A high-affinity folate binding protein in human semen

The presence of a folate binding protein of high-affinity type (affinity constant 3.10¹⁰M^–1, maximum folate binding 1.4 nM) in human semen was demonstrated in equilibrium dialysis experiments (37°C, pH 7.4) with the radioligand³H-folate. Radioligand dissociation from the binding protein was slow at pH 7.4, but rapid at pH 3.5. By use of rabbit antibodies against 25 kDa human milk folate binding protein we determined the concentration of folate binding protein in 16 speciments of human semen in an enzyme-linked immunosorbent assay. The concentration of immunoreactive folate binding protein was independent of the number of spermatozoa in individual specimens. Gel filtration showed that immunoreactive and radioligand bound folate binding protein coeluted in two peaks: a major one of 100 kDa and a minor one of 25 kDa.     

Ionic Charge, Hydrophobicity and Tryptophan Fluorescence of the Folate Binding Protein Isolated from Cow's Milk

A high-affinity folate binding protein was isolated and purified from cow's milk by a combination of cation exchange chromatography and methotrexate affinity chromatography. Chromatofocusing studies revealed that the protein possessed isoelectric points in the pH-interval 8–7. Polymers of the protein prevailing at pH values close to the isoelectric points seemed to be more hydrophobic than monomers present at pH 5.0 as evidenced by hydrophobic interaction chromatography and turbidity (absorbance at 340 nm) in aqueous buffer solutions (pH 5–8). Ligand binding seemed to induce a conformation change that decreased the hydrophobicity of the protein. In addition, Ligand binding quenched the tryptophan fluorescence of folate binding protein suggesting that tryptophan is present at the binding site and/or ligand binding induces a conformation change that affects tryptophan environment in the protein. There was a noticeable discordance between the ability of individual folate analogues to compete with folate for binding and the quenching effect.     

A high-affinity folate binding protein in human amniotic fluid. Radioligand binding characteristics,immunological properties and molecular size

The presence of a folate binding protein of high-affinity type (affinity constant 5 · 10⁹M^–1, maximum folate binding 3 nM) in human amniotic fluid was demonstrated in equilibrium dialysis experiments (37°C, pH 7.4) with the radioligand³H-folate. Dissociation of³H-folate from the binding protein was slow at pH 7.4 but rapid at pH 3.5. By use of rabbit antibodies against low molecular weight folate binding protein from human milk we determined the concentration of folate binding protein in 5 amniotic fluids (range 1.5–2.3 nM) in an Enzyme-Linked Immunosorbent Assay (ELISA). ultrogel AcA 44 chromatography of amniotic fluid showed that immunoreactive and radioligand bound folate binding protein coeluted in two peaks: a major one (M _r 25 000) and a minor one (M _r 100 000).     

Binding of radiolabeled folate and 5-methyltetrahydrofolate to cow's milk folate binding protein at pH 7.4 and 5.0. Relationship to concentration and polymerization equilibrium of the purified protein

Binding of folate (pteroylglutamate) and 5-methyltetrahydrofolate, the major endogenous form of folate, to folate binding protein purified from cow's milk was studied at 7°C to avoid degradation of 5-methyltetrahydrofolate. Both folates dissociate rapidly from the protein at pH 3.5, but extremely slowly at pH 7.4, most likely due to drastic changes in protein conformation occurring after folate binding. Dissociation of 5-methyltetrahydrofolate showed no increase at 37°C suggesting that protein-bound-5-methyltetrahydrofolate is protected against degradation. Binding displayed two characteristics, positive cooperativity and a binding affinity that increased with decreasing concentrations of the protein. The binding affinity of folate was somewhat greater than that of 5-methyl tetrahydrofolate, in particular at pH 5.0. Ligand-bound protein exhibited concentration-dependent polymerization (8-mers formed at 13 M) at pH 7.4. At pH 5.0, only folate-bound forms showed noticeable polymerization. The fact that folate at pH 5.0 surpasses 5-methyltetrahydrofolate both with regard to binding affinity and ability to induce polymerization suggests that ligand binding is associated with conformational changes of the protein which favor polymerization.     

Ligand binding characteristics of two molecular forms,one equipped with a hydrophobic glycosyl phosphatidylinositol tail,of the folate binding protein purified from human milk

Two molecular forms of the folate binding protein were isolated and purified from human milk by a combination of cation exchange- and affinity chromatography. One protein (27 kDa) was a cleavage product of the other 100 kDa protein as evidenced by N-terminal amino acid sequence homology and a reduction in the molecular size of the latter protein to 27 kDa after cleavage of its hydrophobic glycosylphosphatidylinositol tail by phosphatidylinositol-specific phospholipase C. High-affinity binding of [³H]folate was characterized by upward convex Scatchard plots and increasing ligand binding affinity with decreasing concentrations of both proteins. Downward convex Scatchard plots and binding affinities showing no dependence on the protein concentration were, however, observed in highly diluted solutions of both proteins. Radioligand binding was inhibited by folate analogs, and dissociation of radioligand was slow at pH 7.4 but rapid and complete at pH 5.0 and 3.5. Ligand binding quenched the tryptophan fluorescence of the 27 kDa protein suggesting that tryptophan is present at the binding site and/or ligand binding induces a conformation change that affects tryptophan environment in the protein. The 27 kDa protein representing soluble folate binding protein exhibited a greater affinity for ligand binding than the 100 kDa protein which possesses a hydrophobic tail identical to the one that anchors the folate receptor to the cell membrane.     

Mechanism of Cu2+-induced elevation of [3H]cimetidine binding to membranes in rat brain

The mechanism of increasing effect of CuCl₂ on specific [³H]cimetidine binding was examined in brain membranes of rats. CuCl₂-Induced elevation of [³H]cimetidine binding was high in Krebs-Ringer solution (pH 7.4) compared to those in 50 mM Na, K-phosphate buffer (pH 7.4) and in 50 mM Tris-HCl buffer (pH 7.4). CaCl₂ (5–50 mM) inhibited effect of CuCl₂, but NaCl (25–200 mM), KCl (5–100 mM) or MgCl₂ (5–50 mM) did not. CuCl₂ (50 μM) elevated 9.3- and 2.5-fold the binding in phosphate- and Tris—HCl buffer, respectively. EDTA-2Na decreased the binding elevated by 50 μM CuCl₂ in phosphate buffer to the similar level in Tris-HCl buffer, whereas it did not affect those in Tris-HCl buffer. The absorption spectra of cimetidine and CuCl₂ mixture showed a peak at 317 nm in phosphate buffer that was not observed in Tris-HCl buffer. It is suggested that cimetidine-Cu²⁺ chelate complex could be formed in phosphate buffer, resulting in higher amount of binding in phosphate buffer than in Tris-HCl buffer. PdCl₂ also caused a marked elevation in [³H]cimetidine binding, seeming to be due to formation of cimetidine-Pd²⁺ chelate complex. There were two types of [³H]cimetidine binding in the presence of 20 nM PdCl₂: high affinity binding with K_d = 0.7 ± 0.1 nM and low affinity binding with K_d = 44.3 ± 3.0 nM. It is suggested that cimetidine-Cu²⁺ complex binds to cimetidine binding sites in brain with higher affinity than cimetidine alone.     

High-affinity folate binding in human prostate

Binding of³H-folate in Triton X-100 solubilized human prostate homogenate was of a high-affinity type and displayed apparent positive cooperativity typical of specific folate binding. Radioligand dissociation was slow at pH 7.4, but rapid at pH 3.5. Gel chromatography reveled two major folate binding proteins (M_r100 and 25kDa), but only one single band (M_r65–70 kDa) was detectable on SDS-PAGE and immunoblotting with rabbit-anti human milk folate binding protein. Concentration of folate binding protein in prostate homogenate expressed as maximum³H-folate binding was 1.10 nmol/g protein, and the cross-reactivity with rabbit-anti human milk folate binding protein serum was 15% as determined by an enzyme-linked immunosorbent assay (median values; n=6).     

Peptidoleukotriene binding in guinea pig uterine membrane preparations

Peptidoleukotrienes are known to be potent smooth muscle contractile agents in many tissues, including guinea pig uterus. In order to characterize the receptors at which the leukotrienes interact, guinea pig uteri were homogenized in 50nM Tris-HCl, pH 7.4 at 40°C and centrifuged at 1000xg fpr 10 min. The supernatant was centrifuged at 40,000 xg and the washed pellet was used to measure the binding of ³H-LTC₄ and ³H-LTD₄. Specific binding of ³H-LTD₄ was not detected, but specific, saturable binding of ³H-LTC₄ was measured at 40°C, was complete in 10 min. and was rapidly reversible on addition of unlabeled LTC₄. Binding was linear with protein concentration and stimulated by CaCl₂ and L-serine borate. Scatchard and kinetic analysis of binding in the presence of calcium suggested a K_d of 10–12 nM. LTC₄ was a more potent competitor of binding than LTD₄ (IC₅₀ − 40nM and 30 μM, respectively). FPL 55712 inhibited binding from 10–100 μM but stimulated binding at lower concentrations. Thus, the guinea pig uterus has specific receptors for LTC₄, but not LTD₄, that can be demonstrated by radioligand binding.     

Stopped-Flow Kinetic Studies of the Interaction of Bovine Folate Binding Protein (FBP) and Folate

The kinetics of the interaction of bovine folate binding protein and folate at pH 7.4 and 5.0 were followed by measuring the changes of the intrinsic protein fluorescence intensity using the stopped-flow technique, which enables the study of reactions from the millisecond time-range. Our results immediately reject a simple one-step binding model, which requires a linear dependence of the observed rate constant on the concentration of the ligand. Thus, we are able to conclude that at pH 5.0 the interaction occurs in two steps and at pH 7.4 in three steps. Changes of fluorescence spectra at equilibrium were used to estimate the overall binding constants. Comparative studies on the binding of folate to human albumin are also reported.     

Thermodynamics of the binding of Ca2+ to porcine pancreatic phospholipase A2

The binding of Ca2+ to porcine pancreatic phospholipase A2 was studied by batch microcalorimetry. Enthalpies of binding at 25 degrees C were determined as a function of Ca2+ concentration in buffered solutions at pH 8.0 using both the Tris-HCl and Hepes-NaOH buffer systems. The calorimetric results indicate that protons are released on calcium binding and that in addition to the binding of the active-site calcium, there appears to be weak binding of a second Ca2+. Results from potentiometric titrations indicate that this proton release on binding Ca2+ arises from a change in pK of a histidine(s) functional group. The thermodynamic functions delta G0, delta H0 and delta S0 for calcium binding to phospholipase A2 have been determined. These results are compared with literature data for Ca2+ complex formation with some small molecules and also the protein troponin-C.     

Calcium binding by spinach stromal proteins

Calcium binding to spinach (Spinacia oleracea L.) stromal proteins was examined by dual-wavelength spectrophotometry using the metallochromic indicator tetramethylmurexide. The data are consistent with the existence of at least two, probably independent, classes of binding sites. The total number of binding sites varied between 90–155 nmol·mg^–1 protein with average binding constants of 1.1–2.7·mM^–1. Both Mg²⁺ and La³⁺ inhibited calcium binding competitively, with average inhibitor constants of 0.26·mM^–1 and 39.4·mM^–1, respectively; an increase in the potassium concentration up to 50 mM had no effect. In a typical experiment a decrease in pH (7.8 to 7.1) resulted in a decrease in the total number of calcium binding sites from 90 to 59 nmol·mg^–1 protein, but in an increase of the average affinity from 2.7 to 4.5·mM^–1. Calculations, using these data and those of Gross and Hess (1974, Biochim. Biophys. Acta 339, 334–346) for binding site I of washed thylakoid membranes, showed that the free-Ca²⁺ concentration in the stroma under dark conditions, pH 7.1, is higher than under light conditions, pH 7.8. The physiological relevance of the observed calcium binding by stromal proteins is discussed.Abbreviations Ca _b ²⁺ bound calcium - Ca _f ²⁺ free calcium     

Kinetic measurements of binding of galectin 3 to a laminin substratum

Galectin 3, a -galactoside binding protein, contains a C-terminal carbohydrate recognition domain (CRD) and an N-terminal segment including multiple repeats of a proline/tyrosine/glycine-rich motif. Previous work has shown that galectin 3 but not the isolated CRD binds to laminin, a multivalent ligand, with positive cooperativity indicating the formation of multiple interactions although the lectin in solution is monomeric. Using surface plasmon resonance, we find that hamster galectin 3 at sub-µmolar concentrations or its isolated CRD at all concentrations binds to a laminin substratum with similar association (k_ass; 10 – 30 000 M^–1 S^–1) and dissociation (k_diss; 0.2 – 0.3 S ₁ ^–1 ) rates and weak affinity (Ka; 1 - 3 X 10⁵ M^–1). At higher concentrations of galectin 3 the off rate decreases ten fold leading to increased affinity. Ligation of an N-terminal epitope of galectin 3 with a monoclonal Fab fragment increases association and dissociation rates ten fold. A recombinant protein obtained by deletion of the first 93 N-terminal residues binds to laminin with positive cooperativity and a slowly dissociating fraction (K_diss; 0.002 S^–1) accummulates on the substratum. The data suggest that homophilic interactions between CRD as well as N terminal domains are implicated in galectin 3 aggregation on the substratum leading to positive binding cooperativity.     

In vitro and in vivo irreversible plasma protein binding of beclobric acid enantiomers

Acyl glucuronides are known to be labile conjugates, which undergo hydrolysis and bind irreversibly to proteins. The lipid-regulating agent (±)-beclobrate is immediately converted to the free acid after oral administration. Further metabolism leads to formation of the corresponding diastereomeric acyl glucuronides. Beclobric acid glucuronides were quantified by indirect measurement with an HPLC method based on chiral fluorescent derivatization of the carboxylic acid and subsequent normal-phase chromatography. The renal clearance of unchanged drug is low, with almost all drug excreted into urine as glucuronic acid conjugates. Beclobric acid glucuronide is also detectable in plasma. In vitro degradation studies with beclobric acid glucuronide (at a concentration of 5 μM in 150 mM phosphate buffer pH 7.4) exhibited a minor tendency for acyl migration and hydrolysis, i.e., a higher stability than has been observed for the acyl glucuronides of most other drugs. The in vitro degradation half-lives of the two beclobric acid β-1-O-acyl glucuronides were 22.7 and 25.7 h. After incubation with pooled plasma and human serum albumin in buffer pH 7.4 irreversible binding was measured in vitro. No significant difference between the two enantiomers was detected with respect to the magnitude of in vitro irreversible binding. In 3 healthy male volunteers the extent of irreversible binding of both beclobric acid enantiomers to plasma proteins was investigated after single and multiple oral doses of racemic beclobrate (100 mg once daily). Irreversible binding of both enantiomers was observed in all volunteers. The adduct densities for (?)- and (+)-beclobric acid after single 100 mg beclobrate doses were 0.147 × 10^?4 and 0.177 × 10^?4 mol/mol protein. Multipie dosing increased irreversible binding 3- to 4-fold. © 1993 Wiley-Liss, Inc.     

Characterization of a High-Affinity Folate Receptor in Normal and Malignant Human Testicular Tissue

We have characterized the folate receptor in normal and malignant tissue from male gonads. Radioligand binding displayed characteristics typical of other folate receptors. Those included a high-affinity type of binding (K = 10^{10 M–1}), apparent positive cooperativity changing into non-cooperativity at low receptor concentrations, a tendency to increased binding affinity with decreasing receptor concentrations, a slow dissociation at pH 7.4 becoming rapid at pH 3.5 and inhibition by folates, in particular oxidized forms. The gel filtration profile of Triton X-100 solubilized tissue contained a 25 and 100 kDa peak of radioligand-receptor. The latter peak could represent receptor equipped with a hydrophobic membrane anchor that inserts into Triton X-100 micelles. The concentration of radiolabelled receptor ranged from 0.41 nmol/g protein to 1.68 nmol/g protein in specimens of normal testicular tissue from patients with prostatic carcinomas and from 1.54 nmol/g protein to 3.82 nmol/g protein in testicular tissue from young individuals. Compared to normal testicular tissue the concentration of receptor in seminoma tissue was low (0.38–1.27 nmol/g protein) but showed a higher degree of immunoreactivity in the presence of antibodies against human milk folate binding protein as evidenced by ELISA and immunohistochemistry data. Hence a folate receptor isoform homologous to human milk folate binding protein is apparently expressed in seminomas where the total expression of receptor, however, seems to be lower than in normal testicles.     

Assay and characteristics of the iron binding moiety of reticulocyte endocytic vesicles

Summary A⁵⁹Fe assay was designed to detect an Fe(III) binding capacity in NP-40 solubilized proteins from rabbit reticulocyte endocytic vesicles. The iron binding capacity had an apparent molecular weight as determined by gel exclusion chromatography of 450,000 daltons. The iron binding moiety coincided with the major nontransferrin iron-containing material of endocytic vesicles labeled in vivo by incubation of cells with⁵⁹Fe,¹²⁵I-labeled transferrin. The material solubilized from vesicles with NP-40 exhibited two classes of saturable binding sites, one with an association constant for⁵⁹Fe-citrate of 3.63×10⁹ m ^–1 and with 6.6×10^–12 moles of iron bound per mg protein and the other with a constant of 3.96×10⁸ m ^–1 and 1.0×10^–12 moles of iron bound per mg protein. These affinities are sufficient to satisfy the sobulility characteristics of Fe(III) at pH 5.0. Most of the⁵⁹Fe bound both in vivo and in vitro to the iron binding moiety could be displaced with⁵⁶Fe and an equivalent amount of⁵⁹Fe could subsequently be rebound in vitro. The iron binding assay was adopted to vesicle proteins separated by SDS-polyacrylamide gel electrophoresis with subsequent transfer to nitrocellulose and revealed an iron binding activity of molecular weight approximately 95,000 daltons.     

High-affinity folate binding in human mammary gland

High-affinity³H-folate binding in Triton X-100 solubilized human mammary gland tissue displayed characteristics, e.g. apparent positive cooperativity and increasing affinity with decreasing concentration of folate binding protein, shown to be typical of specific folate binding. Radioligand dissociation was slow at pH 7.4. A major fraction of the bound radioligand dissociated rapidly at pH 3.5, while a residual binding of 20% persisted even after prolonged dialysis at pH 3.5. Gel chromatography revealed two major folate binding proteins (M_r100 kDa and 25 kDa). However, only one single band was detectable on SDS-PAGE immunoblotting. The highest folate binding activity per g protein was associated with the upper triglyceride-containing layer of the 1000 g supernatant of the homogenate. The folate binding protein extracted from this layer had a low cross-reactivity (<5%) with rabbit antibodies against 25 kDa human milk folate binding protein. The folate binding protein in the 1000 g pellet and the aqueous phase of the 1000 g supernatant was present at a low concentration and had a cross-reactivity of 100%.     

Ca binding to the human red cell membrane: Characterization of membrane preparations and binding sites

Summary Inside out and right side out vesicles were used to study the sidedness of Ca binding to the human red cell membrane. It was shown that these vesicles exhibited only a limited permeability to Ca, enabling the independent characterization of Ca binding to the extracellular and cytoplasmic membrane surfaces. Ca binding was studied in 10 mM Tris HCl at pH 7.4, 22±2°C and was shown to be complete in under 5 min. Scatchard plots were made from Ca binding data obtained at free Ca concentrations in the range of 10^–6 to 10^–3M. Under these conditions inside out vesicles exhibit two independent binding sites for Ca with association constants of 1×10⁵ and 6×10³ M^–1, and right side out vesicles exhibit three independent binding sites with association constants of 2×10⁵, 1.4×10⁴ and 3×10²M^–1. Upon the addition of 0.1M KCl a third, high affinity site was found on inside out vesicles with an association constant of 3×10⁵, (in 0.1 M KCl). Ca binding to inside out vesicles increased nearly linearly with pH in the, range of pH 4 to pH 11, while binding to right side out vesicles remained practically unchanged in the range of pH 7 to pH 9. Progressive increase of the ionic strength of the medium by the addition of K, Mg or Tris decreased Ca binding to inside out vesicles as did the addition of ATP. Comparison of a series of cation competitors for Ca binding sites on inside out vesicles at 0.003 mM Ca showed that La was the most effective competitor of all while Cd was the most effective divalent cation competitor of those tested. Our findings suggest that the effects of low concentrations of Ca at the inner surface of the red cell membrane are mediated primarily through Ca binding to site 1 (and, possibly site 2) of inside out vesicles of which there are approximately 1.6×10⁵ per equivalent cell.     

Noncompetitive Activation of the Peroxidase-Catalyzed Oxidation of o-Phenylenediamine by Melamine

Peroxidase-catalyzed oxidation of o-phenylenediamine (PDA) is greatly activated with melamine (MA) in 15 mM phosphate–citrate buffer at pH 6.0–7.4 in a noncompetitive manner: k _cat and K _m increase in direct proportion to the MA concentration. An extent of the activation is quantitatively characterized with a coefficient (in M^–1), which essentially increases along with the rise in pH from 6.0 to 7.4. MA acts as a nucleophilic catalyst in the oxidation process: it most likely affects the peroxidase active site from the distal position of heme. MA noncompetitively inhibits the peroxidase oxidation of PDA at pH 4.3, since it completely loses its nucleophilic properties in acidic medium. A rapid, highly accurate, and simple analytical test system based on the kinetics of melamine-activated oxidation of PDA is proposed for the quantitative determination of melamine within the concentration range of 10^–4–10^–3 M. This test system uses the spectrophotometric determination of the PDA oxidation product at 455 nm.     

Two classes of arginine vasopressin binding sites on rat brain membranes

Specific binding sites for arginine vasopressin (AVP) were demonstrated on rat brain membranes using [³H]AVP of high specific activity. At pH 7.4 in the presence of 5 mM MgCl₂, one class of sites was measured with aK _D of 0.56 nM and aB _max of 4.3 fmol/mg protein. At pH 8.0 in the presence of MgCl₂, two distinct sites were observed, havingK _D values of 0.42 and 13 nM andB _max values of 5.6 and 68 fmol/mg protein, respectively, and similar results were obtained at pH 7.4 after repeatedly freezing and thawing the membranes. Binding increased with pH, apparently representing increased occupancy of the high capacity, lower affinity site. Binding to the lower affinity site was also enhanced by freezing and thawing membranes, or by adding 5 mM NiCl₂ or 10 M ZnCl₂ to the incubation medium, whereas binding to the high affinity site was dependent on the addition of Mg. AVP was over 35 times more active in displacing 0.4 nM AVP than oxytocin or arginine-vasotocin, and 10,000 times more active than somatostatin. A number of other peptides had no effect on [³H]AVP binding at concentrations up to 10^–5 M. Autoradiography and regional dissection studies revealed a marked concentration of high affinity AVP-binding sites in the supraoptic and paraventricular nuclei of the hypothalamus, and Mg significantly enhanced the binding in these regions.     

Interactions of urocanic acid with bovine serum albumin and the influence of pH on binding affinities: a docking simulation study

In the present study, the interactions of urocanic acid (UA) with bovine serum albumins (BSA) at pH 5.0 and 7.4 were investigated by means of docking simulations. The binding modes of trans- and cis-UA to BSA at pH 5.0 and 7.4 were analysed. In addition, the theoretically predicted binding abilities of zwitterion and anion of UA with BSA are in good agreement with the experimental results. Through comparison with the binding patterns, we revealed that the stronger interactions of UA anion with BSA relative to the zwitterion primarily result from: (1) the increased number of hydrogen bonds between UA anion and BSA; (2) the attractive electrostatic interaction between the deprotoned carboxyl group in UA anion and Arg433 in comparison with the repulsion between the imidazole moiety in zwitterion and the same residue in BSA. This provides a rational explanation for the experimental finding that the binding of UA to BSA at pH 7.4 is much stronger than at pH 5.0.