Isolation of two cholic acid-binding proteins from rat liver cytosol using affinity chromatography

Using an affinity matrix coupled with cholic acid, two proteins that recognise bile acids were isolated from rat liver cytosol. One protein of molecular weight 68 000 was immunologically identical to rat albumin. The other protein was of molecular weight 46 000. On discontinuous sodium dodecyl sulphate-polyacrylamide gel electrophoresis the 46 000 molecular weight protein dissociated to a single band with an RF value identical to the Yb subunit of the bromosulphophthalein-binding fraction (Y-fraction) of whole liver cytosol. The monomers of purified ligandin under these conditions resolved into two bands which corresponded to the Ya and Yc subunits of liver cytosol Y-fraction. Anti-serum to the purified ligandin reacted monospecifically with purified ligandin and whole liver cytosol, but did not cross-react with the Yb dimer eluted from the affinity column. The Yb dimer was shown to possess glutathione-S-transferase activity with a substrate specificity distinct from ligandin but similar to glutathione-S-transferase C. Cholic acid inhibited the catalytic activity of the transferase.     

Two high affinity estrogen binding proteins of different specificity in the immature rat uterus cytosol

The presence of two high affinity estrogen binding proteins in the uterine cytosol of the immature rat has been observed.Besides the 8 S cytosol estrogen $\text{receptor}$, there is a 4–5 S fraction binding estradiol and estrone with a large capacity. In fact, the two binding systems have a different affinity for estradiol and estrone, the receptor binding more the former and the 4–5 S fraction more the latter. Exposure of the cytosol to specific anti-α₁-Fetoprotein antibodies suppresses a large part of the 4–5 S binder, if not the totality. Moreover the estrogen binding 4–5 S fraction decreases with increasing age until puberty, while the $\text{receptor}$ increases. These results suggest therefore that the estradiol-estrone binding 4–5 S peak of the uterine cytosol is mainly made up of Estradiol Binding Plasma Protein-α₁-Fetoprotein (EBP-AFP). Also they confirm that “cytosol” should be taken as an operational fraction which may include extracellular components.During the course of these experiments, it has been observed that the increase of the estradiol $\text{receptor}$ is more rapid than the other uterine cytosol proteins until the 8th day, and that there is a second period of growth when it follows the development of the uterus and of the animal, as if it had reached a constant number of binding sites per cell.     

Effect of sodium molybdate on carbohydrate metabolizing enzymes in alloxan-induced diabetic rats

We evaluated the effect of sodium molybdate on carbohydrate metabolizing enzymes and mitochondrial enzymes in diabetic rats. Diabetic rats showed a significant reduction in the activities of glucose metabolising enzymes like hexokinase, glucose-6-phosphate dehydrogenase, glycogen synthase and in the level of glycogen. An elevation in the activities of aldolase, glucose-6-phosphatase, fructose 1,6- bisphosphatase, glycogen phosphorylase and in the level of blood glucose were also observed in diabetic rats when compared to control rats. The activities of mitochondrial enzymes isocitrate dehydrogenase, alpha-ketoglutarate dehydrogenase, succinate dehydrogenase, malate dehydrogenase, NADH-dehydrogenase and cytochrome-C-oxidase were also significantly lowered in diabetic rats. Molybdate administration to diabetic rats reversed the above changes in a significant manner. From our observations, we conclude that administration of sodium molybdate regulated the blood sugar levels in alloxan-induced diabetic rats. Sodium molybdate therapy not only maintained the blood glucose homeostasis but also altered the activities of carbohydrate metabolising enzymes. Molybdate therapy also considerably improved the activities of mitochondrial enzymes, thereby suggesting its role in mitochondrial energy production.     

Purification of the sodium transport enzyme oxaloacetate decarboxylase by affinity chromatography on avidin sepharose

Aspartic acid can be covalently linked to yeast aspartyl-tRNA synthetase and to other proteins, in the absence of tRNA, under conditions where the synthetase activates the amino acid into aspartyl-adenylate, i.e., in the presence of ATP and MgCl₂. The linkage between aspartic acid and the protein is acid and alkali resistant; thus it is likely a peptide-like amide bond formed between the activated carboxylate group of aspartic acid and the primary amine function of the side chain of lysine residues.     

Effect of sodium molybdate on cadmium-related testicular damage in adult male Wistar rats

BackgroundMolybdenum, as a trace element, has various pharmacological effects, including antioxidant, antiviral, anti-allergic, anti-osteoporosis, anti-tumor, anti-inflammatory, anti-diabetic, anti-obesity, and free radical-scavenging activities. This study aimed at investigating the sodium molybdate impacts on cadmium chloride (CdCl₂)-induced testicular toxicity in adult Wistar rats.MethodsThe impacts of oral administration of sodium molybdate (0.05, 0.1, 0.2, and 0.4 mg/kg) was evaluated in healthy and infertile animals. Animals were randomly assigned to nine groups, including healthy control, sodium molybdate alone, infertile control (3 mg/kg of CdCl₂), and sodium molybdate plus CdCl₂. Following 30 days of administration, animals were sacrificed for biochemical and histopathological assays.ResultsThe results indicated that administration of sodium molybdate to infertile rats significantly mitigated the cadmium impacts on sperm appearance, concentration, and motility parameters. Also, sodium molybdate reduced the production of malondialdehyde (MDA) and enhanced antioxidant enzymes activities in the testicular homogenates in rats; these findings were supported by histopathological examinations. Treatment with sodium molybdate significantly increased aquaporin-9 (AQP9) expression in the testicular tissues of infertile rats.ConclusionsThe current findings suggested that sodium molybdate performs as a strong protective agent from CdCl₂-related testicular toxicity in rats.     

Effect of elevated concentrations of sodium chloride and temperature on the state of erythrocyte cytosol

It was shown by means of ESR-spin probe method that microviscosity of erythrocyte cytosol had a limiting value which could be reached by various concentrations of sodium chloride depending on temperature. With a temperature decrease when reaching this value haemolysis occurs.     

Comparison of human thyroxine-binding globulin purification by affinity chromatography procedures

Three procedures for the isolation of thyroxine-binding globulin from human serum, using affinity chromatography on triiodothyronine (T3) linked to Sepharose (A), thyroxine (T4) linked to Sepharose (B) or T3 linked to epoxy-Sepharose (C) as the first purification step, were compared. With the use of additional purification steps, the three procedures yielded pure thyroxine-binding globulin without desialylation. With procedure A, the initial binding of T4-binding globulin to T3-Sepharose was very low, yielding a poor final recovery (17%). Procedure B gave the highest yield (35%) after a three-step purification, with a low T4 content (0.15-0.30 mol/mol). Procedure C also gave a high yield (28%) after only two purification steps, with a T4 content greater than 0.7 mol/mol. The microheterogeneity of T4-binding globulin obtained with these three procedures was demonstrated by isoelectric focusing: five major bands were observed between pH 4.1 and 4.6, and intermediate faint bands (often doublets) in the same pH range. However, with procedures A and C, the most acidic bands (pH 4.10-4.20) were always absent. Thyroxine-binding globulin was preincubated with radioactively labelled T3 or T4 and the hormone-protein complex was analyzed by isoelectric focusing. The binding of T3--compared to that of T4--was reduced in the most acidic protein subspecies. These results suggest differences in the thyroid hormone binding properties of the various subspecies of human T4-binding globulin.     

Effect of cytosol on transport of RNA in vitro during cardiac hypertrophy.

An enhanced RNA-transport activity was observed in vitro from nuclei obtained from animals with cardiac hypertrophy as compared with that of sham-operated controls. The 100 000 g supernatants obtained from hypertrophic hearts stimulated the RNA transport from nuclei of sham-operated controls, and this stimulation was maximum with 40% supernatant. Ca2+- and nucleic acid-dependent ATPase and alkaline phosphatase activities, which may be involved in an energy-dependent transport, were high in nuclei from hypertrophic hearts, and the nuclei of sham-operated animals showed higher activities of these enzymes after incubation with supernatant from hypertrophic hearts, which stimulates the RNA transport in vitro from nuclei of sham-operated animals.     

The allosteric modulation of thyroxine-binding globulin affinity is entropy driven

Background

Thyroxine-binding globulin (TBG) is a non-inhibitory member of the serpin family of proteins whose main structural element is the reactive center loop (RCL), that, upon cleavage by proteases, is inserted into the protein core adopting a β-strand conformation (stressed to relaxed transition, S-to-R). After S-to-R transition thyroxine (T4) affinity decreases. However, crystallographic studies in the presence or absence of the hormone in different states are unable to show significant differences in the structure and interactions of the binding site. Experimental results also suggest the existence of several S states (differing in the number of inserted RCL residues), associated with a differential affinity.

Methods

To shed light into the molecular basis that regulates T4 affinity according to the degree of RCL insertion in TBG, we performed extended molecular dynamics simulations combined with several thermodynamic analysis of the T4 binding to TBG in three different S states, and in the R state.

Results

Our results show that, despite T4 binding in the protein by similar interactions in all states, a good correlation between the degree of RCL insertion and the binding affinity, driven by a change in TBG conformational entropy, was observed.

Conclusion

TBG allosteric regulation is entropy driven. The presence of multiple S states may allow more efficient T4 release due to protease activity.

General significance

The presented results are clear examples of how computer simulation methods can reveal the thermodynamic basis of allosteric effects, and provide a general framework for understanding serpin allosteric affinity regulation.     

Sulphate transport by rat ileum. Effect of molybdate and other anions

Kinetic constants for SO₄^2? transport by upper and lower rat ileum in vitro have been determined by computer fitting of rate vs concentration data obtained using the everted sac technique. MoO₄^2? inhibition of this transport is competitive, and kinetic constants for the inhibition were similarly determined. Transport is also inhibited by the anions WO₄^2?, S₂O₃^2? and SeO₄^2?, in the order $\text{S}{}_2\text{O}{}_3{}^{\mathrm{2?}}\text{> SeO}{}_4{}^{\mathrm{2?}}\text{≧ MoO}{}_4{}^{\mathrm{2?}}\text{> WO}{}_4{}^{\mathrm{2?}}$. These anions have no effect on the transport of l-valine. Low SO₄^2? transport rates were observed in sacs from animals fed a high-molybdenum diet. The significance of the results with respect to the problem of molybdate toxicity in animals is discussed, and related to the known protective effect of SO₄^2?.     

Effect of sodium molybdate on the binding of androgen-receptor complexes to germ cell and sertoli cell chromatin

This study explores the effect of molybdate on androgen receptors in relation to chromatin binding. Two fractions of testicular and prostatic cytosol were obtained by ammonium sulfate precipitation at 15–37% (I) and 37–47% (II) saturation. Both fractions from either tissue exhibited specific binding of [³H]-androgens which was thermolabile. With the exception of testicular fraction II, all fractions bound to Sertoli cell and germ cell chromatin.Prostatic [³H]-androgen-receptor complexes isolated from cytosols in the presence of 10 mM sodium molybdate showed a decreased ability (only 20–40%) to bind to either Sertoli cell or germ cell chromatin. Similarly, testicular [³H]-androgen-receptor complexes isolated in the presence of molybdate bound less well (60–70%) to Sertoli cell chromatin. On the other hand, inclusion of molybdate subsequent to ammonium sulfate precipitation did not significantly alter the binding ability of the receptor complexes to either chromatin. Also, the presence of molybdate during the receptor-chromatin interaction did not significantly decrease the ability of either prostatic or testicular androgen-receptor complexes to bind to Sertoli cell chromatin. These results indicate that the addition of molybdate prior to ammonium sulfate precipitation may impede the activation of androgen-receptor complexes by salt, resulting in a decreased ability of the steroid-receptor complexes to bind to chromatin acceptor sites. The data also indicate that molybdate exerts its inhibitory effect directly on the nonactivated receptor complexes and not on the chromatin acceptor sites.     

Effect of sodium transport inhibition on active phosphate transport by toad bladder

Summary The relationship between active Na transport (estimated by the short-circuit (SCC)) and active inorganic phosphate (P_i) transport was studied in the toad bladder. When SCC was inhibited by amiloride, ouabaim, or removal of K from the serosal bathing solution, active P_i transport was totally inhibited. When Na was replaced isotonically by choline in either the mucosal bathing solution or both the mucosal and serosal bathing solutions, there was no measurable SCC or active P_i transport. These experiments are compatible with the hypothesis that active P_i transport occurs only in the presence of active Na transport.     

Haem-binding proteins of the rat liver cytosol

Gel filtration of soluble supernatant fraction obtained from livers of rats 10 min after an injection of the haem precursor 5-amino [³h] laevulinic acid shows the presence of a major radioactive fraction which upon gel filtration is similar in elution volume to ligandin. 20 min after administration of the precursor four previously minor components also come into prominence. This pattern is a characteristic of in vivo binding since a different elution pattern is obtained if soluble supernatant fraction from rat liver is labelled in vitro by incubation either with [³H] haem-labelled mitochondria, [³H] haem-labelled microsomes or with [³H] haemin.These results are discussed with particular reference to ligandin.     

Interaction of sodium molybdate with the thyroid hormone receptor

The 3,5,3'-triiodothyronine (T3) binding activity of solubilized nuclear proteins from rat liver was decreased when molybdate (10 mM) was present in the incubation medium in the absence of thiol reagents. The equilibrium affinity constant was reduced by 40%. The rate of degradation of T3-receptor complexes at 37 degrees C remained unchanged, but when the extracts were further reincubated in the presence of beta-mercaptoethanol, molybdate had a protective effect after 5 h incubation at 37 degrees C. In contrast, the thyroxine (T4) binding activity was not affected by heating at 37 degrees C or by molybdate. Ion-exchange chromatography confirmed the existence of a molybdate-receptor interaction: the T3-receptor complexes shifted from elution at 0.22 to 0.20 M NaCl with the progressive appearance of a small leader peak, whereas the T4-receptor complexes eluted in a large and split peak (0.22-0.4 M NaCl). The destabilizing effect on T3 binding induced by exogenous dephosphorylation is more efficiently reversed by beta-mercaptoethanol when the extracts were pretreated by molybdate. In controls, the loss of saturable T3 binding activity was recovered by 50% at a 10 mM concentration of beta-mercaptoethanol, but in the presence of molybdate, the loss of T3 binding activity was recovered by 50% at a 5 mM concentration of beta-mercaptoethanol. This molybdate-receptor interaction is similar to that with nuclear receptor models in term of (i) stabilization of hormone binding, (ii) dependency on a thiol, and (iii) reversibility of the destabilizing effect by exogenous dephosphorylation.     

Estrogen-binding proteins of calf uterus. Purification to homogeneity of receptor from cytosol by affinity chromatography.

The estrogen receptor has been purified to homogeneity from calf uterus cytosol by sequential affinity chromatography by using heparin--Sepharose 4B and 17-hemisuccinyl-17beta-estradiol-ovalbumin--Sepharose 4B. The procedure yields about 1.2 mg of receptor protein from 1 kg of calf uteri, with a recovery of 53%. The receptor protein, as a complex with 17beta-[3H]estradiol, is purified more than 99%. A single band is seen on polyacrylamide gel ectrophoresis under nondenaturing conditions. 17beta-[3H]Estradiol comigrates with the protein band. As computed from the specific activity of radioactive hormone, 64,450 g of purified receptor protein binds 1 mol of 17beta-estradiol. 17beta-[3H]Estradiol bound to the protein is displaced by estrogenic steriods but not by progesterone, testosterone, or cortisone. As judged by chromatography on calibrated Sephadex G-200 columns, the purified receptor is identical with native receptor in crude cytosol: both show a Stokes radius of 6.4 nm. On sucrose gradient in low-salt buffer, the purified receptor sediments at 8 S. On electrophoresis in NaDodSO4 gels, the purified receptor migrates as a single protein band with an apparent molecular weight of 70,000. The sedimentation coefficient measured on sucrose gradients in the presence of chaotropic salts [1 M NaBr or NaSCN (0.1 M)] is 4.2 S. We conclude that the estrogen receptor of cytosol consists of a single subunit weighing about 70,000 daltons and endowed with one estrogen binding site. Under native conditions in cytosol, several subunits associate to form a quaternary structure with a Stokes radius of 6.4 nm.     

Effect of sodium ion on the affinity of naloxone for the kappa opioid receptor

Several investigators have observed that sodium ion enhances the binding of naloxone to opioid receptors. This effect has generally been attributed to allosteric modulation of the state of the mu receptor. However, a recent claim has been made that the enhancement does not involve a change in the mu receptor, but instead occurs because naloxone becomes a more kappa-specific drug when sodium ion is present in high concentration. Since the claim was not based on experimental evidence from binding studies involving known high-affinity kappa ligands, we have investigated the competition of naloxone for the kappa site using [3H]U-69593 as the marker for receptor binding. Assays were carried out in the presence and absence of 100 mM NaCl. The results of the study indicate that sodium ion does not increase the affinity of naloxone or U-69593 for the kappa receptor.     

Affinity chromatography of thyroxine-binding proteins from human serum

The affinity matrix prepared by the attachment of L-thyroxine (T4) to epichlorohydrine-activated Sepharose 4B biospecifically absorbs the T4-binding globulin (TBG), 25K and 80/27K proteins, immunoglobulin G (IgG) and albumin (HSA) from human normal and retroplacental sera. The absorbed protein patterns were shown to depend on the immobilized T4 concentration, pH, temperature and incubation time. The potent eluents desorbing 85-100% of the protein are 1 mM NaOH, 3 M NH4SCN, 10(-5) M T4 or 3 mM 8-anilinonaphthalene-1-sulfonic acid (ANS) for TBG; NaOH, NH4SCN, 3 mM MgCl2 or 12mM sodium cholate for 25K protein and HSA; NaOH, NH4SCN or MgCl2 for the 80/27K and 25K proteins and IgG. Moreover, T4 desorbs small amounts (6-8%) of the 80/27K and 25K proteins, while sodium cholate elutes about 6% of TBG. The eluted from T4-Sepharose 4B and further purified TBG, 25K and 80/27K proteins display different [125I]T4-binding activities within the pH range from 2 to 9 and differ by their resistance to thermal inactivation at 50-80 degrees C. Double radial immunodiffusion analysis with the use of antisera to TBG, 25K, 80/27K, HSA and IgG demonstrated that the proteins share no common antigenic determinants. It was concluded that the novel 25K and 80/27K proteins represent endogenous components of the human blood thyroid hormone-binding protein system rather than fragments or aggregates of the known T4-binding proteins.