6,4,4'-trimethylangelicin photoadduct formation in DNA: production and characterization of a specific monoclonal antibody

The photochemical reactions of 6,4,4'-trimethylangelicin (TMA) with calf thymus DNA and an octanucleotide containing a single thymine have been characterized. HPLC analyses of enzymatically hydrolyzed TMA-DNA showed that isomeric forms of 4',5'-furan-side monoadducts were the major products. To develop monoclonal antibodies Balb c mice were immunized with the TMA-DNA complexed with methylated bovine serum albumin. The resultant antibodies were characterized by enzyme-linked immunosorbent assays (ELISA). The most sensitive antibody (7E3) has high specificity for TMA-DNA, very low cross-reactivity with DNA modified with either 4',5'-dimethylangelicin or 4'-methylangelicin and no cross-reactivity with non-modified DNA or with DNA modified with either 4'-aminomethyl-4,5',8-trimethylpsoralen or 8-methoxypsoralen. To characterize further this antibody, oligonucleotides containing specific TMA photoadducts were isolated from the photoreaction mixture by polyacrylamide gel electrophoresis and used as competitive inhibitors in the ELISA. Autoradiography of the gel showed an intense band corresponding to the 4',5'-monoadduct and two weaker unidentified bands. Antibody 7E3 reacted only with the 4',5'-monoadduct band as would be expected since this photoadduct was the principal photoadduct in the original antigen.     

Isolation and characterization of an anti-recombinant erythropoietin single-chain antibody fragment using a phage display antibody library

The production of a large amount of specific antibodies against erythropoietin (EPO) is necessary for both clinical treatment and doping control. However, the weak immunogenicity of EPO and the side effects of excessive injection make the conventional immunological protocol rather inefficient and time-consuming. In this study, a single-chain antibody fragment of variable region (scFv) against recombinant human erythropoietin (rHuEPO) was produced after three rounds of panning a phage display antibody library. The selected scFv-B₂ was expressed in soluble form in Escherichia coli DH5α F′ and purified by His-bond nickel affinity chromatography with a yield of about 1–2 mg of antibody in 1 L of the culture supernatant. The molecular weight of the scFv was estimated to be 29 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis and the affinity constant was found to be 1.0×10⁸ L mol⁻¹ based on a competitive indirect enzyme-linked immunosorbent assay (CI-ELISA). The potential ability of the scFvs for immunopurification of rHuEPO from related sample was demonstrated by using a double-antibody sandwich ELISA. The reported method is a very powerful tool to produce specific antibodies for rHuEPO detection demands.     

Affinity chromatography in purification of A1 adenosine receptors.

Purification of A1 adenosine receptor of rat brain membranes was performed using a newly developed affinity gel employing xanthine amine congener (XAC) as an immobilized ligand. The A1 adenosine receptor was solubilized with digitonin-cholate from brain membranes and then purified by a sequential use of affinity chromatography on XAC-agarose, hydroxyapatite chromatography and reaffinity chromatography on XAC-agarose. The A1 adenosine receptor was purified ca. 45,000-fold with a yield of 5%. The final receptor preparation gave a single broad band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with a Mr approximately 34,000. This band was also shown to be specifically labelled with an affinity labelling reagent for A1 adenosine receptors. This purification method was also applicable for the complete purification of A1 adenosine receptors from rat testis and human brain membranes.     

Capillary sodium dodecyl sulfate-DALT electrophoresis of proteins in a single human cancer cell.

Capillary Sodium dodlecyl sulfate (SDS)-DALT an (abbreviation for Dalton) electrophoresis was applied to analysis of proteins in single HT29 human colon adenocarcinoma cells. A vacuum pulse was employed to introduce a single cell into the coated capillary. Once the cell was lysed, proteins were denatured with SDS, fluorescantly labeled with 3-(2-furoyl)-quinoline-2-carboxaldehyde (FQ), and then separated by using 8% pullulan as the sieving matrix. This method offers a few advantages for single-cell protein analysis. First, it provides reproducible separation of single-cell proteins according to their size. Based on comparison with the migration time of standard proteins, most components from a single HT29 cancer cell have molecular masses within the range of 10-100 kDa. Second, as a one-dimensional separation method, it gives fairly good resolution for proteins. Typically, around 30 protein components of a single HT29 cell were resolved, indicating that this method has similar peak capacity to SDS-polyacrylamide gel electrophoresis (PAGE). Third, this method shows high detection sensitivity and wide dynamic range, which is important because of the wide range of protein expression in living systems. Detection limits for standard proteins ranged from 10(-10) to 10(-11) M. Finally, this method provides much higher speed than classical gel electrophoresis methods, and it provides automated anlysis of cellular proteins at the single-cell level; the separation is complete in 30 min and the entire analysis takes approximately 45 min.     

Immunoassay of serum alpha(1)-antitrypsin by affinity-probe capillary isoelectric focusing using a fluorescence-labeled recombinant antibody fragment

An immunoassay for human alpha(1)-antitrypsin based on affinity-probe capillary isoelectric focusing (AP-CIEF) is described. The method is based on the separation of free and bound labeled antibody fragments by CIEF with laser-induced fluorescence detection. A recombinant Fab' fragment of mouse immunoglobulin G1 (IgG1) against human alpha(1)-antitrypsin was labeled with tetramethylrhodamine on the single cysteine residue at the hinge region. A single pI isomer of the labeled Fab' was purified by IEF in a slab of agarose gel and was then used as the affinity probe for alpha(1)-antitrypsin. The use of recombinant Fab' considerably simplified the labeling process. Although there was some difficulty in the quantification of native alpha(1)-antitrypsin with the affinity probe, carbamylation of the antigen sample by heat treatment with urea made the complex peaks appear reproducibly and more distinct, thus facilitating the identification and quantification of the complex. The system provided an almost linear response to a pure sample of alpha(1)-antitrypsin over a concentration range of 5-1000 ng/mL and the detection limit extended down to around 2 ng/mL. Alpha(1)-antitrypsin in a serum sample was determined using this system to be 1.2 mg/mL which is comparable to the reported value for the protein.     

Fabrication of antibody arrays using thermally responsive elastin fusion proteins

A general method has been developed to immobilize antibodies onto an array surface by employing fusion proteins consisting of an elastin domain with tunable hydrophobic properties and an antibody-binding domain with high binding affinity and specificity for antibodies. Antibodies conjugated with the elastin fusion proteins can be directly printed on a self-assembled monolayer-modified glass slide in a functionally active orientation with a spatially defined pattern. An antibody array sensor for detection of tumor markers was fabricated to demonstrate the utility of the method. We expect that the method presented here could be a simple and universal platform to immobilize antibodies for the fabrication of a variety of antibody array sensors.     

An immunoradiometric assay for human follicle stimulating hormone using a monoclonal antibody coupled to magnetisable cellulose

A simple immunoradiometric assay for human follicle stimulating hormone (hFSH) was developed using a pair of monoclonal antibodies obtained from commercial sources. The system developed makes use of a capture antibody covalently coupled to magnetisable cellulose, which is a more economical and stable immunosorbent as compared to the other solid phases. The detector antibody is labeled with¹²⁵I using the chloramine-T oxidation method and purified by gel filtration. After initial cross-matching of the capture and detector antibodies, various assay parameters have been optimised. This assay does not show any significant cross reactivity with homologous hormones. A number of serum samples from men and women from reproductive age group was screened and compared with another commercially available kit (r=0.98). Sensitivity of the assay is 1.4 mIU/ml, interassay variation is <5% and intraassay variation around 15%. The assay is reproducible and sensitive enough for regular estimation of serum hFSH and is relatively inexpensive.     

Identification of phage antibodies toward the Werner protein by selection on Western blots

A procedure was established for selecting phage antibodies (phage-abs) from phage-displayed antibody repertoires by panning against proteins, separated by sodium dodecyl phosphate-polyacrylamide gel electrophoresis (SDS-PAGE) and electroblotted onto nitrocellulose membranes (Western blots). This immobilization strategy is applicable for secondary rounds of panning in selections against semipurified proteins, and directs the selection toward antibodies suitable as immunochemical reagents in Western blots. In model experiments, enrichment factors as high as 1.9x10(5) were obtained in a single round of panning. Furthermore, we demonstrate the application of this approach by selection of phage-abs recognizing the human Werner protein, which is defective in a premature aging syndrome.     

Preparation of nitrocellulose (NC) immuno-affinity membrane for purification of rAPC antibody

In this study, recombinant allophycocyanin (rAPC) with a purity of 98% was transferred from a gel to a nitrocellulose (NC) membrane to develop a simple and efficient immuno-affinity membrane. Atomic force microscopy (AFM) was used to investigate the surface topography of the affinity membrane and its characterization indicated that rAPC easily forms trimers or hexamers on the membrane surface on use of the given transfer method. The hydrodynamic radius (R(h)) of the rAPC aggregation was equal to 103 nm or 365 nm according to dynamic light scattering (DLS), which was in agreement with the result obtained by AFM. Based on the specific immunological reaction of antigen and antibody, anti-APC antibodies were purified from rabbit polyclonal serum in a single step. The amount of absorbed antibody was 5.79 mg/g membrane according to analysis by ELISA methods. The purity of antibodies was up to 98% according to SDS-PAGE. The adsorption-desorption cycle of rAPC was repeated six times using the same immuno-affinity membrane, and there was no significant loss in adsorption capacity. The method provides a novel and efficient immunological affinity membrane for the purification of antibodies.     

Screening of scFvs against cTnI from Phage Display Antibody Library and Their Expression in E.coli Rosetta

Introduction CardiactroponinI(cTnI),aspecificproteinof cardiacmusclecells,showsa40%dissimilarity withskeletaltroponinI(sTnI)inaminoacidse- quence.Moreover,humancardiacTnIhas31addi- tionalresiduesonitsN-terminalend,whichare notpresentinskeletalforms,thusprovidingahigh potentialforobtainingcardiac-specificantibod- ies[1,2].Themolecularweightofthisproteinis29 kDaandtherefore,itwillbereleasedreasonably rapidlyafteracutemyocardialinfarction(AMI). CTnIoftenappearsinbloodwithinafewhoursaf- ter…     

Mice immunization with gel electrophoresis-micropurified bacterial lipopolysaccharides

Some evidence on the possible use of sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) to elicit antibodies against smooth- or rough-type bacterial lipopolysaccharides (LPS) is shown. Gel-separated LPS were negatively stained with zinc-imidazole to precisely localize the bands of interest under fully reversible conditions. Then the bands of interest were excised and the resulting gel slices washed in a solution of a zinc-complexing agent (e.g., 100 mM EDTA), after which they were extruded through a metal sieve of 32 microm average size contained in a 1 mL syringe, to generate homogeneous gel microparticles. The LPS-containing gel slurries were used directly to immunize female BALB/c mice. Using this procedure, positive mouse polyclonal antibody responses against gel-purified smooth- or rough-LPS forms from Escherichia coli K-235 or Bordetella pertussis were elicited, as tested by a dot-immunoblotting assay. Our results may encourage the use of SDS-PAGE-micropurified LPS to develop optimized immunization procedures for the generation of specific antibodies against LPS bands of defined sizes, and therefore they constitute an intermediate step toward that aim.     

A catalytic antibody against a tocopherol cyclase inhibitor

The cyclic ammonium cation 5 and its guanidinium analogue 4 are inhibitors of tocopherol cyclase. Monoclonal antibodies were raised against protein conjugates of the haptens 1-3 and screened for catalytic reactions with alkene 8, a short chain analogue of the natural substrate phytyl-hydroquinone 6, and its enol ether analogues 10a,b. Antibody 16E7 raised against hapten 3 was found to catalyze the hydrolysis of Z enol ether 10a to form hemiacetal 12 with an apparent rate acceleration of k(cat)/k(uncat)=1400. Antibody 16E7 also catalyzed the elimination of Kemp's benzisoxazole 59. The absence of cyclization in the reaction of enol ether 10a was attributed to the competition of water molecules for the oxocarbonium cation intermediate within the antibody binding pocket. Hapten and reaction design features contributing to this outcome are discussed. Antibody 16E7 provides the first example of a carboxyl group acting both as an acid in an intrinsically acid-catalyzed process and as a base in an intrinsically base-catalyzed process, as expected from first principles. In contrast to the many examples of general-acid-catalyzed processes known to be catalyzed by catalytic antibodies, the specific-acid-catalyzed cyclization of phytyl-hydroquinone 6 or its analogue 8 still eludes antibody catalysis.     

Immunoaffinity isolation of CEACAM1 on hydrazide-derivatized cellulose with immobilized monoclonal anti-CEA antibody

Carcinoembryonic cell adhesion molecule 1 (CEACAM1) is a human membrane glycoprotein belonging to the carcinoembryonic antigen (CEA) family and to the immunoglobulin superfamily. It is expressed in apical membranes of many epithelial cells in gastrointestinal and urogenital tract and also in granulocytes and lymphocytes, and its biological effect in human tissues has recently been discussed in literature. The purpose of this study was to isolate CEACAM1 glycoprotein from bile and characterize its purity and recovery which has not been described before. Affinity chromatography of CEACAM1 on hydrazide-activated cellulose with immobilized monoclonal anti-CEA F34-187 antibody is described. The immunoglobulin carbohydrate moiety was oxidized by periodate and then bound to hydrazide-activated matrix. Crude protein fraction from bile was applied on the affinity column and after extensive washing of non-bound proteins CEACAM1 was eluted with 6 M guanidine-HCl. A single immunopositive 85 kDa band was detected on Western blots with anti-CEA antibody after SDS-PAGE. We found out that CEACAM1 was not stainable with any common method of protein staining and the only non-specific method which could detect the 85 kDa band was a lectin staining.     

Production of a humanized Fab fragment of a neutralizing antibody against rabies virus

This paper describes the production of a functional humanized Fab fragment of a neutralizing antibody against the rabies virus. It is a prototype of a therapeutic agent that could be an alternative to equine anti-rabies immunoglobulins and anti-rabies serum immunoglobulins obtained from the blood of vaccinated human donors. Variable fragments of the high-affinity light and heavy chains neutralizing an antibody against the rabies virus were cloned and sequenced. Mouse constant regions were replaced by human constant regions followed by expression of the humanized Fab fragments in a yeast expression system. The immunochemical properties of the Fab fragments were evaluated using ELISA, polyacrylamide gel electrophoresis, and the Western blot assay. The binding capability of the produced humanized Fab fragments surpasses that of the parental antibody. A high degree of humanization was confirmed using sera against human immunoglobulins. The yield of the humanized Fab fragments was 21 mg per liter of culture medium. The purified Fab fragment preparation did not contain traces of the isolated light and heavy chains of the humanized Fab fragments.     

Catching protein antigens by antibody affinity electrophoresis

A new kind of affinity electrophoresis called antibody affinity electrophoresis is a technique used to capture protein antigens based on their interactions with specific monoclonal or polyclonal antibodies incorporated in the polyacrylamide gel. Polyclonal anti-glutathione-S-transferase (anti-GST), monoclonal anti-bovine serum albumin (anti-BSA), and polyclonal anti-human alpha-lactalbumin are embedded in distinct areas of a 7.5% native polyacrylamide gel. Some of the embedded antibodies get covalently and/or noncovalently incorporated into the gel matrix network. Under electrophoresis conditions, these antibodies do not show significant electrophoretic mobility, as compared to their specific protein antigen analytes. We observed that electrophoretic migration of GST, BSA, and protein G ceases when they encounter anti-GST, anti-BSA, and immunoglobulin G, respectively.     

Cross-reactivity of antibodies to actin- depolymerizing factor/cofilin family proteins and identification of the major epitope recognized by a mammalian actin-depolymerizing factor/cofilin antibody

Members of the actin-depolymerizing factor (ADF)/cofilin family of proteins are expressed in all eukaryotic cells. In higher vertebrates, cells often express as many as three different ADF/cofilin genes and each of these proteins may be phosphorylated on serine 3, giving rise to up to six different species. Also, many avian, amphibian, and invertebrate systems have been useful in studying different aspects of ADF/cofilin function. Antibodies have been prepared against different members of the ADF/cofilin family, but no systematic examination of their cross-reactivity has been reported. Although ADF and cofilins within a single vertebrate species have about a 70% sequence homology, antibodies often differentiate between these proteins. Here, Western blotting was used with chemiluminescence substrates of different sensitivities to determine the relative immunoreactivities of different polyclonal rabbit antibodies and a mouse monoclonal antibody to purified ADF/cofilins from plants, protists, nematodes, insects, echinoderms, birds, and mammals. From immunocross-reactivities and sequence alignments, the principal epitope in mammalian ADF and cofilin-1 recognized by an antibody raised against avian ADF was identified. The specificity of an antibody to the phosphopeptide epitope of metazoan ADF/cofilins was confirmed by two-dimensional (2-D) immunoblot analysis. Futhermore, this bank of antibodies was used to identify by Western blotting a putative member of the ADF/cofilin family in the sea slug, Aplysia californica.     

Hapten immobilization for antibody sensing using a dynamic modification protocol

Optical fiber (OF) sensors are often limited by the immobilization technique used to associate a specific sensing ligand with the OF surface. This is particularly true when the ligand is biologically active as, for example, in the case of immobilized haptens or antibodies. The dynamic modification protocol is a regenerable and experimentally simple way to immobilize a variety of sensing molecules on an OF surface. Furthermore, the protocol is immune to hydrolysis and not limited by diffusion through a membrane or sol–gel. In this publication the approach is extended by immobilizing the hydrophobic hapten (octadecyl 6-(2,4 dinitrophenyl)aminohexanoic acid) as a means to prepare an OF sensor for antibodies specific for 2,4 dinitrophenyl (DNP). The LOD for anti-DNP is 0.5 nanomolar and the K_apparent is 1.0±0.2×10⁶. Nonspecific antibody adsorption is problematic in this sensing approach and was found to limit the quantitative capabilities of the sensor. However, time discrimination can be used to allow the nonspecific antibody to desorb prior to measurement thus minimizing the influence of nonspecific binding on sensor performance.     

Epitope affinity chromatography and biophysical studies of monoclonal antibodies and recombinant antibody fragments

Peptide epitope affinity chromatography is a powerful technique for the purification of antibodies. This study aims to demonstrate the versatility of the technique and to show how biophysical techniques such as circular dichroism (CD) and fluorescence quenching (FQ) can aid the rational design of affinity ligands and characterization of antibody-based reagents. The performance of a number of peptide ligands for the purification of a range of different antibodies and recombinant fragments is investigated by automated fast-protein liquid chromatography. Purified products are analyzed for purity by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. They are then radiolabelled and the immunoreactivity is determined. Ligands are analyzed for secondary structural characteristics by CD and for binding affinity by FQ. Finally, a study is performed to investigate the thermal stability of a recombinant antibody fragment by CD analysis. It is found that simple ligand modifications such as the introduction of a C-terminal cysteine residue can improve purification performance. The FQ studies show that the modified peptide has a higher affinity for antibody. The CD analysis shows that it has a tendency to dimerize because of the formation of disulfide bonds. The versatility of epitope affinity is demonstrated through the purification of a recombinant diabody (dbFv) and by the use of a separate peptide matrix for the purification of an unrelated antibody. All studies result in antibody preparations of high purity and immunoreactivity. The CD analysis of the dbFv shows that it is denatured at 37 degrees C and is therefore unsuitable as a targeting reagent for use in humans in its present form. It is concluded that epitope affinity chromatography coupled with biophysical analyses plays an important role in the production and characterization of antibody-based reagents for targeted diagnosis and therapy of human diseases.     

Computational maturation of a single-domain antibody against Aβ42 aggregation

The expansion of structural databases and the increase in computing power are enabling approaches for antibody discovery based on computational design. It has already been shown that it is possible to use this approach to generate antibodies for specific epitopes on challenging targets. Here we describe an application of this procedure for antibody maturation through the computational design of mutational variants of increased potency. We illustrate this procedure in the case of a single-domain antibody targeting an epitope in the N-terminal region of Aβ42, a peptide whose aggregation is closely associated with Alzheimer''s disease. We show that this approach enables the generation of an antibody variant with over 200-fold increased potency against the primary nucleation process in Aβ42 aggregation. Our results thus demonstrate that potentiated antibody variants can be obtained by computational maturation.

A computational maturation method enables the generation of an antibody variant with over 200-fold increased potency against the primary nucleation process in Aβ42 aggregation.     

Construction of an antibody microarray based on agarose-coated slides

The antibody microarray, a high-throughput multiplex immunoassay method, has become a significant tool for quantitative proteomics studies. We describe here the strategies for optimizing the condition of antibody microarray building based on agarose-coated slides. In this study, modified glass slides were robotically printed with capture antibodies against monocyte chemoattractant protein 1 (MCP-1), then dilutions of the cytokine were applied to the arrays, and the protein was detected with biotin-labeled antibody coupled with Cy3-conjugated streptavidin. Thus a protein profiling microarray based on sandwich immunoassay has been established. Various factors in the production of antibody microarrays were analyzed: the capture antibody concentrations, shelf life of the postprinting slides, blocking buffers, and reproducibility of the system. A calibration curve with a correlation coefficient of 0.9995 was established which suggested that the matrix can retain arrayed proteins in near-quantitative fashion. The results revealed high signal uniformity and reproducibility with regard to intra-array (1.3%) and the interarray (8.7%) variation at the capture antibody concentration of 125 microg/mL. Besides, the printed arrays could be stored for at least two months without any apparent change of the performance parameters.