Changes in the antioxidant properties of substituted phenol polydisulfides during interaction with human serum albumin

Gallic acid polydisulfide and poly(2-aminodisulfide-4-nitrophenol) in aqueous solutions were shown to form polycomplexes with human serum albumin. This process was accompanied by considerable changes in the spectrum of protein circular dichroism recorded in distilled water in the far UV range at 20 degrees C. Complex formation between human serum albumin and polydisulfides was followed by a marked decrease in the content of alpha-helices and increase in the count of antiparallel beta-structures in the protein. Stable complexes containing 1.5, 2.8, and 7.7 poly(2-aminodisulfide-4-nitrophenol) molecules per human serum albumin molecule were formed in bicarbonate buffer (pH 9.0). In these complexes, the secondary protein structure underwent changes similar to those in polycomplexes of human serum albumin and polydisulfides. Gallic acid polydisulfide and poly(2-aminodisulfide-4-nitrophenol) inhibited the catalase-induced degradation of 50 mM H2O2. Complexes of human serum albumin and poly(2-aminodisulfide-4-nitrophenol) increased the catalytic activity and operational stability of catalase 1.5 and 4-7-fold, respectively. This was characterized by the effective reaction rate constant (kin, s-1). Our results indicate that complexes of human serum albumin and substituted phenol polydisulfides act as potent protectors and activators of catalase during enzymatic degradation of H2O2 at high concentrations.     

Polydisulfides of substituted phenols as effective protectors of peroxidase against inactivation by ultrasonic cavitation

Kinetics of inactivation of horseradish peroxidase (HP) induced by low-frequency ultrasonic (US) treatment (27 kHz) with the specific power of 60 W/cm² were studied in phosphate (pH 7.4) and acetate (pH 5.2) buffers within the temperature range of 36.0 to 50.0°C and characterized by effective first-order rate constants of US inactivation k _in (us) in min^–1. Values of k _in (us) depend on the specific ultrasonic power within the range of 20-60 W/cm², on the concentration of HP, and on pH and temperature of the solutions. The activation energy of US inactivation of HP is 9.4 kcal/mole. Scavengers of HO^· radicals, mannitol and dimethylformamide, significantly inhibit the US inactivation of HP at 36.0°C, whereas micromolar concentrations of polydisulfide of gallic acid (poly(DSG)) and of poly(2-aminodisulfide-4-nitrophenol) (poly(ADSNP)) virtually completely suppress the US inactivation of peroxidase at the ultrasonic power of 60 W/cm² on the sonication of the enzyme solutions for more than 1 h at pH 5.2. Various complexes of poly(DSG) with human serum albumin effectively protect HP against the US inactivation in phosphate buffer (pH 7.4). The findings unambiguously confirm a free radical mechanism of the US inactivation of HP in aqueous solutions. Polydisulfides of substituted phenols are very effective protectors of peroxidase against inactivation caused by US cavitation.     

Initiation and Inhibition of Free Radical Processes in H2O2–Metmyoglobin (Methemoglobin)–2,2"-Azino-bis-(3-Ethylbenzthiazoline-6-Sulfonic Acid) Systems

Rates of free radical initiation were determined at 20°C in 10 mM phosphate buffer (pH 7.4) in the systems metmyoglobin (methemoglobin)–H₂O₂ using 2,2"-azino-bis-(3-ethylbenzthiazoline-6-sulfonic acid) as the diammonium salt (ABTS). The catalytic activity of MetMb was 2-3-fold higher than that of MetHb. The process can be described by the Michaelis–Menten equation, from which effective values of K _m and V _max were calculated. Comparative kinetic studies on the inhibition of ABTS oxidation were carried out using Trolox, propylgallate (PG), polydisulfide of gallic acid (poly(DSG)), polydisulfide of (2-amino-4-nitrophenol) (poly(ADSNP)), and its conjugate with human serum albumin (HSA–poly(ADSNP)). The inhibitors were characterized by inhibition constants K _i and stoichiometric inhibition coefficients f (the number of radicals terminated by a single molecule of inhibitor). The minimum K _i and the maximum f values were obtained for poly(DSG), and in the system of MetHb–H₂O₂–ABTS they were 0.08 M and 27.5, respectively. According to their antiradical activities, the inhibitors can be arranged as follows: poly(DSG) > poly(ADSNP) > PG > Trolox. PG, poly(DSG), poly(ADSNP), and its conjugate with HSA are suggested as calibrators, i.e., inhibition standards for evaluation of antioxidant status of biological fluids in possible test systems based on the free radical-generating pair MetMb–H₂O₂ with ABTS as the acceptor of the active radicals.     

Effect of the composition of the medium on the characteristics of polydisulfide bioantioxidants

Characteristics of polydisulfides of gallic acid (PDSG), 2-amino-4-nitrophenol (PDSANP), and biuret (PDSB) depending on the composition of the aqueous medium were studied. In contrast to PDSANP and PDSB, there was oxidation of PDSG with accumulation of products of polydisulfide transformation in the medium. The rate of PDSG autoxidation depended on pH on the concentration of polydisulfide and buffers and increased at high pH. The rate of oxidation significantly increased in the presence of DMPA, ethanol, or CTAB (surfactant). Decreasing the pH of the solution and adding ovalbumin and/or Triton X-100 to the medium can decrease the rate of autoxidation of PDSG in an aqueous medium. Exogenous H₂O₂ inhibited the oxidation of PDSG. The secondary structure of catalase was changed by PDSG. Electrical conductance of PDSG and PDSANP solutions was studied. Possible mechanisms of PDSG autoxidation and polydisulfides-protein interaction due to forces of cooperative electrostatic interaction, thiol-disulfide exchanges, and nucleophilic replacements were discussed.     

Effect of media composition on properties of polydisulfide bioantioxidants

Characteristics of polydisulfides of gallic acid (PDSG), 2-amino-4-nitrophenol (PDSANP), and biuret (PDSB) depending on the composition of the aqueous medium were studied. In contrast to PDSANP and PDSB, there was oxidation of PDSG with accumulation of products of polydisulfide transformation in the medium. The rate of PDSG autoxidation depended on pH, concentration of polydisulfide and buffers, and increased at high pH. The rate of oxidation significantly increased if addition of dimethylformamide and/or ethanol in the medium or solubilization of polydisulfide with cetyltrimethylammonium bromide, surface-active compound (SAC), prevented the association of PDSG. Decreasing pH of the solution and adding ovalbumin and/or Triton X-100 to the medium can decrease the rate of autoxidation of PDSG in aqueous medium. Exogenous H2O2 inhibited the oxidation of PDSG. The secondary structure of catalase was changed by PDSG. Electrical conductivity of PDSG and PDSANP solutions was studied. Possible mechanisms of PDSG autoxidation and polydisulfides-protein interaction due to forces of cooperative electrostatic interaction, thiol-disulfide exchanges and nucleophilic replacements were discussed.     

Inactivation of the human thyroid peroxidase by ultrasound cavitation]

The inactivation kinetics of a human thyroid peroxidase protein fraction upon sonication (ultrasound frequency 27 kHz, power 60 W/cm2) of the enzyme solution in 15 mM phosphate buffer, pH 7.5, was studied. To quantitatively characterize the dependence of the slowest stage of the human thyroid peroxidase inactivation on temperature (36.0-50.4) degrees C, an effective constant of ultrasound inactivation rate Kin(US) was used. From the temperature dependence of Kin(US) at temperatures below 43 degrees C, the activation energy was estimated to be 8.11 kcal/mol. It was shown that the rate of human thyroid peroxidase inactivation strongly depends on the concentration of total protein in solution: the kin(US) value decreases more than sixfold in the protein concentration range from 0.2 to 0.8 mg/ml. It was also shown that poly(2-aminodisulfide-4-nitrophenol), its complexes with human serum albumin as well as the complexes human serum albumin--poly(gallic acid disulfide) substantially inhibit the ultrasound-induced inactivation of the enzyme and can be its effective stabilizers in the ultrasound cavitation field. This confirms the suggestion that active free radicals HO., O2.- and HO2. play a key role in the inactivation of human thyroid peroxidase. A general scheme of the inactivation of human thyroid peroxidase is proposed, which represents a chain of successive and parallel reversible and irreversible elementary steps.     

Peroxidase-catalyzed Oxidation of 3,3",5,5"-Tetramethylbenzidine in the Presence of 2,4-Dinitrosoresorcinol and Polydisulfide Derivatives of Resorcinol and 2,4-Dinitrosoresorcinol

A comparative study of the kinetics of peroxidase-catalyzed oxidation of 3,3",5,5"-tetramethylbenzidine (TMB) in the presence of 2,4-dinitrosoresorcinol (DNR), its polydisulfide derivative [poly(DNRDS)], and resorcinol polydisulfide [poly(RDS)], substances that competitively inhibit the formation of TMB conversion product, was carried out. The inhibition constants K _i for DNR, poly(DNRDS), and poly(RSD) were determined at 20°C and pH 6.4 to be 110, 13.5, and 0.78 M, respectively. The stoichiometric coefficients of inhibition were calculated to be 0.38 and 76 for poly(DNRDS) and poly(RDS), respectively. In the pH range 6.4–7.0, the initial rates of the peroxidative oxidation of TMB, and its mixtures with DNR and poly(DNRDS) and the K _i value for poly(RDS) substantially decreased with increasing pH. The kinetic parameters of poly(RDS) (K _i 0.22–0.78 M and f 76) suggest that it is the most efficient inhibitor of peroxidase oxidation of TMB: in micromolar concentrations, it completely stops this process and can be used in EIA.     

Peroxidase-Catalyzed Co-oxidation of 3,3",5,5"-Tetramethylbenzidine with 2-Amino-4-nitrophenol, 4,4"-Dihydroxydiphenylsulfone, and Their Polydisulfides in Aqueous and Micellar Media

The effects of different concentrations of 2-amino-4-nitrophenol (ANP) and of its polydisulfide (poly(ADSNP)) on peroxidase-catalyzed oxidation of 3,3"5,5"-tetramethylbenzidine (TMB) were studied at 20°C in reversed micelles of AOT (0.2 M) in heptane and in mixed reversed micelles of AOT (0.1 M)–Triton X-100 (0.1 M) in isooctane supplemented with 15% hexanol. The oxidation of TMB was activated nearly twofold in the presence of ANP and nearly fourfold in the presence of poly(ADSNP) in reversed micelles of AOT, whereas in the mixed micelles oxidation of the TMB–ANP pair was associated with inhibition of TMB conversion and poly(ADSNP) activated oxidation of TMB. The co-oxidation of TMB with 4,4"-dihydroxydiphenylsulfone (DDS) and with its polydisulfide (poly(DSDDS)) at different concentrations of phenol components was accompanied by activation of TMB conversion in 0.01 M phosphate buffer (pH 6.4) supplemented with 5% DMF and in reversed micelles of AOT in heptane. The effect of pH of the aqueous solution on the initial oxidation rate of the TMB–DDS and TMB–poly(DSDDS) pairs and also the effect of hydration degree of reversed micelles of AOT on conversion of the same pairs by peroxidase were studied. A scheme of peroxidase-dependent co-oxidation of aromatic amine–phenol pairs is proposed and discussed. A significant part of this scheme is a nonenzymatic exchange of phenoxyl radicals with amines and of aminyl radicals with phenols.     

The development,structure and function of modified synaptonemal complexes in mosquito oocytes

The nucleus of the maturing oocytes expands to a large thin body of 400×140×3 m but the chromosomes remain together in a small sphere, 15 m in diameter. In Aedes aegypti this sphere becomes surrounded by one to several layers of polycomplexes, annulated polycomplexes, and related annulated pseudomembranes. Just prior to egg laying the expanded nucleus disintegrates while the sphere of chromosomes is surrounded by several layers of membranes. In Culex pipiens the elements which normally connect the lateral elements of the synaptonemal complexes become extended so that all bivalents become interconnected by a framework of pseudomembranes. The continuity between the modified synaptonemal complexes and various membranes associated with the karyosphere suggest that a relationship exists, by origin or by specialization, between the synaptic structures and nuclear envelope.     

Interaction of albumins and hemin with aromatic antioxidants: A spectrophotometric and fluorometric study

Difference spectrophotometry and fluorescence quenching of human and bovine serum albumins were used to determine their association constants(K _a) with hemin in buffered physiological saline (pH 7.4) supplemented with 2% dimethylsulfoxide or in 40% aqueous dimethylformamide (pH 7.4).K _a values depended on the medium, the extent of albumin delipidation, and on the method of determination. The formation of hemin complexes witho-phenylenediamine, tetramethylbenzidine, gallic acid, its polydisulfide, and two substituted di-tert-butyl pyrocatechols was studied by difference spectrophotometry in the same media;K _a values for the complexes were calculated and compared to each other. The formation of complexes of these aromatic ligands with albumins was studied fluorometrically;K _a values were of order of ∼10⁵ M⁻¹ and decreased with the ligand hydrophobicity.     

Isolation and study of a fragment of human serum albumin containing one of the antigenic sites of the whole molecule

1. A fragment of human serum albumin called `inhibitor' has been degraded by trypsin, and one of the degradation products, designated fragment F1, has been isolated. Fragment F1 has a molecular weight of 6600. It contains neither tyrosine nor tryptophan. It is not precipitated with rabbit anti-sera to human serum albumin. 2. Fragment F1 was coupled to p-aminobenzylcellulose to form an insoluble conjugate. Rabbit anti-(human serum albumin) antibodies reacting with fragment F1 were specifically adsorbed on this conjugate and were desorbed by glycine–hydrochloric acid buffer. The isolated antibodies are composed of γ-globulin and β₂-macroglobulin. 3. Human serum albumin and fragment F1 formed with 7s anti-(fragment F1) antibodies soluble complexes that were studied by passive haemagglutination, ultracentrifugation and electrophoresis. Fragment F1 was shown to contain only one of the antigenic sites of albumin molecule. The 7s anti-(fragment F1) antibodies were shown to be bivalent and monospecific.     

Molecular characteristics of methylglyoxal-modified bovine and human serum albumins. Comparison with glucose-derived advanced glycation endproduct-modified serum albumins

The amino acid modification, gel filtration chromatographic, and electrophoretic characteristics of bovine and human serum albumins irreversibly modified by methylglyoxal (MG-SA) and by glucose-derived advanced glycation endproducts (AGE-SA) were investigated. Methylglyoxal selectively modified arginine residues at low concentration (1 mM); at high methylglyoxal concentration (100 mM), the extent of arginine modification increased and lysine residues were also modified. Both arginine and lysine residues were modified in AGE-SA. Analytical gel filtration HPLC of serum albumin derivatives suggested that the proportion of dimers and oligomers increased with modification in both low and highly modified MG-SA and AGE-SA derivatives relative to unmodified serum albumins. In SDS-PAGE analysis, dimers and oligomers of low-modified MG-SA were dissociated into monomers, but not in highly modified MG-SA. MG-SA had increased anodic electrophoretic mobility under nondenaturing conditions atpH 8.6, indicating an increased net negative charge, which increased with extent of modification; highly modified MG-SA and AGE-SA had similar high electrophoretic mobilities. MG-SA derivatives were fluorescent: the fluorescence was characteristic of the arginine-derived imidazoloneN -(5-methyl-4-imidazolon-2-yl)ornithine, but other fluorophores were also present. AGE-SA had similar fluorescence, attributed, in part, to glucose-derived imidazolones. AGE formed from glucose-modified proteins and AGE-like compounds formed from methylglyoxal-modified proteins may both be signals for recognition and degradation of senescent macromolecules.Abbreviations AGE advanced glycation endproduct - BSA bovine serum albumin - HSA human serum albumin - MG-SA methylglyoxal-modified serum albumin - MG-BSA methylglyoxal-modified bovine serum albumin - MG-HSA methylglyoxal-modified human serum albumin - AGE-SA AGE-modified serum albumin - AGE-BSA AGE-modified bovine serum albumin - AGE-HSA AGE-modified human serum albumin - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - HPLC high-performance liquid chromatography - FFI 2-(2-furoyl)-4(5)-(2-furanyl)-1H-imidazole     

Polyphenolic Antioxidants Efficiently Protect Urease from Inactivation by Ultrasonic Cavitation

Inactivation of urease (25 nM) in aqueous solutions (pH 5.0–6.0) treated with low-frequency ultrasound (LFUS; 27 kHz, 60 W/cm², 36–56°C) or high-frequency ultrasound (HFUS; 2.64 MHz, 1 W/cm², 36 or 56°C) has been characterized quantitatively, using first-order rate constants: k _in, total inactivation; k _in ^*, thermal inactivation; and k _in(us), ultrasonic inactivation. Within the range from 1 nM to 10 M, propyl gallate (PG) decreases by approximately threefold the rate of LFUS-induced inactivation of urease (56°C), whereas resorcinol poly-2-disulfide stops this process at 1 nM or higher concentrations. PG completely inhibits HFUS-induced inactivation of urease at 1 nM (36°C) or 10 nM (56°C). At 0.2–1.0 M, human serum albumin (HSA) increases the resistance of urease treated with HFUS to temperature- and cavitation-induced inactivation. Complexes of gallic acid polydisulfide (GAPDS) with HSA (GAPDS–HSA), formed by conjugation of 1.0 nM GAPDS with 0.33 nM HSA, prevent HFUS-induced urease inactivation (56°C).     

Metal complexes of the third-generation quinolone antimicrobial drug sparfloxacin: Structure and biological evaluation

Five metal complexes of the third-generation quinolone antimicrobial agent sparfloxacin with Fe³⁺, VO²⁺, Mn²⁺, Ni²⁺ and have been prepared and characterized with physicochemical and spectroscopic techniques. In these complexes, sparfloxacin acts as a bidentate deprotonated ligand bound to the metal through the ketone oxygen and a carboxylate oxygen. The complexes are six-coordinate with distorted octahedral geometry. For VO(sparfloxacinato)₂(H₂O) the axial position, trans to the vanadyl oxygen, is occupied by a ketone oxygen atom. Molecular mechanics calculations have been performed in order to propose a model for the structure of each complex. The antimicrobial activity of the complexes has been tested against three microorganisms showing that they exhibit lower activity than free sparfloxacin. UV spectroscopic titration with calf-thymus DNA (CT DNA) has shown that the complexes can bind to CT DNA and the binding constants to CT DNA have been calculated. The cyclic voltammograms of the complexes in the presence of CT DNA have shown that they bind to CT DNA probably by the intercalative binding mode. Fluorescence competitive studies with ethidium bromide (EB) have revealed the ability of the complexes to displace the DNA-bound EB. The complexes exhibit good binding propensity to human and bovine serum albumin proteins having relatively high binding constant values.     

Study of salt effects on adenosine–polyuridylic acid interaction

Complex formation between poly(U) and adenosine in solutions of salts that stabilize (Na₂SO₄), destabilize (NaClO₄), or have little effect on the water structure (NaCl), as well as the poly(U)·poly(A) interaction in NaClO₄, was studied by equilibrium dialysis and uv spectroscopy. At 3°C and neutral pH, Ado·2 poly(U) is formed in 1M NaCl and 0.33M Na₂SO₄. In NaClO₄ solutions under the same conditions, an Ado·poly(U) was found over the whole range of salt concentration investigated (10 mM?1M), which has not been previously observed under any conditions. The Ado-poly(U) was also found in a NaCl/NaClO₄ mixture, the transition from the triple- to the double-helical complex occurring within a narrow range of concentration of added NaClO₄. In the presence of 1M NaCl this transition is observed on adding as little as 10 mM NaClO₄, i.e., at a [ClO]/[Cl^?] ratio of about 1:100. However, when NaClO₄ is added to a 1M solution of the stabilizing salt Na₂SO₄, no transition occurs even at a [ClO]/[SO] ratio of 1:4. Investigation of melting curves and uv spectra has shown that in an equimolar mixture of the polynucleotides, only a double-helical poly(U)·poly(A) exists in 1M NaClO₄ at low temperatures; this also holds for 1M NaCl. This changes to a triple-helical 2 poly(U)·poly(A) and then dissociates as the temperature increases. At low temperatures and the poly(U)/poly(A) concentration ratio of 2:1, a mixture of 2 poly(U)·poly(A) and poly(U)·poly(A) was observed in 1M NaClO₄, in contrast to the case of 1M NaCl. Thus, sodium perchlorate, a strong destabilizer of water structure, promotes formation of double-helical complexes both in the polynucleotide–monomer and the polynucleotide–polynucleotide systems. Beginning with a sufficiently high ionic strength (μ ? 0.9), a further increase in the salt molarity results in an increase of the poly(U)·adenosine melting temperature in both stabilizing and neutral salts and a decrease in the destabilizing salt. In Na₂SO₄ concentrations higher than 1.2M Ado·2 poly(U) precipitates at room temperature. Analysis of the binding isotherms and melting profiles of the complexes between poly(U) and adenosine according to Hill's model shows that the cooperativity of binding, due to adenosine stacking on poly(U), increases in the order NaClO₄ < NaCl < Na₂SO₄. The free energy of adenosine stacking on the template is similar to that of hydrogen bonding between adenosine and poly(U) and ranges from ?1 to ?2 kcal/mol. The values of ΔH_t [the effective enthalpy of adenosine binding to poly(U) next to an occupied site, obtained from the relationship between complex melting temperature and free monomer concentration at the midpoint of the transition] are ?14.2, ?18.3, and ?16.8 kcal/mol for 1M solutions of NaClO₄, NaCl, and Na₂SO₄, respectively. The results indicate that the effects of anions of the salts studied are related to water structure alterations rather than to their direct interaction with the complexes between poly(U) and adenosine.     

Photoaffinity labeling of uncoupler binding sites on mitochondrial membrane

³H 2-azido-4-nitrophenol, a photoactive uncoupler, has been synthesized, and its uncoupling action on oxidative phosphorylation and its binding to the mitochondrial membrane have been studied. The uncoupler bound covalently to the mitochondrial membrane on photoirradiation was 3–4 times that bound reversibly in the absence of light. When irradiation was carried out in the presence of serum albumin, covalent binding was significantly depressed. The pattern of loss of ATP-P_i' exchange activity with increasing amounts of the uncoupler suggests that serum albumin prevents the binding of the uncoupler to the functional sites as well. Polyacrylamide gel electrophoresis of photoaffinity labeled submitochondrial particles in the presence of sodium dodecyl sulfate revealed that a 9000 dalton peptide bound high levels of uncoupler. Other proteins in the molecular weight range of 20,000–40,000 and 55,000 were also labeled. Photolysis in the presence of serum albumin or ATP decreased the covalent binding of the uncoupler to all the proteins, but particularly to the 20,000 dalton component. Soluble ATPase and the mitochondrial proteolipid purified from labeled mitochondria showed the presence of label.Abbreviations NPA 2-azido-4-nitrophenol - DNP 2,4-dinitrophenol - DCCD N, N¹-dicyclohexylcarbodiimide - AE particles=bovine heart submitochondrial particles prepared by treatment with NH₄OH and EDTA at pH 8.8 - RCI respiratory control index - BSA bovine serum albumin     

α-Endorphin-like immunoreactivity in plasma cells of the canine colonic mucosa

Summary During immunocytochemical investigations on the presence of opioid peptides in gastrointestinal endocrine cells it was found that a subpopulation of plasma cells located in the lamina propria of the canine colonic mucosa showed immunoreactivities for -endorphin. All immunohistochemical specificity controls proved the specificity of the reaction. Circumstantial evidence suggest, however, that no authentic -endorphin is present within this cell type. Possibly sequence homologies between -endorphin and the amino acid composition of a certain immunoglobulin are responsible for the immunocytochemically specific -endorphin-like immunoreactivity of plasma cells.Supported by a grant from the Deutsche Forschungsgemeinschaft, SFB 87/G 2     

Iron(III) complexes using NNS reduced Schiff bases and NNOS coordinating tetradentate ligands: Synthesis, structure and catecholase activity

The orange-red colored complexes of the type [Fe(L_SB)Cl₃], 1, have been synthesized in excellent yields by reacting FeCl₃·6H₂O with L_SB in methanol. Here, L_SB is (2-(ethylthio)-N-(pyridin-2-ylmethyl)ethanamine), (L_SB¹) and (2-(benzylthio)-N-(pyridin-2-ylmethyl)ethanamine) (L_SB²). Similarly, FeCl₃·6H₂O reacted with 2-(((2-(ethylthio) ethyl) (pyridin-2-ylmethyl)amino)methyl)phenol (HL¹), 2-(((2-(ethylthio)ethyl)(pyridin-2 ylmethyl)amino)methyl)-4-nitrophenol (HL²), 4-chloro-2-(((2-(ethylthio)ethyl)(pyridin-2-ylmethyl)amino)methyl)phenol (HL³), 2-(((2-(benzylthio)ethyl)(pyridin-2-ylmethyl) amino)methyl)phenol (HL⁴), 2-(((2-(benzylthio)ethyl)(pyridin-2-ylmethyl)amino)methyl) -4-nitrophenol (HL⁵), and 4-chloro-2-(((2-(benzylthio)ethyl)(pyridin-2-ylmethyl)amino) methyl)phenol (HL⁶) to give dichloro complexes of the type [Fe(L)Cl₂], 2. The solid and solution structure of the complexes, as well as their properties, were probed using X-ray diffraction, spectroscopic and electrochemical methods. The Mössbauer spectral study at 80 K for complexes reveals the existence of (III) oxidation state and high-spin state of the metal center in the complex. Dioxygenase activity of the complexes has been studied and both 1 and 2 have been found to display the intradiol-cleaving pathway. However, no extradiol cleavage products have been isolated.     

Isolation of a melibiose-binding protein from human spleen

A melibiose-binding protein was isolated from human spleen by serial affinity chromatography on lactose-, mannose-, and melibiose-Sepharose. The purified protein agglutinated rabbit erythrocytes and re-bound to melibiose, but did not bind to murine nor human laminin. The protein was composed of 58 kDA, 32 kDa and 26 kDa polypeptides. The polypeptides were detected in buffy coat cell extracts and they were synthesizedin vitro by B lymphoblastoid cells. The polypeptides did not react with anti-galaptin, anti-C-reactive protein, anti-amyloid P, anti-keratin, and anti-rat lung lectin 29 sera. The 58 kDa polypeptide reacted very weakly with anti-core-specific lectin serum and reacted with anti-IgG serum. The data suggest that the major protein isolated is an anti-Gall 6 immunoglobulin.Abbreviations ME mercaptoethanol - PMSF phenylmethylsufonyl fluoride - HEPES 4-(2-hydroxyethyl)-1-piperazine ethanosulfonate - PBS 0.01m PO₄, 0.12m NaCl, pH 7.3 - TBS 0.1m NaCl, 0.05m Tris, 0.05% NaN₃, 0.01m CaCl₂, 0.001m MgCl₂, pH 7.3 - BSA bovine serum albumin - GSI Griffonia simplicifolia I - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis     

Effect of lipid supplements on the production and glycosylation of recombinant interferon-γ expressed in CHO cells

The effects of lipids on the glycosylation of recombinant human interferon- expressed in a Chinese Hamster Ovary cell line were investigated in batch culture. Lipids form an essential part of the N-glycosylation pathway, and have been shown to improve cell viability. In control (serum-free) medium the proportion of fully-glycosylated interferon- deteriorated reproducibly with time in batch culture, but the lipoprotein supplement ExCyte was shown to minimise this trend. Partially substituting the bovine serum albumin content of the medium with a fatty-acid free preparation also improved interferon- glycosylation, possibly indicating that oxidised lipids carried on Cohn fraction V albumin may damage the glycosylation process.Abbreviations BSA bovine serum albumin - CHO chinese hamster ovary - DHFR dihydrofolate reductase - FCS foetal calf serum - IFN- human interferon-gamma - q _IFN specific interferon production rate - specific growth rate - 2N doubly-gycosylated - 1N singly-glycosylated - ON non-glycosylated