Purification and some properties of streptococcal protein G, a novel IgG-binding reagent

Protein G, a bacterial cell wall protein with affinity for immunoglobulin G (IgG), has been isolated from a human group G streptococcal strain (G148). Bacterial surface proteins were solubilized by enzymatic digestion with papain. Protein G was isolated by sequential use of ion-exchange chromatography on DEAE-cellulose, gel filtration on Sephadex G-100, and affinity chromatography on Sepharose 4B-coupled IgG. The presence of protein G in various pools and fractions during the isolation was followed by their ability to inhibit the binding of radio-labeled IgG to G148 bacteria. A highly purified protein G was obtained. On polyacrylamide gel electrophoresis in sodium dodecyl sulfate, the apparent m.w. was 30,000, and on agarose gel electrophoresis the purified protein gave rise to a single band in the alpha 1-region. Protein G was found to bind all human IgG subclasses and also rabbit, mouse, and goat IgG. On the IgG molecule, the Fc part appears mainly responsible for the interaction with protein G, although a low degree interaction was also recorded for Fab fragments. IgM, IgA, and IgD, however, showed no binding to protein G. This novel IgG-binding reagent promises to be of theoretical and practical interest in immunologic research.     

Purification and properties of a fucoidan-binding protein from human placenta and its identification as immunoglobulin G.

1. A fucoidan-binding protein from human placenta was purified by affinity chromatography on immobilized fucoidan. 2. Characterization of molecular and immunological properties and peptide mapping indicated that the fucoidan-binding protein is an immunoglobulin G. 3. Cleavage with papain and transblot analysis with labelled fucoidan ascertained binding properties of the F(ab) fragments. 4. The specificity for fucoidan was furthermore substantiated by hapten inhibition of haemagglutination as well as by solid-phase assays with biotinylated fucoidan as ligand. The results emphasized the importance of structural features instead of simple ionic interactions. 5. Chemical modification with group-specific reagents to lysine, arginine, tryptophan, tyrosine and histidine resulted in substantial inactivation, their impact being markedly reduced by the presence of fucoidan in the cases of lysine, arginine and tryptophan.     

Immunoglobulin specificity of TG19318: a novel synthetic ligand for antibody affinity purification

A synthetic ligand [TG19318], able to mimic protein A in the recognition of the immunoglobulin Fc portion, has been previously identified in our laboratory through the synthesis and screening of multimeric combinatorial peptide libraries. In this study we have fully characterized its applicability in affinity chromatography for the downstream processing of antibodies, examining the specificity and selectivity for polyclonal and monoclonal immunoglobulins derived from different sources. Ligand specificity was broader than protein A, since IgG deriving from human, cow, horse, pig, mouse, rat, rabbit, goat and sheep sera, IgY obtained from egg yolk, and IgM, IgA and IgE were efficiently purified on TG19318 affinity columns. Adsorbed antibodies were conveniently eluted by a buffer change to 0.1 M acetic acid or 0.1 M sodium bicarbonate pH 9, with full retention of immunological properties. Monoclonal antibodies deriving from cell culture supernatants or ascitic fluids were also conveniently purified on TG19318 affinity columns, even from very diluted samples. The affinity constant for the TG19318-IgG interaction was 0.3 microM, as determined by optical biosensor measurements. Under optimized conditions, antibody purity after affinity purification was close to 95%, as determined by densitometric scanning of SDS-PAGE gels of purified fractions, and maximal column capacity reached 25 mg Ig/ml support. In vivo toxicity studies in mice indicated a ligand oral toxicity greater than 2000 mg kg-1 while intravenous toxicity was close to 150 mg kg-1. Validation of antibody affinity purification processes for therapeutic use, a very complex, laborious and costly procedure, is going to be simplified by the use of TG19318, which could reduce considerably the presence of biological contaminants in the purified preparation, a very recurrent problem when using recombinant or extractive biomolecules as affinity ligands.     

Time-domain reflectrometry studies of water binding and structural flexibility in chymotrypsin

Time-domain dielectric spectroscopy has been employed to probe the hydration properties and structural flexibility of chymotrypsin (EC 3.4.21.1). The dielectric properties of the hydrated protein above 100 MHz have been used to identify two categories of protein-bound water, the first being irrotationally bound to the protein with a second, relatively weakly bound, having a rotational freedom comparable with that of normal bulk water. A dielectric dispersion observed, centred at 12 MHz, has been attributed to the relaxation of the polar components of the protein structure. This dielectric loss became increasingly significant above a transition in the hydration dependence, where water is relatively weakly bound to the chymotrypsin. This is discussed in terms of the formation of water clusters on the protein surface which screen electrostatic interactions between protein-charged groups.     

Detection of immuno-complex formation via surface plasmon resonance on gold-coated diffraction gratings

The sensitivity of surface plasmon resonance techniques to changes in local interfacial refractive index has been exploited to detect immuno-complex formation in two model biochemical systems. A gold-coated diffraction grating has been used to excite surface plasmons at the gold/solution interface to which either human immunoglobulin G or the immunoglobulin fraction of sheep antiserum to human serum albumin was physically adsorbed. The complementary proteins, either affinity purified goat antihuman-IgG IgG or human serum albumin was subsequently specifically bound by immuno-complex formation. The binding reactions could be followed with respect to time.     

Enzymic Mechanism of Starch Breakdown in Germinating Rice Seeds: 8. Immunohistochemical Localization of beta-Amylase

Rabbit antiserum against β-amylase isolated from germinating seeds of rice was produced, and its specific cross-reactivity with β-amylase was confirmed by means of Ouchterlony double immunodiffusion and immunoelectrophoresis procedures. The cellular localization of β-amylase was studied by indirect fluorescence microscopy of thin sectioned germinating rice seed specimens (1-day stage) which had been fixed and treated with purified rabbit anti-β-amylase immunoglobulin G followed by conjugation with fluorescein isothiocyanate-labeled goat antirabbit immunoglobulin G. It has been demonstrated that β-amylase is uniformly associated with the periphery of starch granules in the starchy endosperm cells. The finding is discussed in relation to the general notion concerning the presence of the latent form of β-amylase bound to protein bodies in cereal seeds.     

Immunogold for detection of antigen on nitrocellulose paper

The application of immunogold for the detection of antigen-antibody complexes on nitrocellulose paper is described. Tobacco mosaic virus (TMV) protein, either purified or in leaf extract, was bound to the nitrocellulose paper and then exposed to rabbit anti-TMV serum. The antigen-antibody complexes were detected by gold-labeled goat anti-rabbit immunoglobulin G. The gold-labeled antibody is directly visible because of its pink color. This method can detect 1-5 pg of TMV protein, either in purified form or in the unpurified plant extract, with high specificity.     

Protein AG-gold complex: an alternative probe in immunocytochemistry.

The purpose of this study was to evaluate the use of protein AG tagged with colloidal gold as a reliable immunocytochemical reagent. Protein AG is a recombinant of 47.3 KD molecular weight and pI = 4.3, which displays immunoglobulin Fc binding sites for both staphylococcal protein A and streptococcal protein G. It adsorbs to 10-nm colloidal gold particles with a lower affinity than does protein A, and is saturable. A maximal number of 12 protein AG molecules could be accommodated on the gold particle surface. Protein AG-gold conjugates yielded positive signals in post-embedding immunocytochemical assays when used as a secondary reagent in conjunction with several species and classes of polyclonal (rabbit, goat, sheep, guinea pig) and mouse monoclonal immunoglobulins (IgG1, IgG2, and IgG3). In addition, protein AG-gold was found to be a useful reagent in immunoblot analysis because of its ability to bind and identify nitrocellulose-immobilized IgGs (rabbit, mouse, goat, sheep, rat, and cow). Its spectrum of specificity towards various types of antibodies combines those of the parental protein A and protein G molecules. The protein AG-gold complex therefore appears to be a highly versatile and convenient alternative probe for immunochemical and immunocytochemical studies.     

Anti-rabbit immunoglobulin G detection in complex medium by PM-RAIRS and QCM Influence of the antibody immobilisation method

Two antibody immobilisation procedures were compared to set up an immunosensor for goat anti-rabbit immunoglobulin (anti-rIgG), i.e. rIgG covalently bound or immobilised via affinity to protein A (PrA). In both cases, the first layer of protein was covalently bound to a mixed self-assembled monolayer (SAM) of mercaptoundecanoic acid (MUA) and mercaptohexanol (C6OH) on a gold surface. The elaboration of the sensitive surfaces, as well as their selectivity and sensitivity were studied step by step by polarization modulation-reflection absorption infra-red spectroscopy (PM-RAIRS) and quartz crystal microbalance (QCM) with impedance measurement. QCM measurements showed that the viscoelastic properties of the antibody layer were markedly modified during the antigen recognition when the antibody was bound by affinity to PrA. The specific detection of antigen within a complex medium was assessed by PM-RAIRS thanks to the grafting of cobalt-carbonyl probes. Affinity constants between the immobilised rIgG and the anti-rIgG were determined from PM-RAIRS analysis.     

Detection of an immunoglobulin-like serum protein possessing a high affinity for collagen

Fibronectin isolated from bovine serum by affinity chromatography on collagen-Sepharose was found to contain a great number of concomitant proteins. Polyacrylamide gel electrophoresis of experimental samples pretreated with beta-mercaptoethanol under denaturation conditions resulted in the polypeptide fractions with Mr of 25, 54 and 82 KD, while the non-treated samples contained only one protein of non-fibronectin type (Mr = = 180-190 KD). This protein was isolated from the total preparations of collagen-binding proteins by the procedures generally employed for the isolation of purified preparations of immunoglobulins G; this protein was also isolated from purified immunoglobulins G using affinity chromatography on collagen-Sepharose. In terms of its molecular weight, subunit composition and immunological and chromatographical behaviour this protein can be related to immunoglobulins. The immunoglobulin-like protein isolated together with fibronectin revealed an affinity for denatured collagen, but not for fibronectin or Sepharose. The content of immunoglobulin with an affinity for denatured collagen in the total fraction of immunoglobulins G is 0.3-0.5%.     

High-performance affinity chromatography with immobilization of protein A and L-histidine on molded monolith

Reactive monoliths of macroporous poly(glycidyl methacrylate-co-ethylene dimethacrylate) have been prepared by "in-situ" copolymerization of the monomers in the presence of porogenic diluents. Protein A and L-histidine were immobilized on the monoliths directly or through a spacer arm, respectively. The properties of these two kinds of affinity columns were characterized, and the results showed that the columns with coupling of ligands by a spacer arm have some extent of non-specific adsorption for bovine serum albumin. The affinity column based on the monolithic polymer support provided us with good hydrodynamic characteristic, low flow resistance, and easy preparation. These two affinity columns were used for the purification of immunoglobulin G from human serum. The purity of the purified IgG was detected by matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF-MS). The stability of the protein A affinity column was investigated, and its performance remained invariable after half a year. The effects of the nature and the pH of the buffer system on the adsorption capacity of human IgG on histidyl affinity column were also investigated. The protein A affinity column is favorable for rapid analysis of human IgG samples. In contrast, the advantages of mild elution conditions, high stability, as well as low cost provide the histidyl column further potential possibility for fast removal of IgG from human plasma in clinical applications.     

Novel sulfamethazine ligand used for one-step purification of immunoglobulin G from human plasma

To replace conventional affinity ligand like protein A or protein G, a pseudobioaffinity ligand seems to be an alternative for the purification of immunoglobulin G (IgG). In this study, sulfamethazine (SMZ) was chosen as novel affinity ligand for investigating its affinity to human IgG. Monodisperse, non-porous, cross-linked poly (glycidyl methacrylate) (PGMA) beads were employed as the support for high-performance affinity chromatography. SMZ was immobilized on PGMA beads using bisoxirane (ethanediol diglycigyl ether) as spacer. The resultant affinity media presented minimal non-specific interaction with other proteins. Results of high-performance frontal analysis indicated that the media showed specific affinity to human IgG with a dissociation constant on the order of 10(-6) M. The SMZ affinity column proved useful for a very convenient one-step purification of IgG from human plasma. Antibody purity after a one-step purification was higher than 90%, as determined by densitometric scanning of sodium dodecyl sulfate-polyacrylamide gel electrophoresis of purified fraction under reducing condition. The results obtained indicate that SMZ is a valuable affinity ligand for purification of human IgG.     

Process development for the recovery and purification of recombinant protein G.

The domains of protein G from streptococcus which bind immunoglobulin G have been cloned and expressed in Escherichia coli (Fahnestock et al., 1986). Because protein G binds to several animal immunoglobulin G's, it has many immunochemical applications. This report describes process development for large-scale production of this recombinant protein G (also known as GammaBind G). In 200 l cultures of E. coli, this protein G variant was released from the cell into the culture medium by heating at 80 degrees C for 10 min. The concentration was monitored by either a competitive enzyme-linked immunoassay or a liquid chromatographic assay. Cross-flow microfiltration with 0.22 micron membrane was used to remove the cells. The protein G-rich permeate from the cross-flow microfilter was purified by affinity chromatography using a 5 l column of IgG-Sepharose 6 Fast Flow, which yielded 16-18 g of protein G per column cycle. The pools of purified protein G were concentrated and desalted using ultrafiltration. The salt-free protein G was then lyophilized as bulk product. The overall recovery through the entire process was 50-64%. The analysis of the final product included sodium dodecyl sulfate polyacrylamide gel electrophoresis, UV-visible spectrum, high performance gel filtration, endotoxin level and binding efficiency to human IgG Sepharose.     

The origin and impact of bound water around intrinsically disordered proteins

Proteins and water couple dynamically over a wide range of time scales. Motivated by their central role in protein function, protein-water dynamics and thermodynamics have been extensively studied for structured proteins, where correspondence to structural features has been made. However, properties controlling intrinsically disordered protein (IDP)-water dynamics are not yet known. We report results of megahertz-to-terahertz dielectric spectroscopy and molecular dynamics simulations of a group of IDPs with varying charge content along with structured proteins of similar size. Hydration water around IDPs is found to exhibit more heterogeneous rotational and translational dynamics compared with water around structured proteins of similar size, yielding on average more restricted dynamics around individual residues of IDPs, charged or neutral, compared with structured proteins. The on-average slower water dynamics is found to arise from excess tightly bound water in the first hydration layer, which is related to greater exposure to charged groups. The more tightly bound water to IDPs correlates with the smaller hydration shell found experimentally, and affects entropy associated with protein-water interactions, the contribution of which we estimate based on the dielectric measurements and simulations. Water-IDP dynamic coupling at terahertz frequencies is characterized by the dielectric measurements and simulations.     

红桂木凝集素的纯化与性质研究

红桂木（Ａｒｔｏｃａｒｐｕｓｌｉｎｇｎａｎｅｎｓｉｓ）、俗名胭脂,属桑科桂木属,为亚热带、热带植物．红桂木种子含丰富的红桂木凝集素（Ａｒｔｏｃａｒｐｕｓｌｉｎｇｎａｎｅｎｓｉｓｌｅｃｔｉｎ,ＡＬＬ）,但迄今国内外均未见关于它的报道．我们采用Ｇａｌ－Ｓ...     

Purification of immunoglobulins G by protein A/G affinity membrane chromatography

An affinity membrane grafted with protein A/G or protein A was characterized for human and mouse immunoglobulins G purification. Breakthrough curves up to ligand saturation were measured and used to study the effects of flow velocities, feed solution concentrations and protein A/G versus protein A membranes. Increased flow-rate did not decrease the amount of IgG bound to the membranes. Increased feed solution concentration allowed more IgG to bind prior to breakthrough. Kinetic parameters for immunoglobulins G sorption to immobilized protein A were measured in batch experiments. The static binding capacity was determined to be 6.6 mg ml⁻¹ membrane volume. Finally, this affinity membrane was used to purify IgG from cell culture supernatant. The electrophoresis of the purified IgG fractions did not show any contaminant.     

Protein G: a powerful tool for binding and detection of monoclonal and polyclonal antibodies

Protein G is an immunoglobulin (IgG)-binding bacterial cell wall protein recently isolated from group G streptococci. We have investigated the avidity of protein G for various monoclonal and polyclonal Ig of the IgG class, and compared it with the binding properties of protein A, the staphylococcal Fc-binding protein. Radiolabeled Ig were mixed with Sepharose-coupled protein G or protein A, and the amounts of radioactivity bound to the matrix-coupled bacterial proteins were determined. The avidity was found to be greater for protein G than for protein A for all examined Ig. Protein G bound all tested monoclonal IgG from mouse IgG1, IgG2a, and IgG3, and rat IgG2a, IgG2b, and IgG2c. In addition, polyclonal IgG from man, cow, rabbit, goat, rat, and mouse bound to protein G, whereas chicken IgG did not. The binding property of protein G was additionally exploited in the Western blot assay, in which iodine-labeled protein G was used successfully for the detection of a rat monoclonal antibody against ovalbumin, and for the detection of rabbit and goat polyclonal whole antisera against human urinary proteins. In these experimental situations, protein G was found to be a powerful reagent for the detection of IgG, and consequently the antigen against which these antibodies are directed.     

Immune complex formation enhances the binding of staphylococcal protein A to immunoglobulin G

Staphylococcal protein A binds efficiently to the Fc region of goat immunoglobulin G antibodies only after they are immune complexed to immobilized, but not fluid-phase, polyvalent antigen (human myeloma immunoglobulin E protein) or monovalent hapten (methotrexate). Compared to fluid-phase or immobilized free immunoglobulin G, the reactivity of anti-immunoglobulin antibodies bound to solid-phase antigen was enhanced at least 300-fold. Results with immobilized methotrexate indicated that two molecules of immunoglobulin G must be bound in proximity to bind one molecule of protein A. Thus, aggregation appears to be a necessary condition for protein A binding.     

Immunocytochemical localization of reserve protein in the endoplasmic reticulum of developing bean (Phaseolus vulgaris) cotyledons

The ultrastructure of the storage parenchyma cells of the cotyledons of developing bean (Phaseolus vulgaris L.) seeds was examined in ultrathin frozen sections of specimens fixed in a mixture of glutaraldehyde, formaldehyde and acrolein, infused with 1 M sucrose, and sectioned at-80° C. Ultrastructural preservation was excellent and the various subcellular organelles could readily be identified in sections which had been stained with uranyl acetate and embedded in Carbowax and methylcellulose. The cells contained large protein bodies, numerous long endoplasmic reticulum cisternae, mitochondria, dictyosomes, and electron-dense vesicles ranging in size from 0.2 to 1.0 m. Indirect immunolabelling using rabbit immunoglobulin G against purified phaseolin (7S reserve protein), and ferritin-conjugated goat immunoglobulin G against rabbit immunoglobulin G was used to localize phaseolin. With a concentration of 0.1 mg/ml of anti-phaseolin immunoglobin G, heavy labeling with ferritin particles was observed ober the protein bodies, the cisternae of the endoplasmic reticulum, and the vesicles. The same structures were lightly labeled when the concentration of the primary antigen was 0.02 mg/ml. Ferritin particles were also found over the Golgi bodies. The absence of ferritin particles from other organelles such as mitochondria and from areas of cytoplasm devoid of organelles indicated the specificity of the staining, especially at the lower concentration of anti-phaseolin immunoglobulin G.Abbreviations ER endoplasmic reticulum - IgG immunoglobulin G     

In vitro production of feline IgG: quantification by an enzyme-linked immunosorbent assay (ELISA)

We report here on the development of a sensitive and convenient enzyme-linked immunosorbent assay (ELISA) for feline IgG by using commercially available reagents and optimizing their concentrations. The reagents employed include goat anti-cat IgG antibody and alkaline phosphatase-conjugated goat anti-cat IgG antibody. The assay described is sensitive, reproducible, and highly specific for feline IgG. The assay was applied for the measurement of feline IgG synthesized and secreted in vitro by peripheral blood mononuclear cells cultured with or without a polyclonal B-cell activator. The amounts of secreted IgG in the supernatants measured by an ELISA correlated well with the numbers of IgG-secreting cells which were induced upon stimulation with pokeweed mitogen and determined by a reverse hemolytic plaque assay.