Automated flow immunoassay for detection of food allergen using anion-exchange resin and alkaline phosphatase conjugated immunoglobulin G

A novel automated flow immunoassay system is developed for the detection of wheat protein as a food allergen. A polyclonal immunoglobulin G (IgG) antibody was isolated from serum of a rat with a wheat allergy, then reductively treated using dithiothreitol and covalently coupled to alkaline phosphatase. This conjugate was used in a non-competitive binding assay. The automated system was equipped with an immunoreaction column, an anion-exchange column, a luminescent reaction column and a photodetector. Antibody–antigen complexes were separated from their free conjugate on the basis of a difference in isoelectric point (pI) by an anion-exchange column. This simple technique permits the assay of wheat-protein allergen in 25 min with a reliable detection limit of 5 μg/ml. The anion-exchange column was regenerated by occasional elution with N-methylpiperazine buffer (pH 5.0) containing 0.5 M NaCl, to remove free conjugate. Free conjugate recovered in this manner could be reused up to four times without significant decrease in sensitivity of the immunoassay.     

Lectin affinity electrophoresis of alkaline phosphatase for the differentiation of bone and hepatobiliary disease

An affinity electrophoresis procedure is described for the separation and quantification of the bone- and liver-derived fractions of alkaline phosphatase in plasma. Separation is carried out on cellulose acetate membrane pre-soaked with buffer containing wheat germ lectin. The electrophoretic mobility of the bone enzyme is preferentially retarded by the lectin and this fraction is well separated from the liver fraction. After separation, enzyme activity is demonstrated by staining using an indigogenic alkaline phosphatase substrate incorporated in agar gel, and the stained fractions quantified by densitometry. The procedure has low imprecision, good linearity, and the activities of the bone and liver fractions correlate well with values obtained using nonelectrophoretic quantification methods. The procedure is especially suitable for use in the diagnostic laboratory.     

Development of a novel method for screening of estrogenic compounds using nano-sized bacterial magnetic particles displaying estrogen receptor

In this study, nano-sized bacterial magnetic particles (BMPs) displaying human estrogen receptor ligand binding domain (ERLBD) on the surface was successfully produced by the magnetic bacterium, Magnetospirillum magneticum AMB-1. Furthermore, a non-isotopic binding assay for estrogenic compounds using the BMPs displaying ERLBD was developed. A BMP membrane-specific protein, Mms16, was used as an anchor molecule to localize ERLBD on the surface of BMPs. ERLBD-BMP complexes were simply extracted by magnetic separation from ruptured AMB-1 transformants and used for the assay based on the competitive binding of alkaline phosphatase conjugated 17β-estradiol (ALP-E2) as a tracer. Dissociation constant of the receptor was 2.3 nM. Inhibition curves were evaluated by the decrease in luminescence intensity resulting from the enzymatic reaction of alkaline phosphatase. The overall simplicity of this receptor binding assay results in a method that can be easily adapted to a high throughput format. Moreover, this method can be integrated into a fully-automated ligand screening system using magnetic separation.     

Sequential injection-ELISA based system for online determination of hyaluronan

Sequential injection-bead-based immunoassay system has been developed. The main purpose is to make immunoassay process more automated by manipulating the precise delivery of micro-volumes of reagents and the precise timing of incubation and washing steps with a computer program that controls the bi-directional syringe pump. The manifold was designed with the aims of reducing back pressure from beads that act as solid surfaces for immobilization of the target substance, reducing dispersion and dilution of the reagent during incubation, and maximizing signal while minimizing incubation time. This was done by introducing air segment to separate the reagent zone from the carrier stream and by using a suitable sensitive detector which, in this case, was an amperometer. In this study, hyaluronan (HA) was used as a target analyte because of its clinical significance as a potential biomarker for liver, bone and cancer diseases. Amount of hyaluronan was determined using competitive enzyme linked immuno sorbent assay (ELISA) based technique where immobilized HA and HA in solution compete to bind with a fixed amount of biotinylated HA-binding proteins (b-HABPs). Upon separation of the two phases, anti-biotin conjugated with enzyme and a suitable substrate were introduced to follow the binding reaction of the immobilized HA and b-HABPs whose degree of binding is indirectly proportional to the amount of HA in solution. A calibration curve was constructed from a series of concentrations of HA standards. Lowest detectable concentration was found to be 1 ng/mL with the dynamic working range of 1-5000 ng/mL and R.S.D. of intra-assay (n = 7) and inter-assay (n = 3) of various HA concentrations were 4-10% and 9-12%, respectively. Used beads could be reused by washing with 2 M guanidine. Total analysis time for this automatic assay was about 30 min as compared to the 5-8 h used in conventional batch well ELISA. The system could be applied to assay HA in human serum.     

高效液相色谱法测定全血中骨碱性磷酸酶的活力

 建立了测定全血中骨碱性磷酸酶(BALP)的高效液相色谱法(HPLC)。色谱柱为SpectraPhysicsODS反相柱,以V(0.01mol/L乙酸,pH4.8)∶V(甲醇)=70∶30的溶液为流动相,流速为0.8mL/min,检测波长为275nm。当BALP的质量浓度为8～200mg/L时,其活性对峰面积呈良好的线性关系(r=0.996),检测限为3ng。该方法简便、快速、可靠,可用于临床测定全血中的BALP。     

Macroporous chitin affinity membranes for wheat germ agglutinin purification from wheat germ

Macroporous chitin membranes of controlled porosity and pore sizes have been prepared. They have good mechanical properties and allow high flow rates of protein solutions at low pressure drops. Because of the numerous N-acetyl-D-glucosamine (GlcNAc) moieties they contain, the chitin membranes can be used for the separation of some valuable proteins both as affinity ligands and support matrix, without further modification. Due to their high porosity and high adsorption surface area, the chitin membranes provide a larger number of accessible binding sites for the wheat germ agglutinin than the chitin beads do. The adsorption capacity for wheat germ agglutinin (180 mg/g chitin membrane) is about 20 times larger than that of chitin beads. Because of the numerous binding sites, multiple-point bindings are involved in the protein adsorption. For this reason, a strong eluant, namely a 1 M acetic acid aqueous solution, had to be used to efficiently recover the wheat germ agglutinin from the membrane. The wheat germ agglutinin was extracted from wheat germ with 0.05 M HCl, precipitated with ammonium sulfate, dialyzed against 0.01 M Tris–HCl buffer (pH 8.5), and purified on the chitin membrane. A high purity (>99%) wheat germ agglutinin with high yield (∼50 mg/100 g wheat germ) was obtained.     

The combined use of high performance liquid chromatography and immuno-biochemical techniques for protein isolation: a new approach for identification of an individual protein from a pool of proteins

HPLC was used in combination with immuno-bead separation technique for identification of an individual protein from a pool of proteins. This was carried out using an in-house monoclonal antibody (ATC2) specific for placental alkaline phosphatase (PLAP) as a primary antibody for conjugation to CNBr beads. The phosphatase activity (ALP) of PLAP was measured by colorimetric assay (MEDC). The data from this study has so far indicated that: 1. HPLC analysis of molecules following isolation with ATC2-conjugated beads showed high degree of purity. This could be achieved using protein mixtures prepared from lysates of tumour cell lines or tumour fragments. 2. HPLC-isolated PLAP maintained phosphatase activity. 3. Out of the four dissociation reagents used, diethyl amine (DEA) was found to be the best reagent for dissociation of antigen, ie PLAP, but not mAb from CNBr beads. 4. The profile of ALP activity was different for samples prepared from testis and kidney fragments, both in terms of the HPLC peak profile as well as the sensitivity. These data confirmed that the immuno-bead separation technique in conjunction with HPLC were powerful tools for identifying an individual protein from a pool of proteins. These approaches are being used for the identification of PLAP molecules, as a tumour marker in patients suspected of testicular malignancies with equivocal ultrasound.     

Exploiting flow injection system with mini-immunoaffinity chromatographic column for chondroitin sulfate proteoglycans assay

A flow injection (FI) system with a mini-immunoaffinity chromatographic column was used to perform on-line assays of specific proteoglycans. The 300-μL mini-column contained beads coupled with monoclonal antibodies against the specific sulfation pattern of chondroitin sulfate proteoglycans, which have been reported to be a potential biomarker for cancer. The amount of these proteoglycans present was estimated indirectly from their protein content using the Bradford assay, which is an alternative to a direct carbohydrate assay. The system developed was tested by assaying for chondroitin sulfate proteoglycans in sera from patients with various cancers and comparing the results to those obtained for sera from healthy people. The results indicated that this approach could be used as a cost-effective alternative system for determining the amount of these specific biomarker proteoglycans. The column could be reused at least 90 times, with each run consisting of 200 μL of serum sample diluted twofold; an analysis rate of 30 min per run was achieved, as compared to 4 h for a batch procedure.     

Microfluidic tectonics platform: A colorimetric, disposable botulinum toxin enzyme-linked immunosorbent assay system

A fabrication platform for realizing integrated microfluidic devices is discussed. The platform allows for creating specific microsystems for multistep assays in an ad hoc manner as the components that perform the assay steps can be created at any location inside the device via in situ fabrication. The platform was utilized to create a prototype microsystem for detecting botulinum neurotoxin directly from whole blood. Process steps such as sample preparation by filtration, mixing and incubation with reagents was carried out on the device. Various microfluidic components such as channel network, valves and porous filter were fabricated from prepolymer mixture consisting of monomer, cross-linker and a photoinitiator. For detection of the toxoid, biotinylated antibodies were immobilized on streptavidin-functionalized agarose gel beads. The gel beads were introduced into the device and were used as readouts. Enzymatic reaction between alkaline phosphatase (on secondary antibody) and substrate produced an insoluble, colored precipitate that coated the beads thus making the readout visible to the naked eye. Clinically relevant amounts of the toxin can be detected from whole blood using the portable enzyme-linked immunosorbent assay (ELISA) system. Multiple layers can be realized for effective space utilization and creating a three-dimensional (3-D) chaotic mixer. In addition, external materials such as membranes can be incorporated into the device as components. Individual components that were necessary to perform these steps were characterized, and their mutual compatibility is also discussed.     

Purification of α-amylases using magnetic alginate beads

Magnetic alginate beads were used to purify alpha-amylases from porcine pancreas, starchzyme, BAN 240L (a commercial purification from Bacillus subtilis), and wheat germ. The beads bound a significant level of alpha-amylase activity from porcine pancreas, BAN 240L, and wheat germ. In each case, the enzyme activity could be eluted by using 1.0 M maltose, a known competitive inhibitor of alpha-amylase. In the case of BAN 240L, 3.6-fold purification with 72% recovery of activity was observed. In the case of wheat germ enzyme, starting from the crude extract, 48-fold purification with 70% activity recovery was observed. Sodium dodecyl sulfate polyacrylamide gel electrophoresis analysis also indicated considerable purification in the latter case.     

Automated sample preparation method for suspension arrays using renewable surface separations with multiplexed flow cytometry fluorescence detection

In this paper, we describe a new method of automated sample preparation for multiplexed biological analysis systems that use flow cytometry fluorescence detection. In this approach, color-encoded microspheres derivatized to capture particular biomolecules are temporarily trapped in a renewable surface separation column to enable perfusion with sample and reagents prior to delivery to the detector. This method provides for separation of the biomolecules of interest from other sample matrix components as well as from labeling solutions. After sample preparation, the beads can be released from the renewable surface column and delivered to a flow cytometer for direct on-bead analysis one bead at a time. Using mixtures of color-encoded beads derivatized for various analytes yields suspension arrays for multiplexed analysis. Development of this approach required a new technique for automated capture and release of the color-encoded microspheres within a fluidic system. We developed a method for forming a renewable filter and demonstrate its use for capturing microspheres that are too small to be easily captured in previous flow cells for renewable separation columns. The renewable filter is created by first trapping larger beads in the flow cell, and then smaller beads are captured either within or on top of the bed of larger beads. Both the selective microspheres and filter bed are automatically emplaced and discarded for each sample. A renewable filter created with 19.9 μm beads was used to trap 5.6 μm optically encoded beads with trapping efficiencies of 99%. The larger beads forming the renewable filter did not interfere with the detection of color-encoded 5.6 μm beads by the flow cytometer fluorescence detector. The use of this method was demonstrated with model reactions for a variety of bioanalytical assay types including a one-step capture of a biotinylated label on Lumavidin beads, a two-step sandwich immunoassay, and a one-step DNA binding assay. A preliminary demonstration of multiplexed detection of two analytes using color-encoded beads was also demonstrated. The renewable filter for creating separation columns containing optically encoded beads provides a general platform for coupling renewable surface methods for sample preparation and analyte labeling with flow cytometry detectors for suspension array multiplexed analyses.     

Nanoporous gold as a solid support for protein immobilization and development of an electrochemical immunoassay for prostate specific antigen and carcinoembryonic antigen

Nanoporous gold (NPG) was utilized as a support for immobilizing alkaline phosphatase (ALP) conjugated to monoclonal antibodies against either prostate specific antigen (PSA) or carcinoembryonic antigen (CEA). The antibody-ALP conjugates were coupled to self-assembled monolayers of lipoic acid and used in direct kinetic assays. Using the enzyme substrate p-aminophenylphosphate, the product p-aminophenol was detected by its oxidation near 0.1?V (vs. Ag|AgCl) using square wave voltammetry. The difference in peak current arising from oxidation of p-aminophenol before and after incubation with biomarker increased with biomarker concentration. The response to these two biomarkers was linear up to 10?ng mL^?1 for CEA and up to 30?ng mL^?1 for PSA. The effect of interference on the PSA assay was studied using bovine serum albumin (BSA) as a model albumin protein. The effect of interference from a serum matrix was examined for the PSA assay using newborn calf serum. A competitive version of the immunoassay using antigen immobilized onto the NPG surface was highly sensitive at lower antigen concentration. Estimates of the surface coverage of the antibody-ALP conjugates on the NPG surface are presented.

Voltammetric evaluation of the binding between wheat germ agglutinin and thionine/glucose-modified magnetic microbeads.

The binding between glucose residues and wheat germ agglutinin (WGA) on thionine/glucose-modified magnetic microbeads was evaluated using voltammetry. Thionine is an electroactive compound and has two amino groups. Thionine was immobilized to magnetic beads via cross-linking of the amino groups on the beads with an amino group on thionine. Glucose was bound to the other amino group of thionine via the formation of a Schiff base. The beads were only several micrometers in size the same size, as cells. WGA-binding to glucose on the bead surface blankets the thionine moiety. Thus, WGA-binding could be detected as a decrease in peak current of the thionine moiety.     

New tetrazolium method for phosphatase assay using ascorbic acid 2-phosphate as a substrate

A new method to assay alkaline and acid phosphatases assay using ascorbic acid 2-phosphate (AsA-P) and ditetrazolium salt nitroblue tetrazolium chloride (NBT) was developed. AsA-P is hydrolyzed in the presence of phosphatase to yield ascorbic acid. In turn, the ascorbic acid reduces NBT directly or indirectly, opening the tetrazole ring to produce an insoluble formazan as a colored precipitate. The proposed method for alkaline phosphatase was compared with a conventional method in which 5-bromo-4-chloro-3-indolyl phosphate (BCIP) is used in combination with NBT in the dot blots of a dilution series of β-lactoglobulin. AsA-P reduced NBT more effectively than BCIP in the presence of alkaline phosphatase. AsA-P could be also used as the chromogenic substrate for an acid phosphatase assay in the presence of phenazinium methylsulfate and NBT.     

Voltammetric evaluation for the binding of wheat germ agglutinin to glucosamine-modified magnetic microbead

Binding of wheat germ agglutinin (WGA) on glucosamine-modified magnetic microbeads was investigated with voltammetry. A magnetic bead was considered as a cell, and the beads with amino groups were modified with the sugar by using a cross-linking reagent. To evaluate the binding, glucose labeled with an electroactive daunomycin was prepared as a probe. After WGA and the beads were mixed in 0.1 M phosphate buffer (pH 7.0), the labeled glucose was added to the solution. The binding was monitored from the changes in the electrode response of labeled glucose because the labeled glucose was held to the binding site of WGA for the sugar. In contrast, other lectin not having the binding site to glucosamine or glucose was incubated with the glucosamine-modified beads. As a result, the change of peak current was not observed. Therefore, it is clear that the binding of WGA to glucosamine moiety on the bead surface selectively takes place. This method would be powerful for evaluation of interaction between protein and sugar chain existing at cell surface.     

Influence of immobilized biomolecules on magnetic bead plug formation and retention in capillary electrophoresis

Significant changes in the formation and retention of magnetic bead plugs in a capillary during electrophoresis were studied, and it was demonstrated that these effects were due to the type of biological molecule immobilized on the surface of these beads. Three biological molecules, an antibody, an oligonucleotide, and alkaline phosphatase (AP), were attached to otherwise identical streptavidin-coated magnetic beads through biotin-avidin binding in order to isolate differences in bead immobilization in a magnetic field resulting from the type of biological molecule immobilized on the bead surface. AP was also attached to the magnetic beads using epoxy groups on the bead surfaces (instead of avidin-biotin binding) to study the impact of immobilization chemistry. The formation and retention of magnetic bead plugs were studied quantitatively using light scattering detection of magnetic particles eluting from the bead plugs and qualitatively using microscopy. Both the types of biomolecule immobilized on the magnetic bead surface and the chemistry used to link the biomolecule to the magnetic bead impacted the formation and retention of the bead plugs.     

An Optimized Bioassay for Mucin1 Detection in Serum Samples

Two simple and sensitive electrochemical approaches for Mucin1 (MUC1) tumor marker using magnetic beads coupling screen‐printed arrays were developed. The single‐use bioassays are based on a sandwich format in which aptamers or antibodies were coupled respectively to Streptavidin or Protein G‐modified magnetic beads. The bioreceptor‐modified beads are used to capture the MUC1 protein from the sample and sandwich assay is performed by the addition of a labeled secondary aptamer or antibody. The enzyme alkaline phosphatase and its substrate (1‐naphthyl phosphate) are then used for the electrochemical detection by differential pulse voltammetry (DPV). The analytical performances of the designed bioassays were compared in terms of sensitivity, selectivity and reproducibility. Using the optimized conditions, a linear range from 0 to 0.28 nM was obtained, with 0.19 nM LOD using antibody‐based and 0.07 nM LOD using aptamer‐based sandwich assay in MUC1 buffered solutions. The results also showed that the aptamer‐based approach exhibited higher selectivity for MUC1, allowing the detection of the protein in complex matrices. The developed aptasensor for MUC1 detection was applied on serum samples obtained from cancer patients, providing promising perspectives for clinical applications.     

Spectrophotometric enzyme-amplified immunoassay for thyroid stimulating hormone.

Thyroid stimulating hormone (TSH) regulates the function of the thyroid gland. Its determination at low concentrations in serum is useful in the diagnosis of hyperthyroidism. In this paper, it is detected using a spectrophotometric enzyme-amplified immunoassay. The reporter enzyme is alkaline phosphatase and its substrate is flavin adenine dinucleotide phosphate (FADP). Reaction with alkaline phosphatase converts FADP into flavin adenine dinucleotide (FAD), which, unlike FADP, re-activates apo-D-amino acid oxidase (apo-AOD). Re-activation of apo-AOD allows the product of the reporter enzyme to be amplified. The lower limit of detection for TSH by this method is 0.06 microU cm-3. This compares with 0.54 microU cm-3 for an identical assay in which p-nitrophenyl phosphate was the substrate for alkaline phosphatase. Contaminating alkaline phosphatase was removed from the reagents by affinity chromatography.     

High-performance liquid chromatographic assay for acid and alkaline phosphatase in serum.

High-performance liquid chromatography was used to assay serum acid and alkaline phosphatase. Samples were incubated with adenosine-5'-monophosphoric acid (AMP) in a buffer of required pH, 5'-nucleotidase was inhibited with Ni2+ ions, and the phosphatase activity was determined by measuring the concentration of the reaction product, adenosine. The analysis time, after the incubation is terminated, is short (7 min), and the assay is quantitative and reproducible. Complete separation of the reaction product from the substrate and the naturally occurring serum constituents and the high sensitivity of the ultraviolet detection system eliminate some of the problems commonly encountered in spectrophotometric assays.     

Quantitation of phospholipase A2 and phospholipase C activity using alkaline phosphatase impregnated liposomes

Phospholipase A₂ and C activity was quantitated using liposomes impregnated with alkaline phosphatase. Release of alkaline phosphatase was dependent on phospholipase related hydrolysis of intact vesicles. Released alkaline phosphatase was quantitated after addition of its chromogenic substrate p-nitrophenyl phosphate. The lower limit of detectability for phospholipase A₂ and C activity was 0.5 unit/ml. These limits were 10-fold lower than a titrimetric method. Liposome destruction as measured by alkaline phosphatase release was calcium dependent and inhibited by 1 mM EDTA and 1 mM ZnSO₄. The assay was technically simple, generated same day results, and used automated enzyme-linked immunosorbent assay instrumentation.