Highly specific, sensitive and rapid enzyme immunoassays for the measurement of acetaminophen in serum.

Acetaminophen antibodies were purified using affinity chromatography and labelled with horseradish peroxidase (HRP). The antibody-HRP conjugate and a new acetaminophen derivative were used in the construction of two immunoassay methods facilitating the direct quantitative measurement of acetaminophen in serum: a 96-well microtitre plate and coated-tube ELISAs. A minimum detection limit of 0.2 µg mL(-1) and a dynamic range of 0.2 to 1 µg mL(-1) in serum were achieved using the 96-well microtitre plate ELISA. The tube assay was optimised for the measurement of the clinically critical acetaminophen concentration of 50 to 250 µg mL(-1) of serum. The quantitative and specific tests could be completed within less than an hour. Common drugs including aspirin showed less than 0.1% cross-reactivity.

Detection of proteases using an immunochemical method with haptenylated-gelatin as a solid-phase substrate.

A simplified method for the measurement of proteases utilising solid-phase substrates incorporating an ELISA end-point detection step is described. Gelatin-hapten conjugates adsorbed onto polystyrene surfaces were found to be efficient substrates for proteases. Digestion of the solid-phase protein-hapten complexes resulted in proportional desorption of the attached conjugates and decrease in the detectable hapten species. Gelatin-cholic acid conjugates, affinity-purified sheep anti-cholic acid antibody-HRP and a chromogenic substrate were incorporated into a convenient and highly sensitive solid-phase immunochemical method. The detectable signal is inversely proportional to enzyme activity. Bacterial proteases (alpha-chymotrypsin Type II, Type IX from Bacillus polymyxa, Type XIV from Streptomyces griseus, Type XXIV from Bacillus licheniformens) were assayed. Dose-response curves for enzyme activities were measured within ranges of 0-550 microunits mL(-1) for chymotrypsin, 0-12 microunits mL(-1) for type IX, 0-35 microunits mL(-1) for type XIV and 0-100 microunits mL(-1) for type XXIV. The detection limits of the proteases studied were 89 microunits mL(-1) for chymotrypsin, 0.26 microunits mL(-1) for type IX, 5.8 microunits mL(-1) for type XIV and 6.5 microunits mL(-1) for type XXIV. It was demonstrated that the two-step immunochemical method combines the simplicity and sensitivity of solid-phase enzyme immunoassays, the broad specificity of gelatin as a protease substrate and the flexibility of the solid-phase format.

Characterization of bacterial proteases with a panel of fluorescent peptide substrates.

Bacteria produce a range of proteolytic enzymes. In an attempt to detect and identify bacteria on the basis of their protease activity, a panel of protease substrates was investigated. Peptides conjugated to the fluorophore 7-amino-4-methylcoumarin (AMC) are well-established substrates for measuring protease activity. Although peptide-AMC substrates are generally not specific for a single protease, a unique pattern can be achieved for both highly specific enzymes and those with a broader substrate range by comparing different peptide substrates. The panel of 7 peptide-AMC substrates chosen exhibited a unique pattern for nine microbial proteases. The selected peptides were used to determine protease activity in cultured strains of Pseudomonas aeruginosa and Staphylococcus aureus. A signal pattern obtained with peptides with arginine, lysine, and tyrosine in the P1 position characterized the bacterial protease activities in these samples. The kinetic parameters for the three best substrates for the P. aeruginosa sample were calculated. Further information about substrate specificity was gained by the selective use of protease inhibitors. The results presented show that peptide-AMC substrates provide a simple and sensitive tool to characterize protease activity in microbiological samples and that they have the potential to identify and distinguish different bacterial species.

ELISA and HPLC methods for atrazine and simazine determination in trophic chains samples.

The aim of the research was to determine optimal conditions for atrazine determination in trophic chain samples by means of an antigen-coated tube enzyme-linked immunosorbent assay (ELISA). The ELISA method was used for analysis of a selection of samples and the results and method requirement compared with HPLC. The 2 h competitive ELISA showed a minimum detection limit of 0.05 ng mL(-1) and a dynamic range 0.1-2 ng mL(-1). Investigation of atrazine concentration in a selection of trophic chain samples indicated that the content of atrazine (microg kg(-1)) in soil samples was 3.2-85.4, vegetable roots 32.9-148.9, green parts of plants 67.7-136.4, cereals 42.4-91.5 and samples of animal origin 1.3-8.4. The correlation between results obtained by HPLC and ELISA methods was 0.97. In addition, simazine content was determined by the HPLC method in which the detection limits were 0.2 microg g(-1) for atrazine and 0.3 microg g(-1) for simazine. The content (microg kg(-1)) of simazine in soil samples was 13.5-15.5, in vegetables roots 29.5-93.7, in green parts of plants 34.6-72.6 and in cereals 158-189. The study demonstrates the utility and convenience of the simple, practical and cost-effective ELISA method in a non-immunoassay laboratory for the analysis of food and environmental samples. The method is ideal for the rapid screening of large numbers of samples in laboratories where access to HPLC facilities is limited or lacking. In addition the investigation demonstrates the presence of significant levels of atrazine and simazine in trophic chain samples collected from different areas of the region. As expected, the highest concentration of both herbicides was found in plants.

Fluorescence polarization immunoassay of colchicine.

In this study, a fluorescence polarization immunoassay (FPIA) technique was developed to determine colchicine (COL), an alkaloid of noxious plants of the order Liliales that is used in a number of medications to treat gout. An optimal combination of the polyclonal antibody and the antigen labelled with fluorescein isothiocyanate (FITC) was selected. Conditions for the competitive interaction of the antigen in the tested samples and its fluorophore conjugate (COL-FITC) with anti-COL antibodies were optimised, and the analytical characteristics of the assay were determined. The developed FPIA was characterised by a detection limit of 1.8 ng/mL and a detectable analyte concentration range of 4.1-74.3 ng/mL. The duration of the analysis was 10 min. The applicability of the developed FPIA for quality control of ready-made drug formulations and for the estimation of COL content in various matrices (urine, milk), with recovery values ranging from 79 to 108%, was demonstrated.

Efficient labelling of antibodies with horseradish peroxidase using cyanuric chloride.

An efficient and mild method for labelling of immunoglobulin G (IgG) with horseradish peroxidase (HRP) using cyanuric chloride (2,4,6-trichloro-1,3,5-triazine, CC) as a bridging molecule is described. The enzyme was treated first with cyanuric chloride to introduce dichloro triazine and after removal of excess reagent, the activated enzyme was mixed with the IgG preparation and incubated to effect linkages with amine groups in the antibody protein. Various amounts of coupling reagent were tested to optimise the conjugation method using commercially available enzyme and affinity-purified sheep IgG antibody preparations to three different test haptens. The conjugates were assessed by solid phase Enzyme Linked Immunosorbent Assays (ELISA) and commonly used peroxidase substrate preparations. The binding activity of the conjugates rose with increasing coupling reagent added during the enzyme activation step. Use of the conjugates prepared by the new method gave comparable sensitivity in direct competitive ELISAs for the three test haptens to assays carried out using indirect ELISA with commercial anti-sheep-HRP conjugates. No deterioration of enzyme activity or hapten-binding activity in the conjugates was observed after storage in 50% glycerol at -70 degrees C for up to 18 months. This study presents a relatively simple and efficient conjugating method for labelling antibodies with HRP and provides an additional and probably a better alternative to the periodate, glutaraldehyde and succinimide-maleimide procedures.

A highly efficient preparative-scale generic immunoaffinity chromatography method for the purification of antibodies to hydrophobic haptens: purification procedure and monitoring tests.

A generic affinity chromatography purification protocol for the isolation of preparative quantities of pure and stable polyclonal antibodies to hydrophobic haptenic analytes is described together with a panel of tests to monitor the purification process and assess the functional and structural purity of isolated antibodies. The purification method is based on the use of a mixture of acetonitrile and propionic acid to elute bound antibodies from Sepharose 4B-based immunoabsorbent gels. Highly specific and pure antibodies to steroid estrogens, pentachlorophenol and Irgarol 1051 were isolated in 50-150 mg quantities per preparation in a batch-wise method using appropriate ligands linked to the solid phase via a hydrophilic chemical arm, tetraethylene pentamine. The panel of ELISA tests together with SDS-PAGE enabled the monitoring of the absorption and elution steps and provided data relevant to the assessment of the degree of structural and functional purity of the isolated antibody preparations. The study demonstrates that the affinity purification procedure is practical, simple, generic for antibodies to hydrophobic haptens and suitable for scaling up. In addition, the study showed that the functional properties of the affinity-purified antibodies indicated improvements on the operational properties (specificity and assay detection limits) of the source antisera. The isolated IgG antibodies showed near 100% functional and structural purity and no deterioration of activity on storage for long periods. The method provides critical reagents for labelled-antibody immunoassays and immunosensors and antibody-dependent sample purification techniques.

Removal of detergents from protein extracts using activated charcoal prior to immunological analysis.

The use of dextran-coated activated charcoal (DCC) powder to absorb solubilising detergents from cell lysates is described. Normal embryonic epithelial cells were lysed in the presence of sodium dodecyl sulphate (SDS). The detergent was then absorbed with DCC to facilitate analysis of polycystin-1 with antibody-based methods. Polycystin-1 is a membrane protein that is involved in the pathogenesis of autosomal dominant polycystic kidney disease (ADPKD). The adverse effect of SDS on antibody-polycystin-1 binding was studied and the improvement resulting from its removal demonstrated using enzyme-linked immunosorbent assays (ELISAs). The results indicate that DCC can be used in a simple manner to remove highly reactive membrane-solubilising reagents from protein mixtures prior to immunological analysis. This procedure may be relevant to a variety of other techniques that are normally affected by detergents.

Rapid detection of Escherichia coli in water using a hand-held fluorescence detector.

The quantification of pathogenic bacteria in an environmental or clinical sample commonly involves laboratory-based techniques and results are not obtained for 24-72 h after sampling. Enzymatic analysis of microbial activity in water and other environmental samples using fluorescent synthetic substrates are well-established and highly sensitive methods in addition to providing a measure of specificity towards indicative bacteria. The enzyme beta-d-glucuronidase (GUD) is a specific marker for Escherichia coli and 4-methylumbelliferone-beta-D-glucuronide (MUG) a sensitive substrate for determining the presence of E. coli in a sample. However, currently used procedures are laboratory-based and require bench-top fluorimeters for the measurement of fluorescence resulting from the enzyme-substrate reaction. Recent developments in electronic engineering have led to the miniaturisation of fluorescence detectors. We describe the use of a novel hand-held fluorimeter to directly analyse samples obtained from the River Thames for the presence of E. coli. The results obtained by the hand-held detector were compared with those obtained with an established fluorescent substrate assay and by quantifying microbial growth on a chromogenic medium. Both reference methods utilised filtration of water samples. The miniaturised fluorescence detector was used and incubation times reduced to 30 min making the detection system portable and rapid. The developed hand-held system reliably detected E. coli as low as 7 cfu/mL river water sample. Our study demonstrates that new hand-held fluorescence measurement technology can be applied to the rapid and convenient detection of bacteria in environmental samples. This enables rapid monitoring to be carried out on-site. The technique described is generic and it may, therefore, be used in conjunction with different fluorescent substrates which allows the assessment of various target microorganisms in biological samples.

Use of antibody-hapten complexes attached to optical sensor surfaces as a substrate for proteases: real-time biosensing of protease activity.

Fluorescent antibody protein (IgG) was attached to the surface of an integrated optical glass waveguide chip via specific binding to a covalently attached hapten and used as a substrate for the measurement of protease activities. Exposure of the optical chip to proteases resulted in digestion of the bound fluorescent antibody molecules and proportional decrease in the detectable fluorescence resulting from loss of fluorescence from the evanescent field. The bound fluorescent antibody protein was used as a unique universal protease substrate in which the combined biological activity and fluorescence signal were the basis of measurement. The action of proteases was monitored in real-time mode where the gradual decrease in evanescent fluorescence was recorded. The chip was regenerated by complete digestion of the antibody substrate by excess pepsin and recharged by incubation with a fresh sample of the labelled antibody. The biosensor was used to detect activity of several proteases including a bacterial protease preparation, Pronase E. The linear range of measurable Pronase E activity was from 0.03 to 2 units/mL. A measurement cycle took 40 min for samples with high protease concentration (>or=0.5 units/mL), when the concentration of the protease was less measurement times up to 100 min were required. The method demonstrates the principle of a new mode of real-time biosensing of proteases. The modular integrated optical glass waveguide biosensor system used in this study is compact and controlled by a laptop computer and could easily be miniaturised and utilized as a true probe device for detecting proteases with potential applications in a wide range of areas including research, clinical diagnostics, biotechnology processing and food and detergent manufacturing industries.

Labeling of biotin antibodies with horseradish peroxidase using cyanuric chloride.

In this report, we describe a two-step protocol for labeling of an affinity-purified antibody to biotin with horseradish peroxidase (HRP) using cyanuric chloride (CC) as a bridge. The enzyme was first modified with CC, and following chromatography on a PD-10 column, the activated HRP was incubated with the antibody to effect coupling of the two proteins. Assessment of the conjugate product was carried out using ELISA and SDS-PAGE electrophoresis where evidence for high antibody activity, high specific activity of the conjugate preparation, coupling of nearly all the antibody and over 90% of the enzyme was shown. The titer of the conjugate exceeded 1/100,000. High molecular weight complexes were observed in the SDS-PAGE results, indicating an efficient conjugation procedure. The presence of high molecular weight complexes indicated an efficient conjugation procedure. The protocol is simple, and the conjugation steps can be completed in 27 h once the preparatory phase has been carried out; the method is entirely generic and may be applied to labeling of any antibody.

Coupling of enzymatic and immunoassay steps to detect E. coli: a new, highly sensitive tandem technique for the analysis of low levels of bacteria.

A tandem technique for the detection of very low levels E. coli within about 2h is demonstrated. The technique couples the widely employed microbial enzymatic detection methods with an immunoassay step. The bacterial marker enzyme, E. coli beta-D-galactosidase, was used in conjunction with synthetic enzyme substrates to produce products that could be measured with a highly sensitive enzyme-labelled immunosorbent assay (ELISA). The commercially available 4-methylumbelliferyl-beta-D-galactoside and a newly prepared substrate, 4-methylcoumarin-3-propionate-7-O-beta-D-galactoside, were used with an ELISA for 7-hydroxy-4-methylcoumarin to demonstrate the detection of low levels of E. coli. The 2h test indicates that a few viable bacteria cells could be detected by the tandem procedure. The end point of the test is an ELISA with colorimetric measurement step. The novel approach retains the essential features of the microbial enzymatic detection procedures and provides a highly sensitive detection system that can be used for rapid screening or quantification of viable microbial cells in water samples. The tandem test is generic for commonly employed glycosidases and other marker enzymes for which 4-methylumbillerone substrates are available.

Paraquat enzyme-immunoassays in biological samples: assessment of the effects of hapten-protein bridge structures on assay sensitivity.

Previously unreported paraquat derivatives were prepared and used to develop enzyme-immunoassay methods for paraquat in serum and urine matrices. The study involved comparison of the effects of novel paraquat derivatives made of methyl and ethyl-4,4'-bipyridinium and cyanuric chloride (heterologous bridges) or valeric acid (homologous bridges) on the ability of paraquat standards to inhibit binding of the antibody to adsorbed hapten-protein plate coating antigens prepared by coupling the derivatives to gelatine. The comparison showed striking differences in assay sensitivity due to the hapten bridge binding phenomenon where the heterologous bridge conjugates enabled achievement of sensitivity levels several orders of magnitude greater than the homologous structures. The constructed ELISA showed minimal detection limit in the range 4 pg mL(-1) in the buffer systems and less then 100 pg mL(-1) in charcoal-stripped human and horse sera and human urine. The study presents details of synthesis of novel paraquat derivatives and a highly sensitive ELISA. In addition the investigation demonstrates the critical importance of judicious selection of hapten-bridge structures to achieve improved levels of detection limits of paraquat immunoassays. The reported assay is suitable for use in monitoring of paraquat levels in exposed persons or animals and for emergency diagnostic tests.

Enzyme immunoassays for the analysis of streptomycin in milk, serum and water: development and assessment of a polyclonal antiserum and assay procedures using novel streptomycin derivatives.

A polyclonal antiserum to streptomycin was generated in sheep using a streptomycin-bovine serum albumin conjugate as immunogen. Streptomycin was linked to the carrier protein with cyanuric chloride using a new two-step conjugation method. Plate coating antigen conjugates of streptomycin and gelatine were prepared using either cyanuric chloride (homologous bridge) or 1,4-butanediol diglycidyl ether to provide an heterologous complex. The reagents enabled the generation of a specific antiserum with a titre of 1/40,000 and the development of a sensitive ELISA method suitable for the measurement of streptomycin sulfate in milk, serum and water samples. A minimum detection value of 1 ng mL(-1) and a dynamic range of 1 to 200 ng mL(-1) were demonstrated in the three matrices. No detectable cross reactivity with any of the common aminoglycosides was found except the related dihydrostreptomycin which gave a 75% cross reaction value. The details of the preparation of the hapten-protein conjugates, characterisation of the antiserum and assay construction and assessment methods are presented. The introduction of new coupling methods and antibody assessment provide improved basic methodologies necessary for the advancement of immuno-analysis of streptomycin, one of the most widely used antimicrobial substances.

Generation of antiserum to Irgarol 1051 and development of a sensitive enzyme immunoassay using a new heterologous hapten derivative.

A polyclonal antiserum to Irgarol 1051 was developed in sheep and used to construct an enzyme immunoassay method for the measurement of the antifouling compound in river and seawater samples. The antiserum was generated by a hapten derivative, 2-(tert-butylamino)-4-(cyclopropylamino)-6-(thiopropionic acid)-1,3,5-triazine, coupled to a mixture of keyhole limpet hemocyanin and bovine serum albumin, and the competitive enzyme immunoassay was constructed using a plate-coating antigen made of a heterologous new hapten derivative, 2-(tert-butylamino)-4-(cyclopropylamino)-6-(phenoxybenzoic acid)-1,3,5-triazine, linked to gelatine. The assay showed a sensitivity of about 5 ng L(-1) in river and seawater matrices with reasonable specificity with respect to commonly used triazines such as atrazine (3%), simazine (>0.1%) and desethylatrazine (>0.01%). However, high cross-reactivity levels were found with ametryn (56%) and prometryn (60%). Tests on the effects of organic solvents on assay performance indicated a high tolerance to methanol but much less so to acetonitrile. The assay was found to be highly reproducible and robust owing to the stability of the sheep antibody and the highly optimised competitive assay reagents which included the use of the new triazine-O-phenoxybenzoic acid derivative.

A highly sensitive and specific enzyme immunoassay for detection of beta-amanitin in biological fluids.

Polyclonal antisera to beta-amanitin were generated in sheep and used to construct a competitive ELISA for measurement of the toxin in human serum and urine. The assay had a detection limit of about 80 pg mL(-1), a dynamic range of 80-2,000 pg mL(-1), a cross reactivity of 22% with alpha-amanitin, and no cross reactivities with cyclic peptides from algal sources. Assay responses in buffer, serum, and urine were remarkably similar. Coupling of the toxin to carrier proteins was carried out by previously unreported methods. The key step that allowed the construction of the highly sensitive assay was the introduction of a novel heterologous hapten derivative made of beta-amanitin-cyanuric chloride derivative. The new derivative overcame the problems of bridge binding that was, in this case, particularly serious with the homologous hapten derivative. The study demonstrated that the developed antiserum and ELISA procedure can be used to detect beta-amanitin and related toxins from Amanita phalloides in human serum and urine samples from suspected poison cases and enable early treatment to be administered.

Evaluation of a polyclonal antiserum to pentachlorothiophenol-acetic acid-KLH immunogen: binding properties and use with heterologous PCP derivatives in ELISA for pentachlorophenol.

A polyclonal antiserum to pentachlorothiophenol-acetic acid-KLH was generated in sheep and assessed by solid phase ELISA. The assessment procedure included use of double checkerboard analysis in the absence and in the presence of analyte loads, estimation of cross reactivities of chlorophenol pesticides, assessment of the effect of pH, Tween 20, and Thames water matrix. The antiserum was highly specific for pentachlorophenol and enabled minimum detection limits of less than 0.2 ng mL(-1) in river water matrix. Particularly important was the significant improvement of assay performance in the absence of Tween 20 and at pH 4 and the very low cross reactivity (less than 0.01%) for other commonly used chlorophenols-2,4,5-trichlorophenol and 2,4,6-trichlorophenol, 2-methyl-4-chlorophenoxyacetic acid, and 2,4-dichlorophenoxy acetic acid. The study re-affirms the importance of the judicious choice of hapten derivatives in the synthesis of immunogens and assay reagents for pentachlorophenol analysis by competitive immunoassays.

Interaction of the leucine-rich repeats of polycystin-1 with extracellular matrix proteins: possible role in cell proliferation.

Polycystin-1, the product of the PKD1 gene, is a membrane-bound multidomain protein with a unique structure and a molecular weight of approximately 460 kD. The purpose of this study is to investigate the binding of the cystein-flanked leucine-rich repeats (LRR) of polycystin-1 to extracellular matrix (ECM) components. These interactions may play a role in normal renal development as well as the pathogenesis of autosomal-dominant polycystic kidney disease (ADPKD). In vitro assays were used to assess the binding of a fusion protein containing the LRR of polycystin-1 and that of affinity purified polycystin-1 to a number of ECM components. The results showed that the LRR modulate the binding of polycystin-1 to collagen I, fibronectin, laminin, and cyst fluid-derived laminin fragments. The addition of the LRR fusion protein to cells in culture resulted in a significant dose-dependent reduction in the rate of proliferation. Cyst fluid-derived laminin fragments had a stimulatory effect on cell proliferation, which was reversed by the LRR fusion protein. These results suggest that the LRR of polycystin-1 act as mediators of the polycystin-1 interaction with the ECM. The observed suppression effect of the LRR on cell proliferation suggests a functional role of the LRR-mediated polycystin-1 involvement in cell-matrix and cell-cell interactions. These interactions may result in the enhanced cell proliferation that is a characteristic feature of ADPKD.

Enzyme-immunoassay for the determination of metallothionein in human urine: application to environmental monitoring.

The objectives of this study were to develop an enzyme immunoassay for metallothioneins in human urine using a polyclonal antiserum and to demonstrate a possible relationship between the level of this biomarker and heavy metal exposure. The antiserum was raised in sheep against horse metallothionein conjugated to carboxylated bovine serum albumin. The antibody was used to construct a two-step competitive ELISA procedure. Human urine was treated with activated charcoal powder to remove traces of metallothioneins and known amounts of pure metallothioneins were added to provide standards for a standard curve. Metallothionein levels were measured in two groups of children living in areas of mild and high environmental pollution due mainly to heavy metals. A comparison was made between the biomarker levels and the levels of cadmium and lead in urine samples in the two groups. A group of children from a non-polluted area acted as controls. The results show that the detected levels of metallothioneins appear to correspond to levels of the two heavy metals studied and that there was an apparent relationship to the environmental exposure. Thus according to results of this study the increase in the metallothionein excretion seems to provide an indication of previous of exposure to metals. The ELISA procedure is sensitive and robust and can be used to screen large numbers of samples and is more rapid than the physical procedures currently used for analysis of these proteins. The assay can therefore be used as an additional tool for screening at-risk populations where either environmental or occupational exposure to divalent heavy metals is suspected.