Characterization of the Binding of the GABA Agonist [3H]Piperidine-4-Sulphonic Acid to Bovine Brain Synaptic Membranes

Abstract: The binding of radioactive piperidine-4-sulphonic acid ([³H]P4S) to thoroughly washed, frozen, and thawed membranes isolated from cow and rat brains has been studied. Quantitative computer analysis of the binding curves for four regions of bovine brain revealed the general presence of two binding sites. In these brain regions less satisfactory computer fits were obtained for receptor models showing one or three binding sites or negative cooperativity. With the use of Tris-citrate buffer at 0°C the two affinity classes for P4S in bovine cortex membranes revealed the following binding parameters: K_D= 17 ± 7 nM (B_max= 0.15 ± 0.07 pmol/mg protein) and K_D= 237 ± 100 nM (B_max= 0.80 ± 0.20 pmol/mg protein). Heterogeneity was also observed for association and dissociation rates of [³H]P4S. The slow binding component (k_on= 5.6 × 10⁷ or 8.8 × 10⁷ M^-1 min^-1, k_Off= 0.83 min^-1, and K_D= 14.7 or 9.4 nM, determined by two different methods in phosphate buffer containing potassium chloride) corresponds to the high-affinity component of the equilibrium binding curve (K_D= 11 nM, B_max= 0.12 pmol/mg protein in the same buffer system). The association and dissociation rates for the subpopulation of rapidly dissociating sites, apparently corresponding to the low-affinity sites, were too rapid to be measured accurately. The binding of [³H]P4S appears to involve the same two populations of sites with B_max values similar to those for [³H]GABA binding to the same tissue, although the kinetic parameters for the two ligands are somewhat different. Furthermore, comparative studies on the inhibition of [³H]P4S and [³H]GABA binding by various GABA analogues, strongly suggest that P4S binds to the GABA receptors. The different effects of P4S and GABA on benzodiazepine binding are discussed.     

The channel-lining 6′ amino acid in the second membrane-spanning region of ionotropic GABA receptors has more profound effects on 4′-ethynyl-4-<Emphasis Type="Italic">n</Emphasis>-propylbicycloorthobenzoate binding than the 2′ amino acid

The noncompetitive antagonist of ionotropic γ-aminobutyric acid (GABA) receptors 4′-ethynyl-4-n-propylbicycloorthobenzoate (EBOB) is a useful tool to probe the antagonist-binding site. In the present study, four mutants of the human GABA_A receptor β3 subunit were stably expressed in S2 cells and examined for their abilities to bind [³H]EBOB to identify the binding site of EBOB. The homo-oligomeric β3 GABA receptor was used as a housefly GABA receptor model, as the β3 subunit has a high sequence similarity with the housefly Rdl subunit in the second membrane-spanning (M2) region. The A274S mutation at the -1′ position in the M2 region had no effect on [³H]EBOB binding. The A277S mutation at the 2′ position led to a decrease in the affinity of EBOB for the GABA receptor. The T281V mutant at the 6′ position and the A277S/T281V double mutant completely abolished the binding ability. A β3 GABA receptor homology model predicts these interactions between the receptor and EBOB. These results suggest that EBOB interacts with threonine 281 and alanine 277, and that threonine 281 plays a more critical role in interacting with EBOB than alanine 277.     

Initiation of mammalian protein synthesis. II. The assembly of the initiation complex with purified initiation factors

The assembly of initiation complexes is studied in a protein synthesis initiation assay containing ribosomal subunits, globin [¹²⁵I]mRNA, [³H]Met-tRNA_f, seven purified initiation factors, ATP and GTP. By omitting single components from the initiation assay, specific roles of the initiation factors, ATP and GTP are demonstrated. The initiation factor eIF-2 is required for the binding of Met-tRNA_f to the 40 S ribosomal subunit. The initial Met-tRNA_f binding to the small ribosomal subunit is a stringent prerequisite for the subsequent mRNA binding. The initiation factors eIF-3, eIF-4A, eIF-4B and eIF-4C together with ATP promote the binding of mRNA to the 40 S initiation complex. The association of the 40 S initiation complex with the 60 S ribosome subunit to form an 80 S initiation complex is mediated by the initiation factor eIF-5 and requires the hydrolysis of GTP. The factor eIF-1 gives a twofold overall stimulation of initiation complex formation. A model of the sequential steps in the assembly of the 80 S initiation complex in mammalian protein synthesis is presented.     

Ribosomal RNA synthesis in mitochondria of Neurospora crassa

Ribosomal RNA synthesis in Neurospora crassa mitochondria has been investigated by continuous labeling with [5-³H]uracil and pulse-chase experiments. A short-lived 32 S mitochondrial RNA was detected, along with two other short-lived components; one slightly larger than large subunit ribosomal RNA, and the other slightly larger than small subunit ribosomal RNA. The experiments give support to the possibility that 32 S RNA is the precursor of large and small subunit ribosomal RNA's. Both mature ribosomal RNA's compete with 32 S RNA in hybridization to mitochondrial DNA. Quantitative results from such hybridization-competition experiments along with measurements of electrophoretic mobility have been used to construct a molecular size model for synthesis of mitochondrial ribosomal RNA's. The large molecular weight precursor (32 S) of both ribosomal RNA's appears to be 2.4 × 10⁶ daltons in size. Maturation to large subunit RNA (1.28 × 10⁶ daltons) is assumed to involve an intermediate ~1.6 × 10⁶ daltons in size, while cleavage to form small subunit RNA (0.72 × 10⁶ daltons) presumably involves a 0.9 × 10⁶ dalton intermediate. In the maturation process ~22% of the precursor molecule is lost. As is the case for ribosomal RNA's, the mitochondrial precursor RNA has a strikingly low G + C content.     

Binding sites for [3H]GABA, [3H]flunitrazepam and [35S]TBPS in insect CNS

The CNS of the cockroach Periplaneta americana contains saturable, specific binding sites for [³H]GABA, [³H]flunitrazepam and [³⁵S]TBPS. The [³H]GABA binding site exhibits a pharmacological profile distinct from that reported for mammalian GABA_A and GABA_B receptors. The most potent inhibitors of [³H]GABA binding were GABA and muscimol, whereas isoguvacine, thiomuscimol and 3-aminopropane sulphonic acid were less effective. Bicuculline methiodide and baclofen were ineffective. Binding of [³⁵S]TBPS was partially inhibited by 1.0 × 10⁻⁶ M GABA, whilst binding of [³H]flunitrazepam was enhanced by 1.0 × 10⁻⁷ M GABA. The pharmacological profile of the [³H]flunitrazepam binding site showed some similarities with the peripheral benzodiazepine binding sites of vertebrates, with Ro-5-4864 being a far more effective inhibitor of binding than clonazepam. Thus a class of GABA receptors with pharmacological properties distinct from mammalian GABA receptor subtypes is present in insect CNS.     

Protein H — a surface protein of Streptococcus pyogenes with separate binding sites for lgG and albumin

Protein H, a molecule expressed at the surface of some strains of Streptococcus pyogenes, has affinity for the constant (lgGFc) region of immunoglobulin (lg) G. In absorption experiments with human plasma, protein H–sepharose could absorb not only lgG but also albumin from plasma. The affinity constant for the reaction between albumin and protein H was 7.8 × 10⁹M⁻¹, which is higher than the affinity between lgG and protein H (K_a= 1.6 × 10⁹ M⁻¹). Fragments of protein H were generated with deletion plasmids and polymerase chain reaction (PCR) technology. Using these fragments in various protein–protein interaction assays, the binding of albumin was mapped to three repeats (C1–C3) in the C-terminal half of protein H. On the albumin molecule, the binding site for protein H was found to overlap the site for protein G, another albumin- and lgGFc-binding bacterial surface protein. Aiso lgGFc-binding could be mapped with the protein H fragments and the region was found N-terminally of the C repeats. A synthetic peptide (25 amino acid residues long) based on a sequence in this region was shown to inhibit the binding of protein H to immobilized lgG or lgGFc. This sequence was not found in previously described lgGFc-binding proteins. However, two other cell surface proteins of S. pyogenes exhibited highly homologous regions. The results identify lgGFc- and albumin binding regions of protein H and further define and emphasize the convergent evolution among bacterial surface proteins interacting with human plasma proteins.     

A calcium antagonist drug binding site in skeletal muscle sarcoplasmic reticulum: Evidence for a calcium channel

The sarcoplasmic reticulum (S.R.) of rabbit skeletal muscle has been found to contain a single, high affinity binding site for the Ca antagonist drug [³H] -nitrendipine. Two subfractions of the reticulum were studied, the heavy (HSR) and light (LSR) preparations, which exhibited similar nitrendipine equilibrium dissociation constants (K_D) of 1nM. Crude cardiac and brain membranes assayed under the same conditions exhibited K_D values of 0.2–0.3nM. The concentration of binding sites per mg. protein (B_max) in HSR was found to be very high, namely 6.7 picomoles/mg, some four times greater than that of LSR. [³H] -nitrendipine binding to HSR was reversible and inhibited by the Ca antagonists flunarizine and verapamil, and by the intracellular Ca release antagonist TMB-8 (8-diethylamino-octyl 3,4,5- trimethylbenzoate hydrochloride). However, unlabelled nitrendipine at 2 × 10^?5M had no effect on contraction of isolated electrically stimulated rabbit lumbrical or rat diaphragm muscles, nor did it affect the neuromuscular junction as studied in rat phrenic nerve-diaphragm preparations. Also, little effect of 2 × 10^?5M nitrendipine was seen on net ⁴⁵Ca uptake by HSR. These results suggest that [³H] -nitrendipine binding to skeletal muscle S.R. resembles that of brain membranes, which also contain a high affinity binding site for [³H] -nitrendipine and which similarly are pharmacologically insensitive to this dihydropyridine type of Ca channel blocking agent. Since HSR is also enriched in calsequestrin and terminal cysternae from which Ca is released in vivo, it seems likely that the [³H]- nitrendipine binding sites in S.R. are associated with Ca channels in the S.R.     

Hydrocortisone binding receptor in the rat pituitary GH3 cell line.

A receptor with specificity and high affinity for hydrocortisone (HC) has been found in the cytosol of GH₃ cells, a growth hormone (GH) producing culture. Scatchard analysis indicated that the interaction of [³H]HC with the receptor has an apparent dissociation constant (K_d) of about 6.0 × 10^?9M and a concentration of binding sites of approx. 1 × 10^?13 mol/mg cytosol protein. The second order association rate constant was determined to be 1.5 × 10⁶ M^?1 min^?1. The receptor activity is stable at 2°C for several hours, but is destroyed completely by heating at 37°C for 1 hour, or by treatment with pronase, only partially by RNase, but not by DNase. The binding of [³H]HC to the cytosol receptor is inhibited by unlabeled progesterone (PR) or dexamethasone to the same extent as the inhibition by unlabeled HC. However, it is only partially inhibited by testosterone, 17-methyl-testosterone, 17α and 17β-estradiol, and 4-pregnen-20β-ol-3-one, and is unaffected by 5α-pregnan-3β,20β-diol. The biological role for these receptors in the regulation of GH synthesis is supported by the observations that the HC-stimulated production of GH is antagonized by PR, which competes with the binding of HC to the receptor.     

Ecdysteroid receptors in a tumorous blood cell line of Drosophila melanogaster

The tumorous Drosophila melanogaster blood cell line BII has been studied for evidence for the presence of ecdysteroid receptors. The [³H]ponasterone A (pon A)* used in this study has been extensively purified, and the location of the tritium in the molecule has been partially determined. BII cells do not metabolise ecdysteroids. Intact cells demonstrate a considerable specific uptake of [³H]pon A which is saturable, apparently showing two specific components: a very high affinity component (K_D = 0.3 nM) and a high affinity component (K_D = 2 nM). The specific binding of [³H]pon A to whole cells is compatible with unlabelled ecdysteroids, but not with mammalian steroid hormones. The association rate constant (k_a) for [³H]pon A was determined to be 3 × 10⁷M^?1min^?1 at 21 °C, while the dissociation rate constant (k_d) for the specifically bound [³H]pon A was found to be 4.4 × 10^?3/min. Together, the kinetic rate constants yield a value of 0.15 nM for the K_D. The receptors have been partially characterised in a cell-free extract prepared by sonification of the cells. The optimum pH for extraction and hormone binding is 8.2. Scatchard plots of binding data indicate that the cell-free extract also contains two high affinity specific binding components (k_D = 0.1 nM and K_D = 1 nM). The hgih affinity binders are macromolecular, as shown by chromatography on Sephadex G-25, and are susceptible to protease digestion, heat, and treatment with N-ethylmaleimide. Sucrose density centrifugation of the labelled receptor shows one peak at approximately 6S. The stability of the receptor preparation has been studied and conditions have been empirically determined (10% w/v sucrose, 25 mM dithioerthreitol, and 10 mM citrate), whereby the binding capacity of the unlabelled receptor is stable for at least 8 weeks if frozen at ?20°C.     

Properties of [3H] prostaglandin F2α binding to dispersed bovine luteal cells

Intact viable bovine luteal cell suspensions prepared by collagenase digestion of luteal tissue were used in studying the selected properties of [³H] prostaglandin (PG) F_2α binding and compared with those observed in plasma membranes. [³H]PGF_2α specific binding to luteal cells was a rapid (K₁ = 8.4 × 10⁴M^?12αS^?1), reversible (K_?1 = 1.8 × 10^?4S^?1) and saturable process at 24°. There was a single class of receptors with an apparent dissociation constant of 10.6 nM and 1.8 × 10⁵ receptors per cell. The presence of increasing amounts of unlabeled PGs inhibited [³H]PGF_2α binding in a dose-dependent manner. The potency order for this inhibition was: (15S) 15-methyl-PGF_2α methyl ester > ICI-80,996 > PGF_2α > ICI-81,008 > PGF_1α > PGE₂, (15S) 15-methyl-PGE₂ methyl ester > PGF_2α metabolites > other PGs, PGF_1α metabolites and PGE metabolites. Other than the homegeneous nature of binding and a greater association rate in cells, the rest of the [³H]PGF_2α binding properties in cells were in good agreement with those observed in plasma membranes.     

A dispersed-whole cell method for the determination of androgen receptors in human skin fibroblasts

A method is described for the determination of binding capacity (R_o) and dissociation constant (K_d) of androgen receptors in dispersed, whole, cultured human skin fibroblasts. The cells, obtained from punch biopsies or operative specimens of skin, are grown to confluence in monolayers, harvested, washed, and dispersed in medium. Binding is assessed by incubating the cells with [³H]dihydrotestosterone³ (DHT) at 22°C for one hour followed by washing, centrifugation and counting. Non-specific binding is determined by adding radioinert methyltrienolone (R1881). Scatchard plots are constructed using 6 concentration points; binding is expressed as sites/cell. The method is precise (R_o = 12,105 ± 4305 (S.D.) sites/cell; K_d = 1.0 ± 0.7 (S.D.) × 10^?9M, n = 14 for one prepuce cell line) and independent of cell passage number. Binding is linear with respect to cell number and shows those characteristics commonly attributed to androgen receptors: high affinity, low binding capacity, saturable nuclear binding, androgen specificity, and an 8S peak in fibroblast cytosol using sucrose density gradients. Cell lines shown by other published methods to lack androgen receptors had no detectable DHT binding with this method. This assay technique has the advantages of simplicity, rapidity, and precision.     

Errors Introduced in Radioligand Binding Studies Due to Displaceable,Cation Dependent, [3H]prazosin Binding to Glass-Fibre Filters and Glass Surfaces

Abstract

[³H]prazosin not only specifically and homogeneously labels α₁-adrenoceptors, but also binds to glass surfaces and non-linearly to the glass-fibre filters, commonly used in radioligand binding experiments. Binding to filters can be modulated by unlabeled α-adrenergic compounds and cations. If no correction is applied for displaceable filter binding, analysis of [³H]prazosin binding experiments leads to erroneous results. Analysis of [³H]prazosin saturation experiments on guinea-pig cerebral cortex membranes with correction for filter binding before the non-linear fit procedure indicated that [³H]prazosin labels a homogeneous population of α₁-adrenoceptors (R_tot: 8.33 fmol˙mg^?1 wet tissue) with a dissociation constant of 1.28×10^?10 M. However, analysis of the same data after correction for non-specific binding, (determined in parallel experiments by adding 10 μM phentolamine to the incubation medium) resulted in a best fit to a model in which [³H]prazosin labels two α₁-adrenoceptor subpopulations (R₁: 15.0 fmol˙mg^?1 and R₂: 14.6 fmol˙mg^?1 wet tissue) with dissociation constants of respectively 1.78×10^?10 and 5.63×10^?9 M. The discrepancy between the two methods of analysis is due to displacement of the radioligand from the filters by phentolamine.

Prazosin and oxymetazoline are also able to displace filter-bound [³H]prazosin. The extent to which displaceable filter binding distorts the proper results depends on the actual magnitude of the error and also on the method of analysis.     

Probing the interaction between cHAVc3 peptide and the EC1 domain of E-cadherin using NMR and molecular dynamics simulations

The goal of this work is to probe the interaction between cyclic cHAVc3 peptide and the EC1 domain of human E-cadherin protein. Cyclic cHAVc3 peptide (cyclo(1,6)Ac-CSHAVC-NH₂) binds to the EC1 domain as shown by chemical shift perturbations in the 2D ¹H,-¹⁵N-HSQC NMR spectrum. The molecular dynamics (MD) simulations of the EC1 domain showed folding of the C-terminal tail region into the main head region of the EC1 domain. For cHAVc3 peptide, replica exchange molecular dynamics (REMD) simulations generated five structural clusters of cHAVc3 peptide. Representative structures of cHAVc3 and the EC1 structure from MD simulations were used in molecular docking experiments with NMR constraints to determine the binding site of the peptide on EC1. The results suggest that cHAVc3 binds to EC1 around residues Y36, S37, I38, I53, F77, S78, H79, and I94. The dissociation constants (K_d values) of cHAVc3 peptide to EC1 were estimated using the NMR chemical shifts data and the estimated K_ds are in the range of .5 × 10^?5–7.0 × 10^?5 M.     

Ribulose 1,5-bisphosphate carboxylase from the halophilic cyanobacterium Aphanothece halophytica

Various structural and functional properties of ribulose 1,5-bisphosphate carboxylase/ oxygenase (RuBisCO) isolated from the halophilic cyanobacterium (blue-green alga) Aphanothece halophytica were reexamined. The ready dissociation of this algal RuBisCO during sedimentation in a linear sucrose density gradient was observed. Low NaCl concentrations promote the dissociation of small subunit (B) from the original native enzyme molecule as evidenced by the sucrose density gradient centrifugation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. It is thus possible that the intracellular osmoticum of A. halophytica might influence the structural integrity and activity of RuBisCO. The low residual carboxylase activity ascribed to the catalytic core, an oligomer form of the large subunit (A) apparently deficient in small subunit (B), was found to be markedly stimulated by a protein component which appears identical to subunit B. The purification and structural characterization of the catalytic core and subunit B were attempted by step-wise column chromatography on DEAE-cellulose, Utrogel AcA 34, Sephadex G-75, and hydroxylapatite, and at the final stage each component was purified to near homogeneity, although the catalytic core is still associated with a small quantity of subunit B. The addition of subunit B to the catalytic core does not alter the K_m (HCO₃^?, RuBP) values, but V_max values are markedly enhanced. Sucrose density gradient centrifugation gave a value of 16 S for the catalytic core. The molecular weights of the monomeric forms of the catalytic core (subunit A) and subunit B were 5.0 × 10⁴ and 1.4 × 10⁴, respectively.     

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.     

Characteristics of Binding of [3H]WAY100635 to Rat Hippocampal Membranes

Kinetic analysis of binding of [³H][N-[2-[4-(2-[O-methyl-³H]methoxyphenyl)-1-piperazinyl]ethyl]-N-(2-pyridinyl)cyclohexane carboxamide ([³H]WAY100635) to 5-HT_1A receptors in rat hippocampal membranes has revealed complex regulation mechanism for this radioligand. Saturation binding experiments revealed that [³H]WAY100635 binds to a single class of receptors with very high apparent affinity (K _D = 87 ± 4 pM, B _max = 15.1 ± 0.2 fmol/mg protein). The binding was almost irreversible, as the dissociation rate constant obtained k _off = (7.8 ± 1.1) × 10⁻³ min⁻¹, means that equilibrium with this radioligand cannot be achieved before 7.5 h incubation at 25°C. Systematic association kinetic studies of [³H]WAY100635 binding revealed sharp reaction acceleration at higher radioligand concentration, proposing mechanism of positive cooperativity. The affinities of antagonists determined from competition with [³H]WAY100635 did not coincide with their abilities to inhibit 5-HT-dependent activation of [³⁵S]GTPγS binding probably due to the ligand’s kinetic peculiarities. Thus, [³H]WAY100635 appears to be an excellent tool for determining receptor binding sites, but its applicability in equilibrium studies is strongly limited.     

Prostaglandin E2 receptor in the myometrium: distribution in subcellular fractions

[³H]Prostaglandin (PG) E₂ bound specifically to several subcellular fractions from bovine myometrium. The binding was temperature dependent, rapid, and reversible. PGE₂ and PGE₁ competed for the [³H]PGE₂ binding site. The PGs inhibited in the following decreasing order: PGE₂ = PGE₁ ? PGF_2α > PGA₂ > PGF_1β > PGB₂. No competitive effect could be found for oxytocin. Scatchard analysis of the binding data were interpreted as showing a single high-affinity binding constant. There was no difference in the binding constant between the various fractions. The average molar dissociation constant was 2.74 ± 0.14 × 10^?9. Quantitative differences in the maximum number of binding sites were observed between fractions. One plasma membrane fraction contained 21.4 ± 2.3 × 10^?11 and the sarcoplasmic reticulum contained 11.2 ± 0.8 × 10^?11 mol binding sites/g. The results suggest that there is a high-affinity PGE₂ receptor present in both plasma membrane and sarcoplasmic reticulum.     

Interacalation of ethidium ion into DNA and RNA oligonucleotides

The thermodynamics of ethidium ion binding to the double strands formed by the ribooligonucleotides rCA₅G + rCU₅G and the analogous deoxyribo-oligonucleotides dCA₅G + dCT₅G were determined by monitoring the absorbance versus temperature at 260 and 283 nm at several concentrations of oligonucleotides and ethidium bromide. A maximum of three ethidium ions bind to the oligonucleotides, which is consistent with intercalation and nearest-neighbor exclusion. For the ribo-oligonucleotide the binding mechanism is complex. Either two sites (assumed to be the intercalation sites at the two ends of the oligonucleotide) bind more strongly by a factor of 140 than the third site, or all sites are identical, but there is strong anticooperativity on binding (cooperativity parameter, 0.1). In sharp contrast, the binding to the same sequence (with thymine substituted for uracil) in the deoxyribo-oligonucleotide showed all sites equivalent and no cooperativity. For the ribo-oligonucleotides the enthalpy for ethidium binding is ?14 kcal/mol. The equilibrium constants at 25°C depend on the model; either K = 6 × 10⁵M^?1 for the two strong sites (4 × 10³M^?1 for the weak site) or K = 2.5 × 10⁵M^?1 for the intrinsic constant of the anticooperative model. For the equivalent deoxyribo-oligonucleotide the enthalpy of binding is -9 kcal/mol and the equilibrium constant at 25°C is a factor of 10 smaller (K = 2.5 × 10⁴M^?1).     

Cationic dependency of high affinity prostaglandin F2α receptors in bovine corpus luteum cell membranes

The specific binding of [³H] Prostaglandin (PG) F₂α to bovine corpus luteum cell membranes prepared in homogenizing buffer containing either 1 mM EDTA (H-EDTA) or 1 mM Ca²⁺ (HCa²⁺) was examined. The membranes prepared in H-EDTA buffer bound less [³H] PGF₂α and had a single class of PGF₂α receptors with an apparent dissociation constant (Kd) of 2.7 × 10^?8M. The addition of Ca²⁺ to these membranes resulted in increased binding with the appearance of new PGF₂α receptors of Kd = 4.3 × 10^?9M. The membranes prepared in HCa²⁺ buffer contained two classes of receptors with Kds = 2.9 × 10^?9M and 2.9 × 10^?8M. The removal of Ca²⁺ from these membranes resulted in lower binding as well as a complete disappearance of receptors of Kd = 2.9 × 10^?9M. These results suggest the dependency of high affinity PGF₂α receptors, in bovine corpus luteum cell membranes, on cations.