Evaluation of the use of chromogenic and fluorogenic substrates in solid-phase enzyme linked immunosorbent assays (ELISA)

Fluorogenic and chromogenic substrates were used in direct and trapping enzyme-linked immunosorbent assays (ELISA) for the detection of mouse IgG and foot-and-mouth disease virus (FMDV). The detection limits for both antigens were compared using different combinations of enzymes and substrates. Various times and concentrations of chemicals were used to obtain maximum sensitivity for both systems. Similar sensitivities were found using fluorogenic and chromogenic substrates. Tetramethyl benzidine substrate for horse-radish peroxidase enzyme conjugates was found to attain the highest sensitivity levels for chromogenic assays (0.12 ng IgG/ml and 1.0 ng/ml FMDV respectively), after 10 min incubation. Of the two fluorogenic enzyme/substrates studied, B-galactosidase was the most sensitive but required extended incubation times (2-3 h) as compared with chromogenic systems. Special microplates for fluoro-immunoassay (FIA) were compared with conventional microplates and no advantage was found to justify their use. An alkaline phosphatase anti-guinea-pig conjugate was used to confirm the equivalence of fluorogenic and chromogenic substrates in terms of sensitivity. A comparison of the amount of signal generated using various concentrations of enzyme in the absence of antigen was made for two different alkaline phosphatase conjugates to obtain theoretical sensitivity limits. One possible advantage of fluorogenic substrates is that high binding ratio can improve the confidence in discrimination of positive results.     

Comparison of fluorogenic and chromogenic assay systems in the detection of Escherichia coli O157 by a novel polymyxin-based ELISA

AIMS: Different indicator enzymes and fluorogenic or chromogenic substrates were compared as detector systems in a novel polymyxin-based enzyme-linked immunosorbent assay (ELISA) for Escherichia coli O157 lipopolysaccharide (LPS) antigens. METHODS AND RESULTS: An ELISA system was developed using polymyxin immobilized in the wells of a microtitre plate as a high-affinity adsorbent for E. coli O157 LPS antigens, which were immunoenzymatically detected using anti-E. coli O157 antibody-enzyme conjugates. With peroxidase as the indicator enzyme the fluorogenic substrates Amplex Red and QuantaBlu produced only slight improvement in the performance characteristics of the polymyxin-ELISA compared with the use of the chromogenic substrate tetramethylbenzidine (TMB). On the other hand, with alkaline phosphatase as the indicator enzyme a pronounced improvement in assay performance was noted using the fluorogenic substrate Attophos compared with the chromogenic substrate p-nitrophenylphosphate. CONCLUSIONS: The detection system exhibiting the best characteristics with respect to cost, ease of use and overall performance in the detection of E. coli O157 in enrichment cultures from a variety of solid foods was based on the use of peroxidase as the indicator enzyme with the chromogenic substrate TMB. SIGNIFICANCE AND IMPACT OF THE STUDY: The polymyxin-ELISA provides a rapid, simple and inexpensive assay system for the detection of E. coli O157 in foods.     

The contribution of residues 192 and 193 to the specificity of snake venom serine proteinases

Snake venom serine proteinases, which belong to the subfamily of trypsin-like serine proteinases, exhibit a high degree of sequence identity (60-66%). Their stringent macromolecular substrate specificity contrasts with that of the less specific enzyme trypsin. One of them, the plasminogen activator from Trimeresurus stejnegeri venom (TSV-PA), which shares 63% sequence identity with batroxobin, a fibrinogen clotting enzyme from Bothrops atrox venom, specifically activates plasminogen to plasmin like tissue-type plasminogen activator (t-PA), even though it exhibits only 23% sequence identity with t-PA. This study shows that TSV-PA, t-PA, and batroxobin are quite different in their specificity toward small chromogenic substrates, TSV-PA being less selective than t-PA, and batroxobin not being efficient at all. The specificity of TSV-PA, with respect to t-PA and batroxobin, was investigated further by site-directed mutagenesis in the 189-195 segment, which forms the basement of the S(1) pocket of TSV-PA and presents a His at position 192 and a unique Phe at position 193. This study demonstrates that Phe(193) plays a more significant role than His(192) in determining substrate specificity and inhibition resistance. Interestingly, the TSV-PA variant F193G possesses a 8-9-fold increased activity for plasminogen and becomes sensitive to bovine pancreatic trypsin inhibitor.     

A rapid and strong increase of plasminogen activator induced by experimental anaphylaxis in rabbits.

Anaphylactic shock was induced in rabbits by injecting bovine serum albumin (BSA) as an antigen. Measurements of the enzyme activities in the fibrinolytic system confirmed that a rapid and strong increase of plasminogen activator (PA) was induced during anaphylaxis. The euglobulin fibrinolytic activity (EFA) as estimated by the plasminogen-rich fibrin plate method rose significantly, peaking at 15 min after the BSA injection (when the arterial pressure was minimum). However, EFA was not detected by the plasminogen-poor fibrin plate method. The tissue-type PA (t-PA) activity using the natural substrate plasminogen increased significantly with a peak at 15 min. The amidolytic activity also simultaneously increased significantly using the t-PA substrate, H-D-Ile-Pro-Arg-pNA. The plasminogen activator inhibitor (PAI) activity remained at baseline levels until 30 min, but rose fourfold at 90 min. The main plasma fibrinolytic enzyme which increased in anaphylaxis was proved by zymography to be t-PA with a molecular weight (MW) of 69,000.     

Glycoprotein nature of yeast alkaline phosphatase. Formation of active enzyme in the presence of tunicamycin.

The nonspecific alkaline phosphatase of yeast (Saccharomyces strain 1710) has been purified by ion exchange, hydrophobic, and affinity chromatography. This vacuolar enzyme has a molecular weight of 130,000 and is composed of subunits (probably of 66,000 molecular weight). It also has a small quantity of covalently associated carbohydrate; hydrolysis yielded mannose and glucosamine. The endo-beta-N-acetylglucosaminidase of Streptomyces plicatus released carbohydrate indicating that the latter was attached to protein through an N-acetylglucosaminylasparginyl bond. Synthesis of active alkaline phosphatase by yeast protoplasts is not depressed by tunicamycin, an inhibitor of dolichol-mediated protein glycosylation. Unlike the enzyme normally produced, the alkaline phosphatase which is formed in the presence of the antibiotic does not interact with concanavalin A and, therefore is deficient in or lacking carbohydrate. We infer that there is no regulatory link in yeast between the glycosylation of a protein and its synthesis. The fact that other Asn-GlcNAc-type glycoprotein enzymes of yeast such as acid phosphatase are not produced in their active forms by tunicamycin-treated protoplasts may mean that, as unglycosylated proteins, they cannot be correctly folded or processed. Protoplasts derepressed for phosphatase production contained substantial amounts of a second alkaline phosphatase which differed from the purified enzyme in substrate specificity, sensitivity to calcium, and reactivity with concanavalin A.     

Plasminogen activator-anti-human fibrinogen conjugate

A covalent conjugate between the plasminogen activator urokinase and polyclonal rabbit anti-human fibrinogen has been formed using the heterobifunctional coupling reagent N-succinimidyl 3-(2-pyridyldithio) propionate. The resultant urokinase-anti-human fibrinogen conjugate was separated from unreacted material by gel filtration. The conjugate exhibited amidase activity against the small chromogenic substrate pyroglutamyl-glycyl-arginine-p-nitroanilide as well as plasminogen activator activity in an assay employing plasminogen and the plasmin substrate D-valyl-leucyl-lysine-p-nitroanilide. Retention of antibody specificity for fibrinogen was demonstrated using an enzyme linked immunoassay procedure. The conjugate was found to have greater stability in human plasma than unconjugated urokinase.     

An enzyme-linked immunosorbent assay (ELISA) for human sex hormone-binding globulin

An enzyme-linked immunosorbent assay (ELISA) of the "sandwich-type" for sex hormone binding globulin (SHBG) has been developed. A rabbit anti-SHBG antibody (RAb) is immobilized to the microtitre plate. After incubation with standards and samples a second monospecific rabbit anti-SHBG antibody, labelled with alkaline phosphatase is added (RAb). Following further washing substrate is added, colour developed and the plate read at 405 nm wavelength on a standard ELISA plate reader. The assay is not influenced by the presence of steroids at the binding site, and shows good agreement to SHBG binding capacity assay and commercially available IRMA. Its sensitivity, specificity and precision allows its use in the routine laboratory. The SHBG ELISA has been used to measure SHBG concentrations in sera of normal men, women, pregnant women, and women receiving high-dose medroxyprogesterone acetate as a treatment of metastatic breast cancer.     

A comparison of chemiluminescent and colorimetric substrates in a hepatitis B virus DNA hybridization assay

We compared the sensitivity of a chemiluminescent substrate 3-(2'-spiroadamantane)-4-methoxy-4-(3"-phosphoryloxy)phenyl- 1,2-dioxetane (AMPPD) and a chromogenic substrate 5-bromo-4-chloro-3-indolyl phosphate/nitroblue tetrazolium (BCIP/NBT) for detection of an alkaline phosphatase label in a hepatitis B virus "core antigen" DNA (HBVc) probe hybridization assay. Chemiluminescent signal obtained from AMPPD hydrolysis by alkaline phosphatase was detected with Polaroid Instant Black and White Type 612 film. The chemiluminescent assay detected 1.18 x 10(6) copies of HBVc plasmid DNA in 30 min. By comparison, 9.8 x 10(7) copies of DNA could be measured using chromogenic BCIP/NBT substrate within the same incubation time. After further development, the chemiluminescent endpoint permitted detection of 4.39 x 10(4) copies of HBVc plasmid DNA in 2 h.     

Enzyme-linked coagulation assay. IV. Sensitive sandwich enzyme-linked immunosorbent assays using Russell's viper venom factor X activator-antibody conjugates

We have applied the enzyme-linked coagulation assay (ELCA) system to the development of an amplified immunoassay using the clotting cascade to enhance sensitivity of detection of immune complexes. The factor X-activating enzyme of Russell's viper venom was detectable using ELCA in amounts as low as 0.25 fg per assay. Monoclonal antibodies to beta-hCG, placental alkaline phosphatase (PLAP), and the P-24 antigen of HTLV-III were labeled with this enzyme or peroxidase and used for "sandwich" immunoassays using another monoclonal antibody (beta-hCG, PLAP) or polyclonal patient IgG (P-24 antigen) bound to a polylysine-glutaraldehyde-coated plate as a "capture" reagent. After the immunobinding step, the plate was washed and substrate consisting of a mixture of factors X, V, and II in buffer containing calcium and lipid was incubated for various lengths of time. The mixture was transferred to another plate coated with fibrinogen and containing peroxidase-fibrinogen in EDTA solution to measure the amount of thrombin generated. Using this protocol, we were able to measure the presence of 2-10 pg/ml of beta-hCG and PLAP (5-30 amol per sample). All three model antigens were detectable at concentrations 2-3 orders of magnitude less using RVV-XA-labeled antibodies and ELCA than they were using peroxidase-labeled antibodies. The assay has considerable potential as a general immunoassay amplification system, yielding a "color test" for antigens of interest with a detection limit not readily attainable using other chromogenic methodologies.     

纤溶活性蛋白检测方法研究进展

迄今为止,对纤溶活性蛋白(fibrinolytic protein)的检测主要有4种方法:纤维平板法(fibrin plate method)、显色底物法(colorimetric assay using chromogenic substrates)、反相纤维蛋白自显影法(reverse fibrin autography)和纤维蛋白酶谱法(fibrin zymography)。纤维平板法可以用来快速判断样品是否具有纤溶活性,同时,纤维平板法和显色底物法也可以用来对纤溶活性蛋白进行半定量分析。反相自显影法和纤维蛋白酶谱法则是两种较新的技术,主要用来对纤溶活性蛋白进行定性分析。详细阐述了这几种技术的发展过程、原理、优缺点和应用范围。     

A lectin method for investigating the glycosylation of nanogram amounts of purified glycoprotein

To unravel the complexities of the glycosylation of a protein is a substantial task, which requires considerable effort and resources. However, in many situations this is unnecessary, because only a limited amount of information is required. A new lectin-binding assay is described which is rapid, cheap and versatile. A purified glycoprotein is absorbed on to the plastic surface of a microtitre plate. After removing unbound protein by washing, uncoated sites on the plate are blocked and digoxigenin or biotin-labelled lectin is added. The degree of lectin binding is measured using either an anti-DIG antibody or streptavidin conjugated enzyme, which is subsequently used to develop a colour reaction. Using this method it is possible to screen multiple specimens with high sensitivity and excellent precision. In addition, very small amounts of lectin are used, background absorbances are low, and the procedure does not require a high degree of technical skill. Because very small amounts of glycoprotein are needed, a glycoprotein can often be rapidly purified by batch affinity chromatography. The method has been successfully applied to several purified proteins using the lectins, Con A, LCA, LTA, MAA, and SNA, and the information obtained agrees with that produced by more sophisticated approaches, eg Dionex Carbohydrate Analyser. Using a panel of lectins, a carbohydrate structural profile is quickly built-up, and subtle differences in glycosylation identified. This method should be particularly useful for screening glycosylation in multiple clinical specimens; in specimens where very small amounts of material are available, such as membrane molecules; and in the screening of recombinant proteins produced commercially. This revised version was published online in November 2006 with corrections to the Cover Date.     

Protease and protease inhibitor assays using biotinylated casein coated on a solid phase

A new type of solid-phase assay for proteases and protease inhibitors has been developed using biotinylated casein. The assay involves coating of titer plate wells with biotinylated casein, hydrolysis of this substrate with a protease such as trypsin, reaction of the biotin from the unhydrolyzed substrate with an alkaline phosphatase-streptavidin complex, and finally quantification of the amount of casein remaining on the plate using alkaline phosphatase activity as the indicator. The activity of the bound indicator enzyme is oppositely related to the protease activity of the sample. In addition, the assay can be modified for quantitating the corresponding amount of protease inhibitor in the sample. The assay is simple, sensitive, accurate, inexpensive, and amenable to automation.     

Enzyme-linked assay of cellulose-binding domain functions from Cellulomonas fimi on multi-well microtiter plate

Cellulose-binding domain (CBD) enriches cellulolytic enzymes on cellulosic surfaces and contributes to the catalytic efficiency by increasing enzyme-substrate complex formations. Thus, high affinity CBDs are essential for the development of efficient cellulose-degrading enzymes. Here, we present a microtiter plate-based assay system to measure the binding affinity of CBDs to cellulose. The assay uses a periplasmic alkaline phosphatase (AP) as a fusion reporter and its activity is detected using a fluorogenic substrate, 4-methylumbelliferyl phosphate. Lignocellulose discs of 6 mm in diameter were used as substrates in 96-well plate. As a result, the enzyme-linked assay detected the binding of CBDs on the cellulosic discs in a highly sensitive manner, detecting from 0.05 to 1.0 μg/mL of APCBD proteins, which is several hundred times more sensitive than conventional protein measurements. The proposed method was applied to compare the binding affinity of different CBDs from Cellulomonas fimi to lignocellulose discs.     

Kinetics of inhibition of tissue-type and urokinase-type plasminogen activator by plasminogen-activator inhibitor type 1 and type 2

Highly purified plasminogen-activator inhibitors of type 1 (PAI-1) and type 2 (PAI-2), low-Mr form, were compared with respect to their kinetics of inhibition of tissue-type (t-PA) and urokinase-type plasminogen activator (u-PA). The time course of inhibition of plasminogen activator was studied under second-order or pseudo-first-order conditions. Residual enzyme activity was measured by the initial rate of hydrolysis of a chromogenic t-PA or u-PA substrate or by an immunosorbent assay for t-PA activity. PAI-1 rapidly reacted with single-chain t-PA as well as with two-chain forms of t-PA and u-PA. The second-order rate constant k for inhibition of single-chain t-PA (5.5 x 10(6) M-1 s-1) was about three times lower than k for inhibition of the two-chain activators. PAI-2 reacted slowly with single-chain t-PA, k = 4.6 x 10(3) M-1 s-1. The association rate was 26 times higher with two-chain t-PA and 435 times higher with two-chain u-PA. The k values for inhibition of single-chain t-PA, two-chain t-PA and two-chain u-PA were respectively, 1200, 150 and 8.5 times higher with PAI-1 than with PAI-2. The removal of the epidermal growth factor domain and the kringle domain from two-chain u-PA did not affect the kinetics of inhibition of the enzyme, suggesting that the C-terminal proteinase part of u-PA (B chain) is responsible for both the primary and the secondary interactions with PAI-1 and PAI-2. The k values for inhibition of single-chain t-PA and endogenous t-PA in plasma by PAI-1 or PAI-2 were identical indicating that t-PA in blood consists mainly in its single-chain form.     

An aptamer-capture based chromogenic assay for thrombin

A simple chromogenic assay for human alpha thrombin is developed through aptamer affinity capture and a subsequent enzyme reaction. Thrombin is captured on the aptamer-modified magnetic beads, and catalyzes the conversion of chromogenic substrates to optically measured products. The measurement of the generated products by an absorbance spectrometer allows for the final quantification of thrombin. This assay shows high sensitivity by taking advantage of sample enrichment and enzyme amplification, and exhibits good specificity by involving the selective aptamer binding and the specific enzyme reaction. A concentration detection limit of 40 fM can be reached when the tripeptide substrate of tosyl-Gly-Pro-Arg-p-nitroanilide is used in a 24 h enzyme reaction, and the use of 2h enzyme reaction in the assay enables the detection of 400 fM thrombin for a rapid analysis. This assay can be applied to detect thrombin in dilute human serum.     

Spectrophotometric assay for protease activity in ionic liquids using chromogenic substrates

A new spectrophotometric assay has been developed to evaluate protease activity in ionic liquids (ILs). The assay consists of two strategies to enable real-time spectrometric analysis of enzymatic reaction in ILs. First, enzymes are modified with a comb-shaped poly(ethylene glycol), PM₁₃, to obtain a transparent enzyme solution in IL. Second, a chromogenic substrate is used to follow the enzymatic reaction in IL. p-Nitroaniline-derivatized substrates are subjected to protease-catalyzed alcoholysis to release chromogenic p-nitroaniline that can be quantitatively detected by a UV-Vis spectrophotometer. By using this method, we can evaluate protease activity in ILs quite easily without separation of products from the reaction mixture. The availability of the novel assay system was demonstrated in a kinetic analysis of subtilisin-catalyzed reaction in the IL 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide ([Emim][Tf₂N]) under different reaction conditions. Because two different serine proteases, subtilisin and α-chymotrypsin, substantially retained its original substrate specificity in the IL, the assay can be extended to other enzymes by using suitable chromogenic substrates.     

Distinct contributions of residue 192 to the specificity of coagulation and fibrinolytic serine proteases

Archetypal members of the chymotrypsin family of serine proteases, such as trypsin, chymotrypsin, and elastase, exhibit relatively broad substrate specificity. However, the successful development of efficient proteolytic cascades, such as the blood coagulation and fibrinolytic systems, required the evolution of proteases that displayed restricted specificity. Tissue-type plasminogen activator (t-PA), for example, possesses exquisitely stringent substrate specificity, and the molecular basis of this important biochemical property of t-PA remains obscure. Previous investigations of related serine proteases, which participate in the blood coagulation cascade, have focused attention on the residue that occupies position 192 (chymotrypsin numbering system), which plays a pivotal role in determining both the inhibitor and substrate specificity of these enzymes. Consequently, we created and characterized the kinetic properties of new variants of t-PA that contained point mutations at position 192. These studies demonstrated that, unlike in coagulation serine proteases, Gln-192 does not contribute significantly to the substrate or inhibitor specificity of t-PA in physiologically relevant reactions. Replacement of Gln-192 with a glutamic acid residue did, however, decrease the catalytic efficiency of mature, two-chain t-PA toward plasminogen in the absence of a fibrin co-factor.     

Colorimetric focus-forming assay with automated focus counting by image analysis for quantification of infectious hepatitis C virions

Hepatitis C virus (HCV) infection is the leading cause of liver transplantation in Western countries. Studies of HCV infection using cell culture-produced HCV (HCVcc) in vitro systems require quantification of infectious HCV virions, which has conventionally been performed by immunofluorescence-based focus-forming assay with manual foci counting; however, this is a laborious and time-consuming procedure with potentially biased results. In the present study, we established and optimized a method for convenient and objective quantification of HCV virions by colorimetric focus-forming assay with automated focus counting by image analysis. In testing different enzymes and chromogenic substrates, we obtained superior foci development using alkaline phosphatase-conjugated secondary antibody with BCIP/NBT chromogenic substrate. We additionally found that type I collagen coating minimized cell detachment during vigorous washing of the assay plate. After the colorimetric focus-forming assay, the foci number was determined using an ELISpot reader and image analysis software. The foci number and the calculated viral titer determined by this method strongly correlated with those determined by immunofluorescence-based focus-forming assay and manual foci counting. These results indicate that colorimetric focus-forming assay with automated focus counting by image analysis is applicable as a more-efficient and objective method for quantification of infectious HCV virions.     

Construction and expression of hybrid plasminogen activators prepared from tissue-type plasminogen activator and urokinase-type plasminogen activator genes

Recent data from several studies have suggested that the non-protease domains in tissue-type plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA) determine their biological specificities, including binding to fibrin clots and survival in the circulatory system (Van Zonneveld, A.-J., Veerman, H., and Pannekoek, H. (1986) Proc. Natl. Acad. Sci. U. S. A. 83, 4670-4674; Rijken, D. C., and Emeis, J. J. (1986) Biochem. J. 238, 643-646). Structural manipulations (e.g. deletions, additions, or substitutions) in these domains can thus be utilized to maximize the desired biological effects. Using recombinant DNA technology, we constructed a number of hybrid molecules from the t-PA and u-PA genes. In hybrid A, the epidermal growth factor and finger domains of t-PA (residues 1-91) were replaced by the epidermal growth factor and kringle of u-PA (residues 1-131). In hybrids B and C, the u-PA kringle (residues 50-131) was inserted either before (residue 92) or after (residue 261) the double-kringle region of t-PA. All these hybrid PAs containing three kringles were expressed in mouse fibroblast cells (C-127). The hybrid proteins were synthesized in predominantly a single-chain form with molecular weights of 70,000-80,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and were enzymatically active as assayed by the fibrin-agar plate method. In vitro studies on the binding of hybrid PAs to fibrin showed that hybrid B, like t-PA, possesses affinity toward fibrin, while hybrid A shows lower binding. This suggests that the finger domain, which is not present in hybrid A, plays a role in conferring fibrin affinity to the hybrid PAs. The enzymatic activities of the hybrids were compared with that of recombinant t-PA (rt-PA) expressed in the same vector/host system and found to be similar in activity toward a chromogenic peptide substrate. In addition, plasminogen activation with all the hybrid-PAs, as with rt-PA, was stimulated by fibrin, with the order of activity being rt-PA greater than or equal to hybrid B greater than hybrid C greater than hybrid A. This study shows the feasibility of shuffling functional domain(s) of known specificity in plasminogen activators which may lead to the design of a superior thrombolytic agent.     

Purification and characterization of a novel thermostable extracellular protein tyrosine phosphatase from Metarhizium anisopliae strain CQMa102

An extracellular phosphatase was purified to homogeneity from the entomopathogenic fungus Metarhizium anisopliae with a 41.0% yield. The molecular mass and isoelectric point of the purified enzyme were about 82.5 kDa and 9.5 respectively. The optimum pH and temperature were about 5.5 and 75 degrees C when using O-phospho-L-tyrosine as substrate. The protein displayed high stability in a pH range 3.0-9.5 at 30 degrees C and was remarkably thermostable at 70 degrees C. The purified enzyme showed high activity on O-phospho-L-tyrosine and protein tyrosine phosphatase substrate monophosphate (a specific substrate of protein tyrosine phosphatase). Although one peptide of the phosphatase shared identity with one alkaline phosphatase of Neurospora crassa, its substrate specificity and inhibitor sensitivity indicate that the enzyme is a protein tyrosine phosphatase.