Gonadotropin and prostaglandins binding sites in nuclei of bovine corpora lutea

Highly purified nuclei isolated from bovine corpora lutea showed marked enrichment of NAD pyrophosphorylase, a marker for this organelle. Rough endoplasmic reticulum and lysosomal markers were undetectable, whereas plasma membrane and Golgi markers were detectable but not enriched in nuclei. These highly purified nuclei exhibited specific binding with ¹²⁵I-labeled human choriogonadotropin, [³H]prostaglandin E₁ and [³H]prostaglandin F_2α. However, these bindings were only 15.4% (human choriogonadotropin), 7.9% (prostaglandin E₁) and 8.9% (prostaglandin F_2α) of the plasma membrane binding observed under the same conditions. Washing of nuclei and plasma membranes twice with buffer containing 0.1% Triton X-100 resulted in gonadotropin and prostaglandin F_2α binding site and 5′-nucleotidase (EC 3.1.3.5) losses from nuclei that were different from those observed for plasma membranes. More importantly, the washed nuclei exhibited 44% (human choriogonadotropin), 21–26% (prostaglandins) of original specific binding despite virtual disappearance of 5′-nucleotidase activity. The nuclear membranes isolated from nuclei, specifically bound ¹²⁵I-labeled human choriogonadotropin and [³H]prostaglandin F_2α to the same extent or significantly more ([³H]prostaglandin E₁, P < 0.05) than nuclei themselves, despite the marked losses of chromatin. In summary, our data suggest that gonadotropin and prostaglandins bind to nuclei and that this binding was intrinsic and was primarily associated with the nuclear membrane.     

Inhibition of estradiol binding to its receptor by the cupric ion

 Treatment of human recombinant estrogen receptor (hER) expressed in yeast with very low concentrations of the cupric ion decreased its ability to bind [³H]estradiol ([³H]E₂) and [¹²⁵I]tamoxifen aziridine (minimal Cu²⁺ concentration: 1 nM). This decrease was reflected in a loss of immunoreactivity for monoclonal antibodies raised against the hormone binding domain (HBD). An ER recombinant expressing solely the HBD confirmed that the ion operated at this level. Cysteines located within this domain contributed to the inhibitory action of the Cu²⁺ in view of a partial restoration of the [³H]E₂ binding activity with β-mercaptoethanol. Histidines were also implicated since the influence of Cu²⁺ on the [³H]E₂ binding parameters (Scatchard plot analysis) was maintained after oxidation of thiol groups by methyl methanethiosulfonate, and partly reversed by imidazole. Received: 10 December 1997 / Accepted: 26 June 1998     

Antiestrogen binding sites in rat liver nuclei

Isolated, intact rat liver nuclei have high-affiity (K_d=10⁻⁹ M) binding sites that are highly specific for nonsteroidal antiestrogens, especially for compounds of the triphenylethylene series. Nuclear [³H]tamoxifen binding capacity is thermolabile, being most stable at 4°C and rapidly lost at 37°C. More [³H]tamoxifen, however, is specifically bound at incubation temperatures of 25°C and 37°C than at 4°C although prewarming nuclei has no effect, suggesting exchange of [³H]tamoxifen for an unidentified endogenous ligand. Nuclear antiestrogen binding sites are destroyed by trypsin but not by deoxyribonuclease I or ribonuclease A. The nuclear antiestrogen binding protein is not solubilized by 0.6 M potassium chloride, 2 M sodium chloride, 0.6 M sodium thiocyanate, 3 M urea, 20 mM pyridoxal phosphate, 1% (w/v) digitonin or 2% (w/v) sodium cholate but is extractable by sonication, indicating that it is tightly bound within the nucleus. Rat liver nuclear matrix contains high-affinity (K_d=10⁻⁹ M) [³H]tamoxifen binding sites present in 5-fold higher concentrations (4.18 pmol/mg DNA) than in intact nuclei (0.78±0.10 (S.D.) pmol/mg DNA). Low-speed rat liver cytosol (20 000×g, 30 min) contains high-capacity (955±405 (S.D.) fmol/mg protein), low-affinity (K_d=10.9±4.5 (S.D.) nM) antiestrogen binding sites. In contrast, high-speed cytosol (100 000×g, 60 min) contains low-capacity (46±15 (S.D.) fmol/mg protein), high-affinity (K_d=0.61± 0.20 (S.D.) nM) binding sites. Low-affinity cytosolic sites constitute more than 90% of total liver binding sites, high-affinity cytosolic sites 0.3%–3.2%, and nuclear sites less than 0.5% of total sites.     

Effect of post-synthetic modifications of proteins on the binding of estrogen-receptor complex to uterine nuclei of aging rats

The binding of estrogen-receptor (ER) complex to nuclei following post-synthetic modifications of proteins was examined in the uteri of young (18 weeks) and old (96 weeks) rats. Acetylation decreases the binding of ER complex to nuclei but methylation shows no effect on the extent of binding in both ages. On the other hand, phosphorylation enhances the binding of ER complex by two-fold in nuclei from young rats but reduces this to half in nuclei from old rats. The pattern of binding in salt-resistant nuclear fractions is similar to that in total nuclei except in methylation where old rats show about 20% higher binding as compared to the respective control. These findings suggest that post-synthetic modifications of proteins modulate the binding of ER complex to uterine nuclei in an age-specific manner.     

Sensitive detection of estradiol based on ligand binding domain of estrogen receptor and gold nanoparticles

With increasing concerns of estrogenic effects of endocrine disrupting compounds, the development of simple detection assay for these compounds is an ongoing need. Herein, a simple, rapid, and highly sensitive assay for estradiol (E2) detection was developed using the ligand binding domain of estrogen receptor α (LBD-ERα), the receptor interacting domain of steroid receptor co-activator 1 (RID-SRC1), and gold nanoparticles (AuNPs). The colloidal AuNPs could be stabilized against a salt-induced aggregation by adding LBD-ERα protein. However, with the presence of E2, the specific binding of LBD-ERα protein and E2 led to a salt-induced aggregation of AuNPs as seeing from a color change from red to blue. This developed assay exhibited a high sensitivity for E2 detection with the limit of detection (LOD) of 2.62 × 10⁻¹⁴ M. When the RID-SRC1 protein was included, the detection sensitivity was increased, which the LOD for E2 was at 1.20 × 10⁻¹⁵ M. This assay was specific for a detection of E2 but not progesterone, the negative control ligand. Results of this work clearly showed the efficiency of developed assay for E2 detection, which possibly further developed for an onsite monitoring of E2.     

Similarities and differences of the binding of estradiol and 4-hydroxytamoxifen (an antiestrogen) in the chick oviduct cytosol

The binding characteristics of [³H]estradiol and 4-[³H]hydroxytamoxifen (a powerful estradiol antagonist) in the chick oviduct cytosol was analyzed by sucrose gradient centrifugation and dissociation kinetics experiments at 28°C. Heating the cytoplasmic estradiol-estrogen receptor complexes led to the ‘transformation’ of the receptor; as with the estrogen receptor in other target tissues and species, the transformed receptor sedimented in the 5 S region of sucrose gradients containing 0.4 M KCI and had a slower rate of dissociation of bound estradiol. Upon heating, the cytoplasmic 4-hydroxytamoxifen complexes also appeared to undergo similar changes in their physical states as analyzed by sedimentation rates and dissociation kinetics, and we conclude that antiestrogen can transform the receptor. Sodium molybdate inhibited the temperature mediated changes with both estrogen and antiestrogen complexes. Slight but consistent differences in the sedimentation coefficient and rate of ligand dissociation were observed between the complexes formed by estradiol and 4-hydroxytamoxifen but the relevance to opposite biological activities remains unknown.     

三苯氧胺和雌二醇对大鼠子宫雌激素受体的竞争性结合作用

利用改进的葡聚糖活性炭饱和分析法（ＤＣＣ法）,对卵巢切除大鼠注射雌二醇（Ｅ组）或同时注射雌二醇和三苯氧胺（Ｅ＋Ｔ组）后６ｈ至６４ｄ,进行子宫ＥＲ含量测定,发现,Ｅ＋Ｔ组比Ｅ组的ＥＲ值小并且增加缓慢;Ｅ组的ＥＲ值在注射后３０ｄ达到最大值而且数值超过对照组（Ｃ组）。计算机曲线拟合Ｅ组或Ｅ＋Ｔ组与Ｃ组的ＥＲ比值求得：Ｅ组开始注射雌二醇时ＥＲ水平为Ｃ组的２．０３３倍,即＝２．０３３,恢复过程的时间常数τ＇为５１．５５ｄ,３￣Ｈ－雌二醇与ＥＲ结合过程的时间常数τ为１３．０ｄ;Ｅ＋Ｔ组的＝１．３１５,τ＇＝３８．７６ｄ,τ＝２１．５５ｄ,说明同时给予三苯氧胺和雌二醇情况下,三苯氧胺有抑制雌二醇诱导ＥＲ水平升高的作用,并减缓３￣Ｈ－雌二醇与ＥＲ的结合过程。另外,还求得Ｅ＋Ｔ组中三苯氧胺和ＥＲ和结合率约占４３．７％,表明三苯氧胺与雌二醇对ＥＲ有竞争性结合作用。     

Catecholamine binding to the α-adrenergic receptors of hamster adipocytes evidence that guanine nucleotides regulate this binding to the α2-receptor subtype

The binding characteristics of the α-component of (?)-[³H]norepinephrine to hamster adipocyte membranes were studied. Binding was rapid, reaching equilibrium in 20 min at 25°C. Dissociation of specific binding by 10 μM phentolamine suggested dissociation from two different sites. The time course of dissociation induced by a 50-fold dilution was unchanged by the addition of norepinephrine, suggesting the absence of cooperative binding sites. [³H]norepinephrine binding was saturable, yielding curvilinear Scatchard plots. Computer modeling of these data further supported the existence of two classes of binding sites, one with high affinity (_D = 23 nM) but low binding capacity (96 fmol/mg protein) and one with low affinity (K_D = 400 nM) but high binding capacity (1000 fmol/mg protein). Adrenergic ligands of competed with [³H]norepinephrine binding in the following order of potency: (?)-norepinephrine>(?)-epinephrine>>(+)-norepinephrine>(?)-isoproterenol. Displacement by the selective α-adrenergic drugs prazosin, clonidine and yohimbine yielded biphasic curves consistent with binding of [³H]norepinephrine to both α₁- (14–22%) and α₂- (78–86%) receptor subtypes. Although Gpp(NH)p failed to alter the binding of [³H]dihydroergocryptine, it severely reduced the binding affinity of (?)-epinephrine, (?)-norepinephrine and the selective α₂-agonist, clonidine. The inhibitory effects of clonidine and of the α-component of (?)-epinephrine on the adrenocorticotropin-stimulated cyclic AMP production in the intact adipocyte were closely correlated with their effects on the binding of both [³H]norepinephrine and [³H]dihydroergocryptine. Conversely, yohimbine but not prazosin markedly antagonised the α-inhibitory effect of norepinephrine on cyclic AMP production. These data led to concluded that [³H]norepinephrine can be successfully used to study the entire α-adrenergic receptor population of hamster fat cells and that the predominant α₂ -receptor subtype exists in two different affinity states for agonists, the proportions of which are modulated by guanine nucleotides.     

Regulation of cytosol and nuclear progesterone receptors in rabbit uterus by estrogen,antiestrogen and progesterone administration

A synthetic progestin, 16α-ethyl-21-hydroxy-19-nor-4-pregnene-3,20-dione (ORG 2058), was utilized to measure progesterone receptors from the rabbit uterus. This steroid has a high affinity for both cytosol and nuclear receptors, with K_D values of 1.2 nM (at 0–4°C) and 2.3 nM (at 15°C), respectively. Administration of estradiol-17β or a non-steroidal antiestrogen, tamoxifen, for 5 days to estrous rabbits led to a progressive rise in the cytosol receptor levels: from 34 000 to 120 000 (estradiol-17β) and 80 000 (tamoxifen) receptors/ cell, without any major influence on the nuclear receptor content. A single intravenous injection of progesterone (5 mg/kg) elicited a 3-fold increase in the mean nuclear receptor content at 30 min after injection (from 18 000 to 48 000 receptors/nucleus). Nuclear receptor accumulation was short-lived and returned to control levels within 4 h after treatment. A second dose of progesterone given 24 h later doubled the nuclear receptor level (from 18 000 to 35 000 receptor/nucleus). The concomitant decline in the cytosol receptor content was twice that accounted for by the nuclear receptor accumulation (70 000 vs. 30 000, and 40 000 vs. 17 000 receptors/cell, after the first and second progesterone injection, respectively). Following progesterone administration, the cytosol receptor level reached a nadir by 30 min, exhibited minimal replenishment within the ensuing 24 h, and remained at approx. 50% of the pretreatment values. After a single dose or two consecutive doses of progesterone, total uterine progesterone receptor content declined to about 60% of the level prior to each dose, a nadir being reached at 2 h after treatment.     

Synergistic effect of estrogen and androgen on induction of uterine thymidine kinase activities in immature rats

Estrdiol-17β induced a significant increase in the uterine thymidine kinase activity with a characteristic isozyme pattern 30 h after injection into immature rats. Testosterone propionate also revealed a similar increase. Following combined injection of estradiol-17β and testosterone propionate, the overall and separate isozyme activities of thymidine kinase increased to nearly the total amount of those when each hormone was injected separately.     

Estrogen-induced synthesis of uterine proteins declines during aging

The synthesis of total cellular as well as acid-soluble nuclear proteins and estrogen receptor is high in the uteri of young (22 weeks) and decreases to half in old (104 weeks) rats. Administration of estrogen induces the synthesis of these proteins significantly in young but shows no remarkable effect in old rats. Interestingly, a specific cytosolic protein of 45 kDa is stimulated about two-fold after estrogen injection in young but not in old rats. These findings further establish the reduced responsiveness of uterus to estrogen in old age.     

Specific strychnine binding sites on acrosome-associated membranes of golden hamster spermatozoa

This study demonstrates for the first time, that membrane vesicles originated from the hamster sperm head after the occurrence of the acrosome reaction, possess specific strychnine binding sites. [3H]Strychnine binding was saturable and reversible, being displaced by unlabeled strychnine (IC(50)=26.7+/-2.3 microM). Kinetic analysis revealed one binding site with K(d)=120nM and B(max)=142fmol/10(6) spermatozoa. Glycine receptor agonists beta-alanine and taurine inhibited strychnine binding by 20-30%. Surprisingly, glycine stimulated binding by about 40-50%. Results obtained in this study strongly suggest the presence of glycine receptors-with distinctive kinetic properties on the periacrosomal plasma membrane of hamster spermatozoa. Localization of this receptor fits well with its previously proposed role in acrosomal exocytosis during mammalian fertilization.     

Properties of histidyl-proline diketopiperazine [cyclo(His-Pro)] binding sites in rat liver

Characteristics of cyclo(His-Pro) binding sites in the rat liver were studied using 3H-labeled cyclo(His-Pro). Scatchard analysis suggested that the rat liver membrane had a single binding site with an apparent dissociation constant (Kd) of 7 X 10(-8) M. Pretreatment of membrane preparations with soybean trypsin inhibitor increased cyclo(His-Pro) binding, and the binding activity was sensitive to trypsin and phospholipase A digestion, suggesting that protein and phospholipid moieties are essential for cyclo(His-Pro) binding. Thiol reagents reduced binding activity, suggesting that the thiol group might be an important constituent of the cyclo(His-Pro) binding site. Cross-reactivities of TRH, TRH analogues, L-His and L-Pro were very low (0.2-9%). These findings indicate that specific binding sites for cyclo(His-Pro) in the rat liver have similar properties to the receptors for other polypeptides.     

Relations between fatty acids and oestrogen binding properties of pure rat alpha1-foetoprotein

A delipidation procedures based on treatment with charcoal at pH 3 has been applied to highly purified rat alpha₁-foetoprotein preparations. The oestrogen binding properties of the delipidated proteins have been studied with an equilibrium dialysis technique, and compared with the properties of the untreated foetal protein, as well as those of preparations reconstituted from the defatted α₁-foetoprotein and the removed lipids. An important increase has been evidenced for the binding levels of oestrone, oestradiol-17β and diethyl-stilboestrol by the delipidated α₁-foetoprotein. A reversal of this effect has been obtained by incubating the delipidated protein either with the lipids extracted from the purified α₁-foetoprotein or with a potent competitor of the rat α₁-foetoprotein-oestrogen interaction, designated as ‘L’, previously demonstrated and isolated from whole rat sera, and tentatively characterized as a mixture of fatty acids. Scatchard analysis of the oestrone and oestradiol-17β binding parameters show that the enhanced fixation of the hormones after defatting is primarily due to a two-fold increase of the apparent number of binding sites/ mol α₁-foetoprotein. The results are interpreted in terms of the probable, at least partial, identity between the lipids closely associated with the pure α₁-foetoprotein and the fatty acid mixture ‘L’ isolated from whole sera. The possible biological role of a complex interplay between oestrophilic α₁-foetoproteins, phenolsteroids and fatty acids in the control of eostrogen levels during development is discussed brieftly.     

Analysis of 3D models of octopus estrogen receptor with estradiol: evidence for steric clashes that prevent estrogen binding

Relatives of the vertebrate estrogen receptor (ER) are found in Aplysia californica, Octopus vulgaris, Thais clavigera, and Marisa cornuarietis. Unlike vertebrate ERs, invertebrate ERs are constitutively active and do not bind estradiol. To investigate the molecular basis of the absence of estrogen binding, we constructed a 3D model of the putative steroid-binding domain on octopus ER. Our 3D model indicates that binding of estradiol to octopus ER is prevented by steric clashes between estradiol and amino acids in the steroid-binding pocket. In this respect, octopus ER resembles vertebrate estrogen-related receptors (ERR), which have a ligand-binding pocket that cannot accommodate estradiol. Like ERR, octopus ER also may have the activation function 2 domain (AF2) in a configuration that can bind to coactivators in the absence of estrogens, which would explain constitutive activity of octopus ER.     

Insulin binding in human skeletal muscle

Insulin binding to crude plasma membranes derived from human skeletal muscle was characterized. Incubations were performed for 22 h at 4°C. Typical insulin binding characteristics were found, i.e., (a) specificity for insulin, (b) pH sensitivity, (c) dissociation of insulin by the addition of excess insulin and (d) concave Scatchard curves. Half-maximal inhibition of ¹²⁵I-labeled-insulin binding occurred at 1 · 10^?8 M. Affinity constants were 0.76 · 10⁹ and 0.02 · 10⁹ M^?1 for the high- and low-affinity receptor (2-site model), respectively, and the corresponding receptor numbers were 89 and 1450 fmol/mg protein, respectively. The procedures employed permit the determination of insulin binding to small quantities of human muscle (approx. 250 mg).     

Diurnal, circadian and photic regulation of calcium/calmodulin-dependent kinase II and neuronal nitric oxide synthase in the hamster suprachiasmatic nuclei

Mammalian circadian rhythms are entrained by light pulses that induce phosphorylation events in the suprachiasmatic nuclei (SCN). Ca²⁺-dependent enzymes are known to be involved in circadian phase shifting. In this paper, we show that calcium/calmodulin-dependent kinase II (CaMKII) is rhythmically phosphorylated in the SCN both under entrained and free-running (constant dark) conditions while neuronal nitric oxide synthase (nNOS) is rhythmically phosphorylated in the SCN only under entrained conditions. Both p-CaMKII and p-NOS (specifically phosphorylated by CaMKII) levels peak during the day or subjective day. Light pulses administered during the subjective night, but not during the day, induced rapid phosphorylation of both enzymes. Moreover, we found an inhibitory effect of KN-62 and KN-93, both CaMKII inhibitors, on light-induced nNOS activity and nNOS phosphorylation respectively, suggesting a direct pathway between both enzymes which is at least partially responsible of photic circadian entrainment.