Identification of receptors in a system of functionally heterogeneous proteins specifically bound to androgens in rat liver cytosol

The methods of androgen receptor (RA) isolation and identification in rat liver cytosol were studied. It was shown that male rat liver contains a system of specific androgen (A)-binding proteins consisting of at least three main components: RA, delta 4-androstendione (delta 4-A)-binding component and an unusual estrogen-binding protein interacting also with A and the first two components in females. The identity of one of A-binding components to RA was proved by cumulative properties of this component which are similar to those of RA from other tissues. These properties are as follows: 1) high values of apparent association constant, Ka, for 3H-R1881 (2.8 +/- 0.3 X 10(8) M-1) and 3H-5 alpha-dihydrotestosterone (3H-DHT) (5.0 +/- 0.4 X 10(8) M-1); 2) low binding capacity--approximately 10 fmol/mg of protein of nonfractionated cytosol; 3) pronounced specificity of affinity for active A (DHT, R1881, testosterone); 4) large size of the protein molecule (6.5 +/- 0.25 nm); 5) ability to decrease this size to 3.2 +/- 0.08 nm in a high ionic strength buffer; 6) precipitation at low concentrations of ammonium sulfate: 7) strong interaction with heparin-Sepharose. The properties of the delta 4-A-binding component do not coincide with those of RA: it has a low Ka for 3H-delta 4-A (1.15 +/- 0.5 X 10(6) M-1), a high binding capacity (1.22 +/- 0,12 pmol/mg of protein of nonfractionated cytosol) and can bind various delta 4-3-ketosteroids irrespective of the degree and nature of their biological activity. It was concluded that preliminary isolation of rat liver RA on heparin-Sepharose can be used for differential identification and characterization of this protein.     

Interaction of dexamethasone-receptor complexes with rat liver nuclei and DNAs]

The role of DNAs in the nuclear binding of dexamethasone-receptor complexes (DRC) was studied. The cytosolic receptors from rat liver have a sedimentation coefficient of about 7S, the Stock's radius--of about 50 A and possess a high affinity to dexamethasone (Kas = 2,6 X 10(8) M-1). Their capacity is 3 X 10(-13) and 5.5--7.0 X 10(-12) mole of dexamethasone per mg cytosolic protein and mg DNA, respectively. DRC has the ability to bind to the nuclei of rat liver. DRC binding to nuclei is increased approximately 3-fold by temperature activation of cytosol. The nuclear acceptor sites are saturated at the level of 16.2 pmoles of bound DRC per mg nuclear DNA. Free DNA has the ability to compete with nuclei for binding with DRC. Temperature-activated DRC can bind both with homo- and heterologous DNAs. Secondary DRC-DNA complexes were isolated by means of gel filtration on Sepharose 4B. Thermal denaturation of DNA decreases its ability to bind DRC approximately 2-fold. DNAs of a similar nucleotide composition, i.e. DNA from rat liver (GC = 43 mole%) and DNA from Photobacterium belozerskii (GC = 44 mole%), have a close DRC-binding ability. At the same time, these DNAs bind about 1.5-fold less DRC, as compared to DNA from Pseudomonas aeruginosa (GC = 67 mole%) and about 1.5-fold more, than does DNA from T2 phage (GC = 35 mole%). Thus the positive correlation between the GC composition of DNA and its DRC-binding ability was established. Unique sequences (Cot greater than 600) bind several times less DRC than the reiterated sequences (also denaturated) (Cot = O--600) of rate liver DNA. Thus, DNA can be considered as a nuclear acceptor of DRC. It is assumed, that DRC is able to recognise in DNA certain short GC-rich sequences, distributed in the rate genome in a non-random fashion.     

Antiestrogen binding sites in rat liver nuclei

Isolated, intact rat liver nuclei have high-affinity (Kd = 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 degrees C and rapidly lost at 37 degrees C. More [3H]tamoxifen, however, is specifically bound at incubation temperatures of 25 degrees C and 37 degrees C than at 4 degrees C although prewarming nuclei has no effect, suggesting exchange of [3H]tamoxifen for an unidentified endogeneous 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 (Kd = 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 X g, 30 min) contains high-capacity (955 +/- 405 (S.D.) fmol/mg protein), low-affinity (Kd = 10.9 +/- 4.5 (S.D.) nM) antiestrogen binding sites. In contrast, high-speed cytosol (100 000 X g, 60 min) contains low-capacity (46 +/- 15 (S.D.) fmol/mg protein), high-affinity (Kd = 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.     

Some basic properties of sheep liver cAMP-dependent protein kinase

Sheep liver cytosol (105,000 X g supernatant) yields two major peaks of protein kinase by using DEAE-Trisacryl M as an ion-exchange resin at pH 7.0. Peak I (Type-I), corresponding to 30-50% of the total activity, is not retained by the column at a starting ionic strength of ca. 0.06 M, while Peak-II (Type-II) is eluting at 0.17 M ionic strength. Both peaks are found to be dependent on cAMP and are active on histone (ATP: Protein phosphotransferase, EC 2.7.1.37). Kms apparents for histone and ATP are 1.5 +/- 0.5 mg/ml and 16 +/- 4 microM, respectively, for PrK-I while that of PrK-II are 1.8 mg/ml and 28.6 microM, respectively. Both enzymes are found to be stable for two weeks at 4 degrees C. Molecular weight determination of crude extract (105,000 X g supernatant) show three peaks corresponding to the molecular weights of 251,000; 131,800 and 43,600.     

Molecular and hormone-binding properties of a partially purified preparation of androgen receptors from the liver of male rats

Liver cytosol of mature male rats was found to contain androgen receptors (AR). These AR were purified 7--10-fold, and their molecular and hormone-binding properties were investigated. It was found that the AR molecules have a sedimentation coefficient of 9.3 +/- 0.15 and 4.7 +/- 0.11 S, Stokes radius of 6.5 +/- 0.25 and 3.2 +/- 0.08 nm, Mr of 263000 and 65700 Da and friction coefficient ratio of 1.55 and 1.22 for low and high ionic strength media, respectively. The values of rate constants of [3H]methyltrienolone (R1881) association with AR and for the dissociation of the complexes formed are equal to (0.66 +/- 0.29). .10(5) M-1 s-1 and to (0.68 +/- 0.08).10(-5) s-1, respectively, whereas those of equilibrium association constant--to (1.4 +/- 0.3).10(9) M-1 at 0-4 degrees C. It was shown that R1881, 5 alpha-dihydrotestosterone and testosterone strongly compete with 3H-R1881 for the binding with AR (as can be judged from the relative competitive activity of 35 nonlabeled hormonal agents); 19-nortestosterone and delta1-testosterone are more weak, whereas 5 alpha-androstandiols, some hydroxy derivatives of testosterone, cyproterone acetate, estradiol and progesterone are moderate competitors. Other natural testosterone, estradiol and progesterone metabolites as well as corticosteroids do not compete or weakly compete with 3H-R1881 for the binding to AR. It is concluded that the properties of AR are similar to those of classical type AR and that they can intermediate most of the direct effects of androgens on the liver.     

Effects of L-thyroxine and L-triiodothyronine on protein and nucleic acid contents of liver of 6N-2-propylthiouracil treated hypothyroid singi fish, Heteropneustes fossilis bloch

Three consecutive injections of 12.5 X 10(-10) and 25 X 10(-10) moles/g of L-thyroxine (T4) or a single injection of L-triiodothyronine (T3) at 7.5 X 10(-10) moles/g to Singi fish caused an increase in liver protein and RNA contents, whereas similar injections of 50 X 10(-10) moles/g of T4 or 75 X 10(-10) moles/g of T3 caused a fall in these cellular constituents in liver. Treatments of Singi fish with thiourea (1 mg/ml) for 30 days caused a fall in the protein and RNA contents in liver which were restored to the euthyroid control level by a single injection of 7.5 X 10(-10) moles/g of T3 or three consecutive injections of T4 at 12.5 X 10(-10) moles/g dose. Administration of T4 (12.5 X 10(-10) moles/g, three consecutive injections) along with 6N-2-propylthiouracil (PTU) at 20 micrograms/g of b. w. in six consecutive injections to the thiourea treated (hypothyroid) fish failed to cause any change in hepatic protein and RNA contents in comparison to only PTU-treated hypothyroid fish, but a single injection of 7.5 X 10(-10) moles/g of T3 to the PTU-treated hypothyroid fish increased these cellular constituents of liver. A dose-dependent biphasic nature of thyroid hormone action, a higher potency of T3 than T4 and the probable 'prohormone' nature of T4 have been documented in case of Singi fish in the present experiments.     

The effect of Mg2+ on the Ca2+-binding properties of non-activated phosphorylase kinase.

The calcium binding properties of non-activated phosphorylase kinase at pH 6.8 have been studied by the gel filtration technique at calcium concentrations from 50 nM to 50 muM. Taking into account the subunit structure alpha4beta4gamma4 the enzyme binds 12 mol Ca2+ per mol with an association constant of 6.0 X 10(7) M-1, 4 mol with an association constant of 1.7 X 10(6) M-1 and 36 mol with a binding constant of 3.9 X 10(4) M-1 at low ionic strength. In buffer of high ionic strength, i.e. 180 mM NH4Cl or 60 mM (NH4)2SO4, only a single set of eight binding sites with a binding constant of 5.5 X 10(7) M-1 is left. In a buffer containing 155 mM NH4Cl and 10 mM MgCl2, the calcium affinity of these sites is reduced to a KCa of 3.0 X 10(6) M-1, indicating competition between Ca2+ and Mg2+. From these measurements, the binding constant of Mg2+ for these sites is calculated to be 1.7 X 10(3) M-1 is left. In a buffer containing 155 mM NH4Cl and 10 mM MgCl2, the calcium affinity of these sites is reduced to a KCa of 3.0 X 10(6) M-1, indicating competition between Ca2+ and Mg2+. from these measurements, the binding constant of Mg2+ for these sites is calculated to be 1.7 X 10(3) M-1. Additionally, 10 mM Mg2+ induces a set of four new Ca2+ binding sites which show positive cooperativity. Their half-saturation constant under the conditions described is 3.5 X 10(5) M-1, and they, too, exhibit competition between Ca2+ and Mg2+. Since this set of sites is induced by Mg2+ a third group of binding sites for the latter metal must be postulated.     

Effects of adrenaline pretreatment on in vitro binding of 125I-triiodothyronine to nuclear receptor, intracellular distribution of endogenous triiodothyronine and activities of alfa-glycerophosphate dehydrogenase and malic enzyme in rat liver

Especially coated adrenaline tablets (A) or placebo tablets (P) which release linearly the hormone were implanted in male Wistar rats. Six hours later animals were sacrificed and kinetic parameters of T3-125I binding to nuclear receptor, intracellular distribution of endogenous T3 and activities of alfa-GPD and ME were investigated. The association constant values (Ka) of nuclear receptor were increased after pretreatment with 7.5, 15 and 45 mg A tablets and were 1.07, 1.35 and 1.48 X 10(9) M-1 vs 0.85 X 10(8) M-1 value seen after P. The maximal binding capacity (MBC) values decreased after pretreatment with the same doses of A and were 0.044, 0.036 and 0.025 pmol T3/100 micrograms DNA vs. 0.065 pmol T3/100 micrograms DNA in P pretreated. Adrenaline pretreatment significantly increased the amount of endogenous T3 present in liver nuclei while the amount of T3 present in cytosol decreased. Activity of mitochondrial alfa-GPD was increased after 15 and 45 mg of A. Significant rise of activity of cytosol ME was seen only after pretreatment with 45 mg of A.     

Properties of sex steroid-binding protein from Xenopus laevis blood serum and detection of an estradiol-binding component in frog liver cytosol which differs from sex steroid-binding protein]

Binding and physico-chemical properties of sex steroid-binding protein (SBP) from blood serum and those of estrogen-binding components from liver cytosol of pubertal male and female species of clawed frog Xenopus laevis were studied. It was shown that SBP from both sex species of X. laevis specifically binds estradiol (E2) (Ka=5 . 10(6) M-1). Concentration of SBP binding sites for E2 is 7 . 10(-12) mole per mg of protein. Testosterone 5alpha-dihydrotestosterone and E2 effectively compete with [3H]-E2 for SBP binding sites. Hexestrol, progesterone and corticosterone are weak competitors; estrone and E2-17-hemisuccinate do not compete at all. The Strokes radius of SBP is 4.4 nm; sedimentation coefficient is 4.6S. Molecular weight of SBP is 88000; f/f0 is 1.5 SBP from male frog sera has been purified 8.6-fold with 13% yield. Gel-filtration of [3H]-E2 complexes with liver cytosol proteins shows that the livers of male and female frog X. laevis consol proteins shows that the livers of male and female frog X. laevis contain very low amounts of macromolecular component, which specifically binds E2; this component differs from serum SBP in size and in hormonal specificity. It is assumed that this component is a receptor for estrogens.     

High affinity estrogen binding by rabbit liver

Macromolecular binding components for [3H]estradiol-17beta 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 specificity and various physiocochemical parameters. [3H]estradiol binding to the 4--5 S component was not inhibited by estrogens, 5alpha-dihydrotestosterone, progesterone or cortisol. Binding to this component did not appear to be saturable and label was rapidly stripped from it by charcoal. Estradiol binding 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 Kd 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 incubation of [3H]estradiol with mature male liver cytosol at 0--5 degrees C polar metabolites of estradiol are produced.     

Binding of Clostridium botulinum neurotoxin to gangliosides

The binding characteristics of Clostridium botulinum neurotoxins of types B, C1, and F to gangliosides was studied by thin layer chromatography plate and microtiter plate methods at low (10 mM NaCl in 10 mM Tris-HCl buffer, pH 7.2) or high (150 mM NaCl in 10 mM Tris-HCl buffer, pH 7.2) ionic strengths and at 0 or 37 degrees C. The three types of toxins bound exclusively to three kinds of gangliosides, GD1a, GD1b, and GT1b, in both the thin layer chromatography plate and the microtiter plate methods. Type C1 toxin bound to the three gangliosides under all the conditions, while type B and F toxins bound only at low ionic strength and 37 degrees C. At low ionic strength, the binding kinetics for the three toxins was monophasic in Scatchard plots, and the association constants obtained in the microtiter plate system were 2-4 X 10(8) M-1. In contrast, the binding kinetics of type C1 toxin in high ionic strength was biphasic in the Scatchard plot, and two association constants were obtained in the microtiter plate system. The heavy chain facilitated the binding of the toxin to the gangliosides. These results indicate that different types of botulinum toxins bind to the gangliosides under different optimal conditions and that gangliosides may not be the common receptor for all types of botulinum toxins. The gangliosides may bind to type C1 toxin together with other potential receptor(s) on synaptosomal membranes.     

An investigation of sites that bind human somatotropin (growth hormone) in the liver of the pregnant rabbit.

The binding of 125I-labelled human somatotropin (growth hormone) to a crude membrane preparation from the liver of pregnant rabbit, and to receptors solubilized from this fraction by Triton X-100, was dependent on time, temperature and receptor concentration. At 4 degrees C a steady state was reached after 20 h, and maximum specific binding (as a percentage of total tracer added) was approx. 50% for both membrane-bound and solubilized receptors. Solubilization did not significantly affect the binding properties of the receptor at low concentrations of Triton X-100 (less than 0.05%, v/v, in the assay tube). However, at higher concentrations (approx. 0.1%, v/v), the detergent lowered the ability of some hormones, for example ovine prolactin, to displace 125I-labelled human somatotropin, but did not affect other hormones such as bovine somatotropin. Some somatogenic hormones, such as bovine somatotropin, and some lactogenic hormones, such as ovine prolactin, displaced 125I-labelled human somatotropin from membrane-bound and solubilized receptor preparations. Furthermore, 85% of 125I-labelled bovine somatotropin was displaced from membrane-bound receptors by ovine prolactin, and 125I-labelled ovine prolactin was almost completely displaced by bovine somatotropin. Scatchard analysis of the binding data for human somatotropin suggested a single class of binding sites in the membrane-bound receptor preparation, with an affinity (Ka) of 1.9 X 10(9) M-1 and a capacity of 1726 fmol/mg of protein; these values were slightly increased by solubilization (Ka = 3.2 X 10(9) M-1, capacity = 2103 fmol/mg of protein). Scatchard analysis of binding to membrane-bound receptors also indicated a single class of high-affinity binding sites for bovine somatotropin (Ka = 4.8 X 10(9) M-1, capacity = 769 fmol/mg) and for ovine prolactin (Ka = 6.1 X 10(9) M-1, capacity = 187 fmol/mg).     

Reaction between dexamethasone-receptor complexes and isolated nuclei from Zajdela hepatoma and rat liver cells]

Temperature-activation of the hormone-receptor complex (HRC) was shown to be necessary to ensure its translocation from cytoplasm to nucleus both in the rat liver and hepatoma. Hepatoma nuclei bind 20 times less HRC derived from homologous hepatoma cytosol (0.15 pmol/mg DNA), but twice as much (5.6 pmol/mg DNA) of HRC from heterologous liver cytosol, as compared with the binding of HRC from normal liver cytosol by liver nuclei (3 pmol/mg DNA), Ka of HRC with the acceptor sites in hepatoma and liver nuclei were found to be practically of the same order of magnitude. The above findings suggest an inhibition of cytosol-nucleus translocation of HRC from the cytosol of hepatoma cells as a possible cause of the nonresponsiveness of the latter to the hormone.     

Androgen receptor binding to nuclear matrix in vitro and its inhibition by 8S androgen receptor promoting factor

The partially purified 4.5S [3H]dihydrotestosterone receptor binds to nuclear matrix isolated from rat Dunning prostate tumor with properties similar to those reported for androgen receptor binding in intact nuclei [Colvard, D.S., & Wilson, E.M. (1984) Biochemistry (preceding paper in this issue)] in that it requires Zn2+ and mercaptoethanol, is saturable, and is temperature dependent and of high affinity (Ka approximately 10(13) M-1). On a milligrams of DNA equivalent basis, the extent of matrix binding of androgen receptor (700 fmol of receptor bound/mg of matrix protein) is similar to that of intact nuclei, corresponding to approximately 1400 sites/nucleus. Association rate constants (ka) for 4.5S androgen receptor binding to matrix at 0, 15, and 25 degrees C are 2.7 X 10(5), 1.2 X 10(6), and 2.4 X 10(6) M-1 min-1, respectively, indicating an energy of activation of 15 kcal/mol. Up to 50% of matrix-bound receptor is extractable in buffer containing 3 mM ethylenediaminetetraacetic acid plus either 0.4 M KCl or 5 mM pyridoxal 5'-phosphate. A protein fraction designated 8S androgen receptor promoting factor that promotes conversion of the 4.5S androgen receptor to 8 S [Colvard, D. S., & Wilson, E. M. (1981) Endocrinology (Baltimore) 109, 496-504] has been further purified and found to inhibit the binding of the 4.5S androgen receptor to isolated nuclei and nuclear matrix in a concentration-dependent manner. The results support the hypothesis that the 8S steroid receptor is a complex of the activated 4.5S androgen receptor with a non-steroid binding protein that renders the receptor incapable of binding in nuclei.     

Reduction kinetics of the ferredoxin-ferredoxin-NADP+ reductase complex: a laser flash photolysis study

The kinetics of reduction of spinach ferredoxin (Fd), ferredoxin-NADP+ reductase (FNR), and the Fd-FNR complex have been investigated by the laser flash photolysis technique. 5-Deazariboflavin semiquinone (5-dRf), generated in situ by laser flash photolysis under anaerobic conditions, rapidly reduced both oxidized Fd (Fdox) (k = 2 X 10(8) M-1 s-1) and oxidized FNR (FNRox) (K = 6.3 X 10(8) M-1 s-1) at low ionic strength (10 mM) at pH 7.0, leading to the formation of reduced Fd (Fdred) and FNR semiquinone (FNR.), respectively. At higher ionic strengths (310 and 460 mM), the rate constant for the reduction of the free Fdox increased about 3-fold (k = 6.7 X 10(8) M-1 s-1 at 310 mM and 6.4 X 10(8) M-1 s-1 at 460 mM). No change in the second-order rate constant for reduction of the free FNRox was observed at high ionic strength. At low ionic strength (10 mM), 5-dRf. reacted only with the FAD center of the preformed 1:1 Fdox-FNRox complex (k = 5.6 X 10(8) M-1 s-1), leading to the formation of FNR.. No direct reduction of Fdox in the complex was observed. No change in the kinetics occurred in the presence of excess NADP+. The second-order rate constant for reduction of Fdox by 5-dRf. in the presence of a stoichiometric amount of fully reduced FNR at low ionic strength was 7 X 10(6) M-1 s-1, i.e., about one-thirtieth the rate constant for reduction of free Fdox.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of the C1q receptor on a human macrophage cell line, U937.

The binding of C1q to the human macrophage cell line U937 has been studied. Fluorescence microscopy with fluorescein-conjugated F(ab')2 anti-C1q antibody showed that 100% of the cell population is able to bind exogenous C1q. Monomeric C1q binding to U937 cells is very weak at normal ionic strength (I0.15) and was therefore investigated at I0.07, conditions which stabilize the binding. However, aggregation of C1q on dextran sulphate or a lipid A-rich lipopolysaccharide allowed a firm, binding at I0.15. Quantitative binding studies with monomeric 125I-C1q showed a concentration-dependent, saturable, specific and reversible binding involving specific membrane receptors. Scatchard plots of C1q binding indicated [1.6 +/- 0.7 (1 S.D.)] X 10(6) sites per cell with an equilibrium constant of (2.9 +/- 1.8) X 10(7) M-1 at I0.07. The location of the molecule region mediating C1q binding was established with collagen-like fragments prepared by partial pepsin digestion, confirming earlier results obtained by inhibition studies.     

Reduction of horse heart ferricytochrome c by bovine liver ferrocytochrome b5. Experimental and theoretical analysis.

The reduction of horse heart ferricytochrome c by the tryptic fragment of bovine liver cytochrome b5 and its dimethyl ester heme (DME)-substituted derivative has been studied as a function of ionic strength, pH, and temperature under solution conditions where the reaction is bimolecular. The rate constant for ferricytochrome c reduction by native ferrocytochrome b5 is 1.8 (+/- 0.2) x 10(7) M-1 s-1 (25 degrees C) with delta H++ = 7.5 (+/- 0.2) kcal/mol and delta S++ = -0.3 (+/- 0.6) eu (pH 7.0, I = 0.348 M). Under the same solution conditions, the reduction of ferricytochrome c by DME-ferrocytochrome b5 proceeds with a rate constant of 1.7 (+/- 0.1) x 10(7) M-1 s-1 with delta H++ = 7.9 (+/- 0.4) kcal/mol and delta S++ = 1 (+/- 1) eu. The rate constants for both reactions are strongly dependent on ionic strength. A detailed electrostatic analysis of the proteins has been performed. Two relatively simple Brownian dynamics simulation models predict rate constants for the reaction between the two native proteins that demonstrate a dependence on ionic strength similar to that observed experimentally. In one of these models, the proteins are treated as spheres with reactive surface patches that are defined by a 5 degrees cone generated about the dipole vector calculated for each protein and aligned with the presumed electron-transfer site near the partially exposed heme edge. The second model replaces the reactive patch assumption with an exponential distance dependence for the probability of reaction that permits estimation of a value for the distance-dependence factor alpha. Calculations with this latter model in combination with the aligned dipole assumption provide a reasonable approximation to the observed ionic strength dependence for the reaction and are consistent with a value of alpha = 1.2 A-1.     

Increase of transferrin receptors in regenerating rat liver cells after partial hepatectomy

The change of transferrin receptors in regenerating rat liver cells after partial hepatectomy was demonstrated. The binding of 125I-labeled transferrin to the cells began to increase after 24 h of partial hepatectomy and reached about double that of the non-operated normal rat liver cells. A Scatchard analysis of binding parameters showed 1.62 X 10(5) (Ka: 1.04 X 10(7) M-1) in normal cells and 3.36 X 10(5) (Ka: 1.23 X 10(7) M-1) in regenerating cells. This reflected on increase of transferrin receptor number and little change occurred in the binding affinity between transferrin and its surface receptor.     

Effects of calcium and magnesium ions on the interaction of corticosterone with rat brain cytosol receptor(s).

The apparent maximum corticosterone binding (B max) with rat brain cytosol and the apparent dissociation constant of this steroid-receptor binding (Kd) estimated with a Scatchard plot was 2.9 X 10(-13) moles/mg cytosol protein and 4.0 X 10(-9) M, respectively. When increasing amounts of CaCl2 or MgCl2 up to 5.0 mM were added, a specific [3H] corticosterone binding increased 4-fold by CaCl2 at concentrations of 1.0-2.0 mM and 1.5-fold by MgCl2 at concentrations of 0.5-5.0 mM. The addition of MnCl2 and KCl did not affect this binding. Binding of corticosterone with rat brain cytosol receptor(s) were decreased by increasing amounts of EGTA and complete inhibition was observed at concentrations equal to and greater than 2.5 mM. Inhibition of this binding by EDTA was less than by EGTA. Either theophylline or dibutyryl cyclic AMP had no effect on this binding.     

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

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