receptors in intact cells were quite similar to those previously demonstrated with isolated membrane fractions. The equilibrium dissociation constant for (?) [³H]dihydroalprenolol was 1.5 nM. Order of potency of agonists and antagonists in competing for the binding sites was appropriate for the β-adrenergic receptor as was the stereospecificity of binding ((?) isomers more potent than (+) isomers). Saturation studies with these intact cells indicated 1700 binding sites/cell in excellent agreement with the number previously estimated from membrane studies. Preincubation of cells with 10^?5M isoproterenol produced a 36% fall in number of β-adrenergic receptors. It is concluded that (?) [³H]dihydroalprenolol can be used to directly study the properties and regulation of β-adrenergic receptors in intact cell as well as broken cell preparations.     

[3H]Bicuculline Methochloride Binding to Low-Affinity γ-Aminobutyric Acid Receptor Sites

Abstract: The binding of [³H]bicuculline methochloride (BMC) to mammalian brain membranes was characterized and compared with that of [³H]γ-aminobutyric acid ([³H]GABA). The radiolabeled GABA receptor antagonist showed significant displaceable binding in Tris-citrate buffer that was improved by high concentrations of chloride, iodide, or thiocyanate, reaching >50% displacement in the presence of 0.1 M SCN^?. An apparent single class of binding sites for [³H]BMC (K_D= 30 nM) was observed in 0.1 M SCN^? for fresh or frozen rat cortex or several regions of frozen and thawed bovine brain. The B_max was about 2 pmol bound/mg of crude mitochondrial plus microsomal membranes from unfrozen washed and osmotically shocked rat cortex, similar to that for [³H]GABA. Frozen membranes, however, showed decreased levels of [³H]BMC binding with no decrease or an actual increase in [³H]GABA binding sites. [³H]BMC binding was inhibited by GABA receptor specific ligands, but showed a higher affinity for antagonists and lower affinity for agonists than did [³H]GABA binding. Kinetics experiments with [³H]GABA binding revealed that low- and high-affinity sites showed a similar pharmacological specificity for a series of GABA receptor ligands, but that whereas all agonists had a higher affinity for slowly dissociating high-affinity [³H]GABA sites, bicuculline had a higher affinity for rapidly dissociating low-affinity [³H]GABA sites. This reverse potency between agonists and antagonists during assay of radioactive antagonists or agonists supports the existence of agonist- and antagonist-preferring conformational states or subpopulations of GABA receptors. The differential affinities, as well as opposite effects on agonist and antagonist binding by anions, membrane freezing, and other treatments, suggest that [³H]BMC may relatively selectively label low-affinity GABA receptor agonist sites. This study, using a new commercially available preparation of [³H]bicuculline methochloride, confirms the report of bicuculline methiodide binding by Mohler and Okada (1978), and suggests that this radioactive GABA antagonist will be a valuable probe in analyzing various aspects of GABA receptors.