Antibody responses to antigens of Streptococcus mutans in monkeys (Macaca fascicularis) immunized against dental caries

Immunization of rabbits or monkeys with walls prepared from Streptococcus mutans by a procedure including extraction with SDS at room-temperature induced antibodies to three antigens (A, B and C) detectable by crossed immunoelectrophoresis. Antigens A and B have previously been characterized as proteins of molecular weight 29 000 and 190 000, respectively. Antigen C was characterized as having a molecular weight of 70 000 and was purified by immunosorbent affinity chromatography and hydrophobic interaction chromatography. Another wall protein, antigen D, of molecular weight 13 000, was extracted from walls with Triton X-100. Immunization of monkeys with walls prepared from cultures of S. mutans grown at a high (D = 0.5 h-1) or low (D = 0.05 h-1) dilution rate in a chemostat showed that only the latter induced protection against dental caries. There was a positive correlation between levels of antibody to antigens A and C and induction of protection and a negative correlation between protection and the level of antibody to antigen B. No antibody to antigen D was detected in protected monkeys and an experiment in which monkeys were immunized with pure antigen D confirmed that it does not induce protection.     

Heterogeneity of streptococcus group A cell wall protein components

Cell wall surface proteins of group A streptococcus (M 29) were isolated by mild chemical extraction with 1 M hydroxylamine pH 6.0 (37 degrees C). The proteins were purified by ammonium sulfate fractionation, gel filtration on Sephadex G-150 and ion-exchange chromatography on DEAE-Trisacryl M. Using two independent methods (disc electrophoresis in 7.5% PAAG pH 8.9 and high pressure gel filtration), it was shown that after chromatography on Sephadex G-150 the original protein fraction contains up to 8 protein components, while SDS-PAAG electrophoresis performed according to Laemmli revealed up to 25 protein components in the same fraction. During SDS-PAAG electrophoresis six protein fractions performed after ion-exchange chromatography were resolved into 40 protein components whose molecular masses vary from 13 to 80 kDa. Possible reasons for the heterogeneity of surface proteins of group A streptococcus cell wall are discussed.     

Purification and Characterization of the Voltage-Dependent Anion-Selective Channel Protein from Wheat Mitochondrial Membranes

An approximately 29-kD protein was purified from the membrane fraction of wheat (Triticum aestivum cv Dganit) mitochondria by the utilization of standard liquid chromatography techniques. The protein, designated MmP29 for mitochondrial membrane protein having a molecular mass of approximately 29 kD, exhibited cationic properties in a buffering solution, adjusted to pH 7.5. This positive charge enabled its passage through a diethylaminoethyl column, without interaction with the positively charged matrix. Subsequently, this protein was separated from the remaining polypeptides by a preferential elution from a hydroxylapatite/celite mixed column. Reconstituted liposomes containing this protein were characterized as being permeable to 8-amino-naphthalene 1,3,6-trisulfonic acid disodium salt (Mr 445) but non-permeable to dextran fluorescein (Mr 40,000). Additionally, MmP29 was inserted into planar phospholipid membranes, and anion-selective, voltage-dependent channels were demonstrated. All of the MmP29 properties mentioned highly resemble voltagedependent, anion-selective channel (VDAC) proteins, suggesting that MmP29 is the mitochondrial outer membrane VDAC protein of wheat.     

The role of chromosomes from homeologous group 5 in regulation of grain hardness and protein content in substitution lines of common wheat cultivar Saratovskaya 29

Genetic regulation of grain hardness and protein content in intervarietal substitution lines for chromosomes of homeologous group 5 was examined. Common wheat cultivar Saratovskaya 29 with high bread-backing properties served as the recipient. Donors of chromosomes 5A and 5D were 18 cultivars with variable traits examined, including high-protein cultivars (Atlas 66 and Diamant 2), and soft-grain cultivars (Ul’yanovka and Chinese Spring). Analysis of substitution lines pointed to a substantial effect of chromosome 5D on the regulation of both traits. It was demonstrated that as a result of intervarietal substitution for chromosome 5D from donor cultivars Ul’yanovka and Chinese Spring, the endosperm softness was increased compared to the recipient cultivar Saratovskaya 29. Substitution lines Saratovskaya 29/Atlas 66 5D and Saratovskaya 29/Diamant 2 5D were characterized by high grain protein content, as well as by high endosperm hardness. In addition, the line Saratovskaya 29/Novosibirskaya 67 5D, characterized by grain hardness higher than in Saratovskaya 29, was isolated. In the lines with intervarietal substitution of chromosome 5A, grain protein content was found to be lower than in recipient cultivar Saratovskaya 29.     

Effect of matrices on affinity purification of protein C

One of the critical problems in scale-up of affinity chromatography is the mechanical strength of the support matrix against pressure. Because the costs of both the gel matrix and the ligand for the affinity chromatography are very high, the reusability of gel matrices is directly related to the total production cost. In certain cases, where the source material is viscous (e.g., blood plasma), irreversible deformation of gel matrices can readily occur, necessitating severe constraints in the flow rate. Consequently, productivity is low.We have characterized the system parameters and investigated the performance of various matrices that are commercially available. The experimental system used for this study was the immunoaffinity purification of protein C (an anticoagulant protein) from human blood plasma. The support matrices studied were cross-linked agarose, polymethyl acrylic, cellulose, and polyvinyl alcohol polymers. The major system parameters studied were pressure tolerance, coupling efficiency, adsorption efficiency, and batch adsorption/desorption kinetics of protein C to/from the monoclonal antibody (MAb)-Matrix complex. In addition, the apparent equilibrium constant and bandwidth of the product concentration profile in the eluate were characterized by performing pulse tests.A methodology was developed for evaluating the immunoaffinity colum performance for the separation of protein C. By utilizing the experimentally measured parameters, the flow rate limitation for each purification step was computed. Then, the purification performance of the matrices were evaluated in terms of productivity per unit time. Among the matrices tested, cellulose was superior in overall performance for the immunoaffinity purification of protein C using a 10 cm x 10 cm column.     

Yeast thioltransferase--the active site cysteines display differential reactivity

Thioltransferase, catalyzing thiol-disulfide interchange between reduced glutathione and disulfides, was purified to homogeneity from Saccharomyces cerevisiae. The purification procedure included ammonium sulfate precipitation, Sephadex G-50 gel filtration, CM-Sepharose ion exchange chromatography, and C18 reverse phase high pressure liquid chromatography. Two thioltransferase activity peaks were resolved by CM-Sepharose chromatography. The protein from the major peak had a molecular weight of 12 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis while the minor peak protein migrated slightly faster in this gel system. Both proteins showed similar amino acid compositions and identical N-termini. The major peak of thioltransferase was extensively characterized. Plots of thioltransferase activity as a function of S-sulfocysteine or hydroxyethyl disulfide concentration did not show normal Michaelis-Menten kinetics. The enzyme activity had a pH optimum of 9.1. The protein has 106 amino acid residues with two cysteines and no arginine. The active site amino acid sequence of the enzyme was identified as Cys26-Pro-Tyr-Cys29, which is similar to that of mammalian thioltransferase and Escherichia coli glutaredoxin. The two cysteines at the active site displayed different reactivities to iodoacetamide. Cys26 was alkylated by iodoacetamide at pH 3.5 while Cys29 was alkylated at pH 8.0. The enzyme was completely inactivated when the Cys26 was carboxymethylated. A plot of incorporation of iodoacetamide into Cys29 at different pHs was similar to the pH dependence of the enzyme activity. The result suggested that Cys26 could readily initiate nucleophilic attack on disulfide substrates at physiological pH.     

Inhibition of polygalacturonase from Verticillium dahliae by a polygalacturonase inhibiting protein from cotton

An extracellular endo-polygalacturonase (PGase) [E.C. 3.2.1.15] was isolated from 18-day-old culture filtrates of Verticillium dahliae and partially purified using gel permeation chromatography. The band responsible for PGase activity was electrophoretically characterized as having a molecular mass of approximately 29 500 and an isoelectric point of 5.4. Kinetic studies indicate a Km of 3.3 mg ml(-1) and Vmax of 0.85 micromol reducing units min(-1) ml(-1) with polygalacturonic acid as substrate. Polygalacturonase inhibitor protein (PGIP) in cotton seedlings was induced by 5 mM salicylic acid and immunochemical analysis indicated high levels in the hypocotyl tissues. PGIP was purified from roots and stems using affinity chromatography with endo-PGase from Aspergillus niger as an immobilised ligand. The purified PGIP contained monomeric and dimeric molecules with molecular masses of 34 and 66 kDa respectively. Purified cotton PGIP inhibited endo-polygalacturonase from A. niger in a non-competitive or mixed manner with an inhibition constant. K(I) of 15 nM. The isolated V. dahliae PGase was, however, inhibited in a positive cooperative manner, indicative of allosteric interactions between the enzyme and the inhibitor protein. In addition to reducing the reaction rate, decreased substrate affinity may contribute to the accumulation of elicitor-active oligouronides.     

Involvement of protein kinase C in the phosphorylation of an insulin-granule membrane protein.

The involvement of protein kinase C in the Ca2+-dependent phosphorylation of a 29 000-Mr insulin-granule membrane protein prepared from a rat insulinoma was investigated. Protein kinase C activity towards exogenous lysine-rich histone was detected in a cytosolic fraction prepared from an insulinoma homogenate in the presence of EGTA. This activity bound reversibly to insulin granules in a Ca2+-dependent manner. Phosphatidylserine liposomes removed both protein kinase C activity and the 29 000-Mr protein-phosphorylating activity from the cytosolic fraction in a Ca2+-dependent fashion. Protein kinase C activity and the enzymic activity responsible for the phosphorylation of the 29 000-Mr granule protein behaved identically on sucrose-density-gradient centrifugation, ion-exchange chromatography, (NH4)2SO4 fractionation and gel filtration of the cytosolic fraction. These results are consistent with protein kinase C being the enzyme responsible for the phosphorylation of the 29 000-Mr insulin-granule membrane protein.     

Purification and partial characterization of a lectin from Canavalia grandiflora benth. seeds

A D-glucose/D-mannose specific lectin from seeds of Canavalia grandiflora (ConGF) was purified by affinity chromatography on Sephadex G-50. By SDS-PAGE ConGF yielded three protein bands with apparent molecular masses of 29-30 kDa (alpha chain), 16-18 kDa (beta fragment) and 12-13 kDa (gamma fragment), like other related lectins from the genus Canavalia (Leguminosae). ConGF strongly agglutinates rabbit erythrocytes, has a high content of ASP and SER, and its N-terminal sequence (30 residues) is highly similar to the sequences of other related lectins from subtribe Diocleinae.     

Binding proteins for insulin-like growth factors in adult rat serum. Comparison with other human and rat binding proteins

Insulin-like growth factor (IGF) binding protein has been purified from adult rat serum by affinity chromatography on agarose-IGF-II and high performance reverse-phase chromatography. The final preparation contains two components, of apparent molecular mass 50 and 56 kDa nonreduced, or 44 and 48 kDa reduced, both of which specifically bind IGF-I and IGF-II. Competitive binding data indicate association constants of 5-10 X 10(10) l/mol for both IGFs, with a slightly higher affinity for IGF-II than IGF-I. Amino-terminal sequence analysis yields a unique sequence, identical in 11 of the first 15 amino acids with that of a human plasma IGF binding protein (Martin, J. L., and Baxter, R. C. (1986) J. Biol Chem. 261, 8754-8760), and with slight homology to other human and rat IGF binding proteins characterized to date. By analogy with the binding protein from human plasma, it is likely that the rat protein is part of the growth-hormone dependent complex which appears to carry most or all of the circulating IGFs.     

Biotin derivatives of methotrexate and folate. Synthesis and utilization for affinity purification of two membrane-associated folate transporters from L1210 cells

Biotin derivatives of methotrexate and folate (2-(biotinamido)ethyl-1,3'-dithiopropionyldiaminopentyl methotrexate and/or folate), in which carboxyl groups of the functional components are joined by a disulfide-containing spacer, have been synthesized, purified by DEAE-Trisacryl chromatography, and characterized by high pressure liquid chromatography and mass spectrometry. These bifunctional, dissociable probes were utilized for the single-step purification to homogeneity of two folate transport proteins (43 and 39 kDa) from L1210 cells. Treatment of the 39-kDa protein with peptide N-glycosidase F produced a smaller component (32 kDa); the 43-kDa protein, conversely, was unchanged by this procedure. When the 39-kDa transporter in intact cells was labeled with a fluorescein derivative of folate and then treated with phosphoinositol-specific phospholipase C, complete loss of fluorescence was observed. Alternatively, there was no change in fluorescence when the 43-kDa transporter was labeled with a fluorescein derivative of methotrexate and treated with the enzyme. These results indicate that the 43-kDa transporter is a nonglycosylated, integral membrane protein, whereas the 39-kDa counterpart is heavily glycosylated and anchored exofacially to the membrane by a glycosylphosphatidylinositol component.     

Chemical and immunochemical characterization of caseins and the major whey proteins of rabbit milk.

Caseins were separated from whey proteins by acid precipitation of skimmed rabbit milk. Whole casein was resolved by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis into three major bands with apparent relative molecular masses (Mr of 31 000, 29 000 and 25 000. On agarose/urea-gel electrophoresis whole casein gave three bands with electrophoretic mobilities alpha, beta and gamma. The three components were purified by DEAE-cellulose chromatography under denaturing and reducing conditions. Each was shown to have a different amino acid, hexose and phosphorus content, as well as non-identical peptide fragments after proteinase digestion. The 31 000 Da (dalton) protein, of alpha-electrophoretic mobility, had a high phosphorus content (4.38%, w/w); the 29 000 Da peptide, of gamma-mobility, had the highest hexose content (2.2%, w/w), contained 0.8 cysteine residue per 100 amino acid residues and was susceptible to chymosin digestion corresponding thus to kappa-casein; the 25 000 Da protein migrated to the beta-position. The rabbit casein complex is composed of at least three caseins, two of which (alpha- and kappa-caseins) are analogous to the caseins from ruminants. Although caseins are poor immunogens, specific antibodies were raised against total and purified polypeptides. The antiserum directed against whole casein recognized each polypeptide, each casein corresponding to a distinct precipitation line. The antisera directed against each casein polypeptide reacted exclusively with the corresponding casein and no antiserum cross-reaction occurred between the three polypeptides. From whey, several proteins were isolated, characterized and used as antigens to raise specific antibodies. An iron-binding protein with an apparent Mr of 80 000 was shown to be immunologically and structurally identical with serum transferrin.     

Expression, purification, and in vitro refolding of a humanized single-chain Fv antibody against human CTLA4 (CD152)

A human-derived single-chain Fv (scFv) antibody fragment specific against human CTLA4 (CD152) was produced at high level in Escherichia coli. The scFv gene was cloned from a phagemid to the expression vector pQE30 with a N-terminal 6His tag fused in-frame, and expressed as a 29 kDa protein in E. coli as inclusion bodies. The inclusion body of scFv was isolated from E. coli lysate, solubilized in 8M urea with 10mM dithiothreitol, and purified by ion-exchange chromatography. Method for in vitro refolding of the scFv was established. The effects of refolding buffer composition, protein concentration and temperature on the refolding yield were investigated. The protein was renatured finally by dialyzing against 3mM GSH, 1mM GSSG, 150 mM NaCl, 1M urea, and 50 mM Tris-Cl (pH 8.0) for 48 h at 4 degrees C, and then dialyzed against phosphate-buffered saline (pH 7.4) to remove remaining denaturant. This refolding protocol generated up to a 70% yield of soluble protein. Soluble scFv was characterized for its specific antigen-binding activity by indirect cellular ELISA. The refolded scFv was functionally active and was able to bind specifically to CTLA4 (CD152). The epitopes recognized by refolded anti-CTLA4 scFv do not coincide with those epitopes recognized by CD80/CD86.     

Isolation and characterization of thiamin-binding protein from chicken egg white.

A thiamin-binding protein was isolated and characterized from chicken egg white by affinity chromatography on thiamin pyrophosphate coupled to aminoethyl-Sepharose. The high specificity of interaction between the thiamin-binding protein and the riboflavin-binding protein of the egg white, with a protein/protein molar ratio of 1.0, led to the development of an alternative procedure that used the riboflavin-binding protein immobilized on CNBr-activated Sepharose as the affinity matrix. The thiamin-binding protein thus isolated was homogeneous by the criteria of polyacrylamide-gel disc electrophoresis, double immunodiffusion and sodium dodecyl sulphate/polyacrylamide-gel electrophoresis, had a mol.wt. of 38,000 +/- 2000 and was not a glycoprotein. The protein bound [14C]thiamin was a molar ratio of 1.0, with dissociation constant (Kd) 0.3 micrometer.     

Partial purification and characterization of a new phosphoprotein kinase from cells infected with pseudorabies virus

Cytoplasmic fractions from normal baby hamster kidney fibroblasts and from fibroblasts infected with pseudorabies virus were fractionated by DEAE-cellulose chromatography and fractions assayed for protein kinase activity. In preparations from uninfected and infected cells protein kinase activities identified as casein kinase I and II, the two isoforms of the cyclic-AMP-dependent protein kinase, protein kinase C, and a presumed proteolytic fragment of protein kinase C were present in comparable amounts. However in infected cells a new protein kinase activity was detected, appearing about 4 h after infection and increasing during the following 6 h at least. This new protein kinase was purified 100-fold by high-performance gel-permeation and ion-exchange chromatography, and characterized. It has an apparent relative molecular mass of 68 000 on the basis of gel-permeation chromatography, and a sedimentation coefficient of 4.3 S. It catalysed the phosphorylation of serine residues of basic proteins in vitro, with protamine a better substrate than mixed histones; and used ATP (apparent Km = 60 microM), but not GTP, as phosphoryl donor. Molecules that can serve as effectors for other protein kinases (cyclic AMP, cyclic GMP, Ca2+ + calmodulin, Ca2+ + phospholipid, double-stranded RNA, and heparin) did not significantly alter the activity of this enzyme. A distinguishing characteristic of the protein kinase was a high KCl concentration optimum with the persistence of activity up to 800 mM KCl, at least.     

Major complement inhibiting factors from the venom of the Central Asian cobra Naja naja oxiana

The properties of two anticomplementic factors isolated by CM-Sepharose chromatography from the basic non-adsorbed on DEAE-Sepharose fraction of the Central Asian cobra Naja naja oxiana venom, were studied. Of these three factors (CFB-I, CFB-II and CFB-III) the latter had been characterized earlier. CFB-I was shown to be a protein with an N-terminal Asp and a molecular mass of about 39 kDa (data from gel chromatography); its content in the venom is 3.6 mg/g of dry venom. The protein inhibits mainly the classical pathway of the complement activation, being bound to component C4 (Ki = 9 nM). CFB-I seems to be analogous to the CI inhibitor from the venom of the Naja haje cobra. An analysis of the N-terminal sequence of CFB-II showed it to be identical to the earlier characterized cytotoxin I. CFB-I inhibits the formation of C3 convertase with Ki = 2.2-2.8 microM by way of binding to C4b and thus interfering with the component C2 sorption.     

Cysteine synthase of an extremely thermophilic bacterium,Thermus thermophilus HB8

O-Acetyl-L-serine sulfhydrylase (EC 4.2.99.8) was first purified from an extremely thermophilic bacterium, Thermus thermophilus HB8, in order to ascertain that it is responsible for the cysteine synthesis in this organism cultured with either sulfate or methionine given as a sole sulfur source. Polyacrylamide gel electrophoreses both with and without SDS found high purity of the enzyme preparations finally obtained, through ammonium sulfate fractionation, ion exchange chromatography, gel filtration, and hydrophobic chromatography (or affinity chromatography). The enzyme activity formed only one elution curve in each of the four different chromatographies, strongly suggesting the presence of only one enzyme species in this organism. Molecular masses of 34,000 and 68,000 were estimated for dissociated subunit and the native enzyme, respectively, suggesting a homodimeric structure. The enzyme was stable at 70 degrees C at pH 7.8 for 60 min, and more than 90% of the activity was retained after incubation of its solution at 80 degrees C with 10 mm dithiothreitol. The enzyme was also quite stable at pH 8-12 (50 degrees C, 30 min). It had an apparent Km of 4.8 mM for O-acetyl-L-serine (with 1 mM sulfide) and a Vmax of 435 micromol/min/mg of protein. The apparent Km for sulfide was approximately 50 microM (with 20 mM acetylserine), suggesting that the enzyme can react with sulfide liberated very slowly from methionine. The absorption spectrum of the holo-enzyme and inhibition of the activity by carbonyl reagents suggested the presence of pyridoxal 5'-phosphate as a cofactor. The apo-enzyme showed an apparent Km of 29 microM for the cofactor at pH 8. Monoiodoacetic acid (1 mM) almost completely inactivated the enzyme. The meaning of a very high enzyme content in the cell is discussed.     

Expression of antihypertensive peptide, His-His-Leu, as tandem repeats in Escherichia coli

His-His-Leu (HHL), a tripeptide derived from a Korean soybean paste, is an angiotensin-I-converting enzyme (ACE) inhibitor. We report here a method of producing this tripeptide efficiently by expressing tandem multimers of the codons encoding the peptide in E. coli and purifying the HHL after hydrolysis of the peptide multiners. The HHL gene, tandemly multimerized to a 40-mer, was ligated with ubiquitin as a fusion gene (UH40). UH40 was inserted into vector pET29b; the UH40 fusion protein was then produced in E. coli BL21. The recombinant UH40 protein was purified by cation-exchange chromatography with a yield of 17.3 mg/l and analyzed by matrix-assisted laser desorption ionization (MALDI) time-of-flight (TOF) mass spectrometry and protein N-terminal sequencing. Leucine aminopeptidase was used to cleave a 405-Da HHL monomer from the UH40 fusion protein and the peptide was purified using reverse-phase high-performance liquid chromatography (HPLC) on a C18 HPLC column, with a final yield of 6.2 mg/l. The resulting peptide was confirmed to be HHL with the aid of MALDI-TOF mass spectrometry, glutamine-TOF mass spectrometry, N-terminal sequencing, and measurement of ACE inhibiting activity. These results suggest that our production method is useful for obtaining a large quantity of recombinant HHL for functional antihypertensive peptide studies.     

High molecular weight calmodulin-binding protein is phosphorylated by calmodulin-dependent protein kinase VI from bovine cardiac muscle

A high molecular weight calmodulin-binding protein (HMW CaMBP) from bovine heart cytosolic fraction was purified to apparent homogeneity. A novel CaM-dependent protein kinase was originally discovered when the total CaM-binding protein fraction from cardiac muscle was loaded on a gel filtration column. The CaM-dependent protein kinase was shown by gel filtration chromatography to have an apparent molecular mass of 36,000 daltons. The CaM-dependent protein kinase has been highly purified by sequential chromatography on DEAE-Sepharose C1 6B (to remove calmodulin), CaM-Sepharose 4B, phosphocellulose, Sepharose 6B gel filtration and Mono S column chromatographies. The highly purified protein kinase stoichiometrically phosphorylated the HMW CaMBP in a Ca²⁺/CaM-dependent manner. The phosphorylation resulted in the maximal incorporation of 1 mol of phosphate/mol of the HMW CaMBP. The distinct substrate specificity of this protein kinase indicates that it is not related to the known protein kinases (I, II, III, IV and V) that have been already characterized, therefore we would like to designate this novel kinase as a CaM-dependent protein kinase V1.