Characterization of a dopamine-sensitive [3H]LSD binding site in honeybee (Apis mellifera) brain

[³H]Lysergic acid diethylamide ([³H]LSD) binds on membrane homogenate of honeybee brain to both a dopamine-sensitive site (D-site) and a serotonin-sensitive site (S-site). Under suitable conditions the properties of the two sites can be studied separately. Specific binding of [³H]LSD to both the D-site and the S-site has high affinity and is saturable. The mean equilibrium dissociation constants (K_D) were 3.8 nM for the D- and 0.89 nM for the S-site. The densities (B_max values) of both binding sites were 1.7 pmol/mg protein for the D-site and 0.79 pmol/mg protein for the S-site. [³H]LSD binding to the D-site was reversible and reached equilibrium in about 30 min. Pharmacological displacement studies display a high binding affinity of the putative natural agonist dopamine to the D-site (K_i = 22 nM). The most potent displacers of D-site binding were lisuride, (+)-bromocriptine, chlorpromazine, S(+)-butaclamol, and 6,7-ADTN. The [³H]LSD labelled D-site seems to be G-protein coupled, since addition of the stable GTP analogue GTPγS or NaCl to the incubation medium evoked a decrease of specific [³H]LSD binding to the D-site.     

Presence of D2-dofamine Receptors in Human Term Placenta

Abstract

We studied the binding of [³H]-spiperone on human term placental membranes. This binding reached plateau level after 30 min incubation at 37°C and was reversed (t_1/2 ～ 5 min) by addition of an excess of unlabeled spiperone. Scatchard analysis of saturation experiments with increasing doses of [³H]-spiperone (0–25 nM) showed one class of high affinity binding sites with a dissociation constant (Kd) of 14 ± 2 nM and a maximal binding capacity (Bmax) of 222 ± 9 fmoles/mg protein. The affinity of 5 competitors was determined in competitive binding assays. The D₂-dopamine antagonists were the most potent inhibitors: Ki for spiperone and haloperidol were 8 ± 2 and 56 ± 22 nM respectively. Dopamine inhibited [³H]-spiperone binding with a Ki of 570 ± 50 μM whereas Schering 23390 (D₁ antagonist) and propranolol (β-adrenergic antagonist) were without effect. The binding was also inhibited by 100 μM GTPγS (38 ± 8% inhibition), indicating that the dopamine receptor is coupled with a GTP binding protein. These results demonstrate for the first time the presence of D₂-dopamine receptors in human placenta.     

Agonist binding fraction of dopamine D2/3 receptors in rat brain: A quantitative autoradiographic study

There has arisen considerable interest in the study of dopamine D_2/3 agonist binding sites by positron emission tomography (PET), based on the claim that agonist sites represent a functional subset of the total number of sites labeled by more conventional antagonist ligands. To test the basis of this claim, we used quantitative autoradiography to measure the abundance of binding sites of a dopamine D_2/3 agonist ([³H]NPA) and an antagonist ([³H]raclopride) in cryosections of rat brain. Saturation binding studies revealed that the B_max for [³H]NPA was nearly identical to that of [³H]raclopride in dorsal brain regions, but was 25% less in the ventral striatum and 56% less in the olfactory tubercle. We also tested the displacement of the two ligands by the hallucinogen LSD, which is known to have dopamine agonist properties. Whereas displacement of [³H]raclopride by increasing LSD concentrations was monophasic, displacement of [³H]NPA was biphasic, suggesting an action of LSD via a subset of dopamine D_2/3 agonist binding sites. Addition of the stable GTP analogue Gpp(NH)p to the medium abolished 90% of the [³H]NPA binding, and increased [³H]raclopride binding by 10%, with a shift to the right in the LSD competition curve, suggesting retention of endogenous dopamine in washed cryostat sections. Thus [³H]NPA and [³H]raclopride binding sites have nearly identical abundances in rat dorsal striatum, but are distinct in the ventral striatum, and with respect to their displacement by LSD.     

Changes of Ganglioside Pattern During Cerebellar Development of Normal and Staggerer Mice

Saturable and specific binding sites for 5-[3H]hydroxytryptamine (5-HT, serotonin) characterized by a KD of 3.5-4.5 nM were detected in the chick embryo brain and were shown to develop linearly as a function of age, weight, and protein content. Saturation and displacement studies using unlabeled 5-HT as the displacing ligand suggested a single population of binding sites. However, displacement studies using 5-methoxytryptamine, lysergic acid diethylamide (LSD), 2-bromo-lysergic acid diethylamide (BOL), methysergide, and spiperone as competing ligands suggested the existence of subclasses of [3H]5-HT binding sites because the Hill coefficients were less than unity. When compared with the reported [3H]5-HT binding sites (5-HT1) in the rat forebrain, the IC50 values of the competing ligands were similar. However, the Hill coefficients for LSD and methysergide were less than unity which suggested that the [3H]5-HT binding sites in the chick embryo brain may be more similar to those found in rat spinal cord than rat forebrain. To study [3H]5-HT binding site regulation and development, various serotonergic compounds were injected into the chorioallantoic fluid of the eggs at different times during embryonic development. Multiple pretreatments with d,l-5-hydroxytryptophan, 5-HT, or BOL were found to have no significant effects on either the affinity (KD) or number (Bmax) of specific [3H]5-HT binding sites. Multiple pretreatments with p-chlorophenylalanine were found to increase the Bmax of specific [3H]5-HT binding by 23% (p less than 0.01) whereas multiple pretreatments with LSD were found to decrease the Bmax of specific binding by 45% (p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)     

[125I]LSD binding to serotonin and dopamine receptors in bovine caudate membranes

[¹²⁵I]LSD (labeled at the 2 position) has been introduced as the first ¹²⁵I-labeled ligand for serotonin 5-HT₂ (S2) receptors. In the present study we examined the binding of [¹²⁵I]LSD and its non-radioactive homologue, 2I-LSD, to bovine caudate homogenates. The binding of [¹²⁵I]LSD is saturable, reversible, stereospecific and is destroyed by boiling the membranes. The specific to total binding ratio in this tissue is 75–80% and Scatchard plots of the binding data reveal K_d = 1.1 nM, B_max = 9.6 fmol/mg wet weight tissue. The association and dissociation rate constants are highly temperature dependent. At 0°C the net dissociation is less than 5% after 1 h and the association rate is proportionately slow. IC₅₀ values for a variety of compounds show a clear 5-HT₂ (S2) serotonergic pattern at this [¹²⁵I]LSD site. Blockage of this primary 5-HT₂ (S2) caudate binding site by 0.3 μM mianserin reveals the presence of a weaker [¹²⁵I]LSD binding site with a K_d = 9.1 nM, B_max = 7.6 fmol/mg tissue. This secondary site is a D3 dopaminergic receptor site, as shown by the relative abilities of various displacers to inhibit this binding. Binding studies with nonradioactive 2I-LSD reveal a clear preference for D2 over D3 dopamine receptor sites. [¹²⁵I]LSD is a sensitive and selective label for 5-HT₂ (S2) serotonin receptor sites in both rat frontal cortex and bovine caudate membranes. Blockage of the primary bovine caudate [¹²⁵I]LSD binding site with mianserin allows the high sensitivity of [¹²⁵I]LSD to be applied to D2 dopamine receptor studies as well.     

Regulation of muscarinic receptor binding by guanine nucleotides and N-ethylmaleimide

The regulation of muscarinic receptor binding by guanine nucleotides and N-ethylmaleimide (NEM) was investigated using the agonist ligand, [³H] cis methyldioxolane ([³H] CD). Characterization studies on rat forebrain homogenates showed that [³H] CD binding was linear with tissue concentration and was unaffected by a change in pH from 5.5 to 8.0. The regional variation in [³H] CD binding in the rat brain correlated generally with [³H] (?)3-quinuclidinyl benzilate ([³H] (?)QNB) binding, although the absolute variation in binding was somewhat less. At a concentration of 100 μM, the GTP analogue, guanyl-5′-yl imidodiphosphate [Gpp(NH)p], caused a 43–77% inhibition of [³H] CD binding in the corpus striatum, ileum, and heart. The results of binding studies using several Gpp(NH)p concentrations demonstrated that the potency of this guanine nucleotide for inhibition of [³H] CD binding was greater in the heart than in the ileum. In contrast to its effects on [³H] CD binding, Gpp(NH)p caused an increase in [³H] (?)QNB binding in the heart heart and ileum and no change in [³H] (?)QNB binding in the corpus striatum. When measured by competitive inhibition of [³H] (?)QNB binding to the longitudinal muscle of the ileum, Gpp(NH)p (100 μM) caused an increase in the IC₅₀ values of a series of agonists in a manner that was correlated with the efficacy of these compounds. The results of binding studies on NEM treated forebrain homogenates revealed an enhancement of [³H] CD binding by NEM.     

Characterization of Multiple [3H]5–Hydroxytryptamine Binding Sites in Rat Spinal Cord Tissue

Abstract: High-affinity [³H]5-hydroxytryptamine ([³H]5-HT) binding in the rat spinal cord is similar to that demonstrated in the frontal cortex. [³H]5-HT binds with nearly the same affinity to sites in both tissues. Furthermore, similar patterns of displacement of [³H]5–HT were seen in both tissues, with either spiperone or LSD as the unlabeled ligand. This high-affinity binding appears to be to multiple sites, since displacement studies using 2 nM [³H]5–HT result in Hill coefficients less than unity for spiperone, LSD, and quipazine [Hill coefficients (n_H): 0.44, 0.39, 0.40, respectively]. These sites apparently have an equal affinity for [³H]5-HT, since unlabeled 5-HT did not discriminate between them. Thus, the high-affinity [³H]5-HT binding in the spinal cord may be analogous to that observed in the frontal cortex, where two populations of sites have previously been described (5-HT_IA, 5-HT_IB). In addition to the multiple high-affinity spinal cord binding sites, a low-affinity [³H]5-HT binding component was also identified. A curvilinear Scatchard plot results from saturation studies using [³H]5-HT (0.5–100 nM) in the spinal cord. The plot can be resolved into sites having apparent dissociation constants of 1.4 nM and 57.8 nM for the high-and low-affinity components, respectively. Additional support for a change in affinity characteristics at higher radioligand concentrations comes from the displacement of 30 nM [³H]5-HT by the unlabeled ligand. A nonparallel shift in the dissociation curve was seen, resulting in a Hill coefficient less than unity (0.32). None of the specifically bound [³H]5-HT in the spinal cord is associated with the 5-HT uptake carrier, since fluoxetine, an inhibitor of 5-HT uptake, does not alter binding characteristics. In addition, a 5-HT binding site analogous to the site designated 5-HT, was not apparent in the spinal cord. Ketanse-rin and cyproheptadine, drugs that are highly selective for 5-HT, sites, did not displace [³H]5-HT from spinal tissue, and [³H]spiperone, a radioligand that binds with high affinity to 5-HT₂ sites, did not exhibit saturable binding in the tissue. Thus, the 5-HT₂ binding site reported in other regions of the central nervous system, and the serotonin uptake carrier do not appear to contribute to the multiple binding sites demonstrated in the spinal cord.     

Covalent binding of ethinylestradiol and estrone to rat liver DNA in vivo

The covalent binding of [6,7-³H] ethinylestradiol (EE) and [6,7-³H] estrone (E) to liver DNA of 200 g female rats was measured 8 h after the administration of 80 μg (9.2 mCi) estrogen by gavage. The binding is 1.5 for EE and 1.1 for E, expressed as binding to DNA/dose, in units of μmol hormone/mol DNA phosphate/mmole hormone/kg body wt. It is in the same order of magnitude as for benzene and about 10 000 times below the binding of typical liver carcinogens, such as aflatoxin B₁ or N,N-dimethylnitrosamine.     

Benzodiazepine receptors: temperature dependence of [3H]flunitrazepam binding.

The characteristics of [³H]flunitrazepam binding to brain specific benzodiazepine receptors were determined at varying temperatures. The rates at which [³H]flunitrazepam associated with and dissociated from benzodiazepine receptors increased with increasing temperatures. The dissociation constant (K_D) also increased with increases in temperature. The (K_D) determined by Scatchard analyses of saturation isotherms showed a similar change with changes in temperature. The maximal binding capacity (Bmax) did not change with changes in temperature. The inhibitory constants of several benzodiazepines to inhibit [³H]flunitrazepam binding to brain were also higher at 37°C than at 0°C, suggesting that the binding affinity of all benzodiazepines to brain benzodiazepine receptors is lower at 37°C than at 0°C. Van't Hoff analysis of [³H]flunitrazepam binding to brain at different temperatures reveals two linear components to this relationship.     

Behavioral and neurochemical changes in the dopaminergic system after repeated cocaine administration

In order to determine whether repeated cocaine administration produced persistent changes in dopamine (DA) receptor binding and release consistent with behavioral sensitization, rats were treated with either cocaine (25 mg/kg ip) or saline twice daily for 14 consecutive days followed by a 3-d withdrawal period. The DA transporter site was assayed using [³H]GBR 12935, whereas D₁ and D₂ sites were assayed using [³H]SCH 23390 and [³H]spiperone, respectively. The density (B _max) of the DA transporter binding sites in the ST of the cocaine-treated group increased significantly (p<0.05) over controls 3 d after the last injection, whereas the density of striatal D₁ and D₂ binding sites remained unchanged. The DA transporter in the nucleus accumbens (NA) was also studied with [³H]GBR 12935 and was unchanged following drug treatment. D₁ and D₂ binding parameters for the NA were not determined in this study. Furthermore, cocaine administration did not affect the affinities (K _d ) of the radioligands used to label the transporter, D₁, or D₂ sites in any of the studies performed. In addition, striatal DA release was measured using in vivo microdialysis in anesthetized rats. Linear regression analysis on maximal decreases in DA release after apomorphine (0.02, 0.2, and 2.0 mg/kg sc) injection showed no difference in the functional capacity of the ST to modulate DA transmission between control and treated groups. Moreover, animals pretreated with cocaine showed a significant (p<0.01) decrease in locomotor activity (LA) after a presynaptic, autoregulating dose of apomorphine (0.03 mg/kg sc) was given. These results suggest that the effects seen after repeated exposure to cocaine may be regulated, in part, by changes in striatal DA transporter binding site densities and not necessarily by DA-releasing mechanisms or D₁ and D₂ receptor modification.     

Binding of DL-[3H]-alpha-Amino-3-Hydroxy-5-Methyl-Isoxazole-4-Propionic Acid (AMPA) to Rat Cortex Membranes Reveals Two Sites or Affinity States

Abstract

A method for measuring [³H]-AMPA binding in rat cortex membranes is described. Specific binding was saturable and accounted for 95% of total binding at 5 nM of [³H]-AMPA. Non linear curve fitting of [³H]-AMPA saturation isotherms suggested the presence of two binding sites: the high affinity site showed a pKd of 8.26 ± 0.07 (Kd = 5.49 nM) and a Bmax of 0.19 ± 0.03 pmol/mg protein, whereas the low affinity site indicated a pKd of 7.28 ± 0.05 (Kd = 52 nM) and a Bmax of 1.30 ± 0.23 pmol/mg protein. The pharmacological profile of [³H]-AMPA binding has been determined by studying a series of compounds in binding displacement experiments: Quisqualate was the most potent inhibitor of [³H]-AMPA binding (IC₅₀ = 9.7 nM), followed by AMPA (19 nM), CNQX, DNQX and L-Glutamate (272–373 nM). Kainate was a moderate displacer (6.2 μM); Ibotenic acid and glycine were very weak inhibitors (74 and 92 μM, respectively). CPP, GAMS and L-Aspartic acid showed IC₅₀-values of over 400 μM and MK-801, DL-AP5 and NMDA were almost inactive at the maximal concentration used in our experiments.     

A SENSITIVE MICROASSAY FOR TRYPTOPHAN HYDROXYLASE IN BRAIN

—A specific and sensitive, radioisotopic microassay for tryptophan hydroxylase (EC 1.14.36) is described, which is capable of determining enzymatic activity in as little as 5 μg of crude brainstem homogenate. 5-Hydroxytryptophan, the immediate product of hydroxylation of tryptophan is enzymatically converted to N-acetylserotonin. A radioisotopic label is then introduced by the enzymatic methylation of N-acetylserotonin in the presence of [³H]methyl-S-adenosyl-methionine. The [³H]-melatonin thus formed is isolated by extraction and counted. With this assay, the activity in individual hypothalamic nuclei (arcuate nucleus, median eminence, suprachiasmatic nucleus, and medial forebrain bundle) has been measured.     

Characterization of an Adenylate Cyclase-Linked Serotonin (5-HT1) Receptor in a Neuroblastoma × Brain Explant Hybrid Cell Line (NCB-20)

Clonal cell line NCB-20 (a hybrid of mouse neuroblastoma N18TG2 and Chinese hamster 18-day embryonic brain expiant) expressed both high- (K_D 180 nM) and low-affinity (>3000 nM) binding sites for [³H]serotonin (5-HT) which were absent from the parent neuroblastoma. The low-affinity binding site was eliminated by 1 μM spiperone. The order of drug potency for inhibition of high-affinity [³H]5-HT binding was consistent with a 5-HT₁ receptor (5,6 - dihydroxytryptamine = 5-HT = methysergide = 5-methoxytryptamine > cyproheptadine = clozapine = mianserin > spiperone > dopamine = morphine = ketanserin = norepinephrine). [³H]5-HT binding was inhibited by guanine nucleotides (e.g., GTP and Gpp(NH)p), whereas antagonist binding was not; as-corbate was also inhibitory. A 30-min exposure of cells to 1—2 μM 5-HT or other agonists produced a three- to fivefold stimulation of cyclic AMP levels. The order of potency for 5-HT agonist stimulation of basal cyclic AMP levels and 5-HT antagonist reversal of agonist-stimulated levels was the same as the order of drug potency for inhibition of high-affinity [³H]5-HT binding, suggesting linkage of the 5-HT₁ receptor to adenylate cyclase in NCB-20 cells.     

Characterization of adenosine receptors in a model of cultured neurons from rat forebrain

The neuromodulator adenosine is acting through specific receptors coupled to adenylate cyclase via G-proteins. The expression of both adenosine receptors A₁ and A₂ as well as forkolin binding sites was investigated by radioligand binding techniques in 8-day-old neurons isolated from fetal rat forebrain and cultured in chemically-defined medium. Adenosine A₁ receptors were specifically labeled with [³H]chloro-N⁶-cyclopentyladenosine (CCPA), whereas [³H]CGS 21680 was used for the analysis of A₂ receptors. Cultured neurons exhibited high affinity binding sites for CCPA (Bmax=160 fmol/mg protein; Kd=2.9 nM), and for CGS 21680 (Bmax=14 fmol/mg protein; Kd=1.7 nM). These data correlate well with those obtained in crude membranes isolated from the newborn rat forebrain. The incubation of culture membranes in the additional presence of guanylyl-5-imidodiphosphate (Gpp(NH)p, a GTP analogue) led to significantly increased Kd-values, suggesting the association of adenosine receptors with G-proteins. Finally, cultured neurons also bound specifically [³H]forskolin with characteristics close to those found in the newborn brain, indicating that cultured neurons appear as an appropriate model for studying the neuromodulatory properties of adenosine.     

Effects of Chronic Administration of Interferon α A/D on Serotonergic Receptors in Rat Brain

The effects of chronic administration of interferon (IFN; recombinant human IFN -A/D) on serotonergic binding sites in rat brain were investigated. IFN was injected daily for 2 weeks at a dose of 100000 I.U./kg, (i.p.) in male Wistar rats. IFN did not alter either [³H]ketanserin binding to 5-HT_2A receptors or [³H]paroxetine binding to 5-HT transporters. Scatchard analysis of [³H]8-hydroxy-dipropylaminotetraline (8-OH-DPAT) binding to 5-HT_1A receptors demonstrated the presence of high- and low-affinity binding sites in both treatment and control groups. IFN significantly increased both Kd and Bmax measures of [³H]8-OH-DPAT binding at low-affinity binding sites, but not at the high-affinity sites. These results suggest that IFN affects the low-affinity 5-HT_1A receptors sites and may be involved in the development of IFN-induced psychiatric disturbances.     

Melatonin reverses pinealectomy-induced decrease of benzodiazepine binding in rat cerebral cortex

Pinealectomy of rats resulted in significant depression of benzodiazepine receptors (assessed by [³H]flunitrazepam binding) in cerebral cortex 3–14 days after surgery without affecting their affinity significantly. A single s.c. injection of melatonin (800 μg/kg body wt) restored the depressed brain benzodiazepine receptor sites. Single melatonin injections (up to 1600 μg/kg) to intact rats did not affect brain benzodiazepine binding when injected at either morning or evening hours. Daily melatonin treatment to intact rats for 5 days augmented benzodiazepine receptor density in brain (morning injections) or its dissociation constant (evening injections). Melatonin added in vitro to rat cerebral cortex membranes only slightly depressed [³H]flunitrazepam binding at 100 μM concentrations. These results point out a link between pineal activity and benzodiazepine receptor function in rats. They also indicate that pharmacological doses of melatonin affect benzodiazepine binding sites in rat cerebral cortex.     

Identification of 5HT2-Receptors on Longitudinal Muscle of the Guinea Pig Ileum

Abstract

In binding experiments with the radioligands [³H]Ketanserin (HKet) and [¹²⁵I]LSD (ILSD) 21 compounds were investigated using rat brain cortex membranes. The pK_D-values of the compounds were virtually independent of the radioligand used and their rank order was consistent with classification of the binding sites as being of the 5-HT₂-type. In contrast, in the longitudinal muscle of the guinea pig ileum in the presence of 0.3 μM cinanserin, ILSD labelled sites which were quite different to those in the cortex. In a functional test antagonism of the 5HT induced contraction of the guinea-pig ileum was measured in the presence of 1 μM atropine. The pharmacological inhibition constants (IC₅₀-values) of 8 compounds correlated well with the dissociation constants for HKet binding in the cortex and did not correlate with the data from ILSD binding in the guinea pig ileum. It is concluded that the ileum contains postjunctional 5HT₂-receptors which mediate contraction. The nature of the ILSD binding sites in the ileum remains to be elucidated.     

Pre- and Postnatal Ontogeny and Characterization of Dopaminergic D2, Serotonergic S2, and Spirodecanone Binding Sites in Rat Forebrain

Abstract: The ontogeny of binding sites for [³H] spiperone was studied in time-pregnant rats. Binding of [³H]spiperone to fresh homogenates of pre- and postnatal rat forebrain was characterized by Scatchard analysis and competition experiments with a number of dopaminergic and serotonergic agonists and antagonists and additional substances. A convenient discrimination of three high-affinity sites, i.e., the dopaminergic D₂, serotonergic S₂, and spirodecanone (Sd) sites, was obtained with l-(–)sulpiride and cis-flupenthixol. The analgesic R5573 was found not to be specific for the Sd site but to interact with all three sites. The three binding sites became detectable in sequential order. S₂ and D₂ binding sites were first found at embryonic days 15.75 and 17.75, respectively. The Sd site did not appear before postnatal day 8. All three binding sites reached adult values at approximately postnatal day 30. During the prenatal period, the increase in the number of D₂ binding sites paralleled the rise in forebrain dopamine concentrations. The kinetics of D₂ and S₂ sites were the same at embryonic day 19.75 and postnatal day 30. These observations provide evidence for the presence of the receptor substrate for actions of neuroleptics on dopaminergic and serotonergic systems during fetal life.     

Binding of 1α,25‐dihydroxyvitamin D3 to annexin II: Effect of vitamin D metabolites and calcium

We have recently reported that annexin II serves as a membrane receptor for 1α,25‐(OH)₂D₃ and mediates the rapid effect of the hormone on intracellular calcium. The purpose of these studies was to characterize the binding of the hormone to annexin II, determine the specificity of binding, and assess the effect of calcium on binding. The binding of [¹⁴C]‐1α,25‐(OH)₂D₃ bromoacetate to purified annexin II was inhibited by 1α,25‐(OH)₂D₃ in a concentration‐dependent manner. Binding of the radiolabeled ligand to annexin II was markedly diminished by 1α,25‐(OH)₂D₃ at 24 μM, 18 μM, and 12 μM and blunted by 6 μM and 3 μM. At a concentration of 12 μM, 1β,25‐(OH)₂D₃ also diminished the binding of [¹⁴C]‐1α,25‐(OH)₂D₃ bromoacetate to annexin II, but cholecalciferol, 25‐(OH)D₃, and 24,25‐(OH)₂D₃ did not. Saturation analyses of the binding of [³H]‐1α,25‐(OH)₂D₃ to purified annexin II showed a K_D of 5.5 × 10⁻⁹ M, whereas [³H]‐1β,25‐(OH)₂D₃ exhibited a K_D of 6.0 × 10⁻⁹ M. Calcium, which binds to the carboxy terminal domain of annexin II, had a concentration‐dependent effect on [¹⁴C]‐1α,25‐(OH)₂D₃ bromoacetate binding to annexin II, with 600 nM calcium being able to inhibit binding of the radiolabeled analog. The inhibitory effect of calcium was prevented by EDTA. Homocysteine, which binds to the amino terminal domain of annexin II, had no effect on the binding of the bromoacetate analog to the protein. The data indicate that 1α,25‐(OH)₂D₃ binding to annexin II is specific and suggest that the binding site may be located on the carboxy terminal domain of the protein. The ability of 1β,25‐(OH)₂D₃ to inhibit the binding of [¹⁴C]‐1α,25(OH)₂D₃ bromoacetate to annexin II provides a biochemical explanation for the ability of the 1β‐epimer to inhibit the rapid actions of the hormone in vitro. J. Cell. Biochem. 80:259–265, 2000. © 2000 Wiley‐Liss, Inc.     

Solubilization of High-Affinity, Guanine Nucjeotide-Sensitive μ-Opioid Receptors from 7315c Cell Membranes

Abstract: High-affinity μ-opioid receptors have been solubilized from 7315c cell membranes. Occupancy of the membrane-associated receptors with morphine before their solubilization in the detergent 3-[(3-cholamidopropyl) dimethyl]-1-propane sulfonate was critical for stabilization of the receptor. The solubilized opioid receptor bound [³H]-etorphine with high affinity (K_D= 0.304 ± 0.06 nM; B_max= 154 ± 33 fmol/mg of protein). Of the membrane-associated [³H]etorphine binding sites, 40 ± 5% were recovered in the solubilized fraction. Both μ-selective and non-selective enkephalins competed with [³H]etorphine for the solubilized binding sites; in contrast, 5- and K-opioid enkephalins failed to compete with [³H]etorphine for the solubilized binding sites at concentrations of <1 μM.The μ-selective ligand [³H][D-Ala²,A/-Me-Phe⁴,Gly⁵-ol]enkephalin also bound with high affinity (K_D= 0.79 rM; B_max= 108±17 fmol/mg of protein) to the solubilized material. Of the membrane-associated [³H][D-Ala²,N-Me-Phe⁴,Gly⁵-ol]-enkephalin binding sites, 43 ± 3% were recovered in the solubilized material. Guanosine 5′-O-(3-thiotriphosphate), GTP, and guanosine 5′-O-(2-thiodiphosphate), but not adenylylimidodiphosphate, diminished [³H][D-Ala²,N-Me-Phe⁴,Gly⁵-ol]enkephalin binding in a concentration-dependent manner. Finally, μ-opioid receptors from rat brain membranes were also solubilized in a high-affinity, guanine nucleotide-sensitive state if membrane-associated receptors were occupied with morphine before and during their solubilization with the detergent 3-[(3-cholamidopropyl) dimethyl]-1-propane sulfonate.