A catalysis-based selection for peroxidase antibodies with increased activity

A biotin-tyramine conjugate (1) was found to covalently cross-link with peroxidase antibody 7G12 upon the catalytic oxidation of the tyramine moiety in the presence of hydrogen peroxide (H2O2). On the basis of this observation, a novel strategy was developed to select mutants of 7G12 Fab with enhanced peroxidase activity from a library of phage displayed antibodies. In such a selection, tyramine is oxidized by hydrogen peroxide in a process catalyzed by peroxidase antibodies displayed on phage. Antibodies with higher peroxidase activity are preferentially labeled with biotin through irreversible adduct formation between oxidized biotin-linked tyramine molecules and phenolic side chains of the antibody. The corresponding phage particles can then be selected via biotin-streptavidin interactions. Using this strategy, phage displayed libraries of antibody 7G12 were selected for higher peroxidase activity. As a result, mutations of antibody 7G12 that led to 10 to 20-fold increases in the peroxidase activity (kcat/Km) were identified, suggesting the validity of this method for the evolution of peroxidase antibodies based directly on catalytic turnover.     

化学发光免疫分析检测人血清中的癌胚抗原

基于辣根过氧化物酶(HRP)催化H2O2氧化3-(4-羟苯基)丙酸(PHPPA),生成能发荧光的3-(4-羟苯基)丙酸二聚体.在乙腈介质中,在增强剂眯唑参与下,与双[2,4,6-三氯苯基]草酸酯(TCPO)和H2O2反应产生强化学发光.用辣根过氧化物酶(HRP)标记癌胚抗原(CEA)单克隆抗体,通过CEA的双抗夹心免疫...     

Manganese-substituted carbonic anhydrase as a new peroxidase

Carbonic anhydrase is a zinc metalloenzyme that catalyzes the hydration of carbon dioxide to bicarbonate. Replacing the active-site zinc with manganese yielded manganese-substituted carbonic anhydrase (CA[Mn]), which shows peroxidase activity with a bicarbonate-dependent mechanism. In the presence of bicarbonate and hydrogen peroxide, (CA[Mn]) catalyzed the efficient oxidation of o-dianisidine with kcat/KM=1.4 x 10(6) m(-1) s(-1), which is comparable to that for horseradish peroxidase, kcat/KM=57 x 10(6) m(-1) s(-1). CA[Mn] also catalyzed the moderately enantioselective epoxidation of olefins to epoxides (E=5 for p-chlorostyrene) in the presence of an amino-alcohol buffer, such as N,N-bis(2-hydroxyethyl)-2-aminoethanesulfonic acid (BES). This enantioselectivity is similar to that for natural heme-based peroxidases, but has the advantage that CA[Mn] avoids the formation of aldehyde side products. CA[Mn] degrades during the epoxidation limiting the yield of the epoxidations to <12 %. Replacement of active-site residues Asn62, His64, Asn67, Gln92, or Thr200 with alanine by site-directed mutagenesis decreased the enantioselectivity demonstrating that the active site controls the enantioselectivity of the epoxidation.     

Oxygen- and temperature-dependent kinetic isotope effects in choline oxidase: correlating reversible hydride transfer with environmentally enhanced tunneling

Choline oxidase catalyzes the flavin-linked oxidation of choline to glycine betaine, with betaine aldehyde as intermediate and oxygen as electron acceptor. Here, the effects of oxygen concentration and temperature on the kinetic isotope effects with deuterated choline have been investigated. The D(kcat/Km) and Dkcat values with 1,2-[(2)H4]-choline were pH-independent at saturating oxygen concentrations, whereas they decreased at high pH to limiting values that depended on oxygen concentration at < or = 0.97 mM oxygen. The kcat/Km and kcat pH profiles had similar patterns reaching plateaus at high pH. Both the limiting kcat/Km at high pH and the pKa values were perturbed to lower values with choline and < or = 0.25 mM oxygen. These data suggest that oxygen availability modulates whether the reduced enzyme-betaine aldehyde complex partitions forward to catalysis rather then reverting to the oxidized enzyme-choline alkoxide species. At saturating oxygen concentrations, the D(kcat/Km) was 10.6 +/- 0.6 and temperature independent, and the isotope effect on the preexponential factors (A(H)'/A(D)') was 14 +/- 3, ruling out a classical over-the-barrier behavior for hydride transfer. Similar enthalpies of activation (deltaH(double dagger)) with values of 18 +/- 2 and 18 +/- 5 kJ mol(-1) were determined with choline and 1,2-[(2)H4]-choline. These data suggest that the hydride transfer reaction in which choline is oxidized by choline oxidase occurs quantum mechanically within a preorganized active site, with the reactive configuration for hydride tunneling being minimally affected by environmental vibrations of the reaction coordinate other than those affecting the distance between the donor and acceptor of the hydride.     

Spectrophotometric quantification of lactose in solution with a peroxidase-based enzymatic cascade reaction system

A spectrophotometric assay was developed for the quantification of lactose in aqueous solution via a one-pot enzymatic cascade reaction at 25 °C and pH 7.2. Lactose (0.2-1.8 mM), E. coli β-galactosidase (β-Gal), Aspergillus niger glucose oxidase (GOD), horseradish peroxidase (HRP) and o-phenylenediamine (OPD) were incubated, and the increase in absorbance at 417 nm (A (417)) due to the formation of DAP (2,3-diaminophenazine), the dimeric oxidation product of OPD, was followed. The increase in A (417) was found to depend linearly on the initial lactose concentration via three consecutive but simultaneously occurring enzymatic reaction steps catalyzed by β-Gal, GOD, and HRP. No pre-incubation of lactose with β-Gal is needed with this simple lactose assay.     

Thermostable peroxidase-polylysine films for biocatalysis at 90 degrees C

Cross-linked films of poly(l-lysine) (PLL) and enzymes covalently linked to surfaces provided remarkable thermostability, enabling biocatalysis at 90 degrees C. Soret spectra, circular dichroism, and voltammetry showed that PLL films containing peroxidases or myoglobin were stable for up to 9 h at 90 degrees C, while the same enzymes in solution denatured completely within 20 min. Biocatalytic reduction of t-BuOOH with enzyme-PLL films, using rotating disk voltammetry, provided Michaelis kcat/Km values. Results showed that horseradish peroxidase (HRP)-PLL is 3-fold more active than soybean peroxidase (SBP)-PLL at 25 degrees C, but SBP-PLL is slightly more active at 90 degrees C. SBP-PLL films had 8-fold larger kcat/Km values at 90 degrees C compared to 25 degrees C. Oxidation of o-methoxyphenol to 3,3'-dimethoxy-4,4'-biphenoquinone by peroxidase-PLL-coated silica colloids gave better yields at 90 degrees C than 25 degrees C, suggesting increasing catalytic efficiency and selectivity at the higher temperature. These biocolloids were reusable with little loss of activity at 90 degrees C.     

PAP-H2O2-HRP酶促反应产物光谱及电化学研究

前文［１］首次提出了以对氨基酚（ＰＡＰ）为底物的ＰＡＰ－Ｈ２Ｏ２－辣根过氧化物酶（ＨＲＰ）伏安酶联免疫分析新体系,并成功地应用于烟草花叶等植物病毒的血清学检测．在此之前,我们也曾报道过一些伏安酶联免疫分析新体系［２,３］．迄今,还没有人对 ＨＲＰ催化 Ｈ２Ｏ２氧化 ＰＡＰ的酶促反应进行过探讨．Ｐｒａｔｉ等［４］报道了在铜催化作用下,Ｏ２氧化对氨基酚生成３－［（４－个羟苯基）氨基」－４－（２－氨基－５－羟苯基）－６－［（４－羟苯基）亚胺基］－２,４－环己二烯基－１－酮．本文的实验结果与此文献不符． 为…     

MAP-H~2O~2-HPR伏安酶联免疫分析新体系和光谱及电化学研究

提出了间氨基酸(MAP)-H~2O~2-辣根过氧化物酶(HRP)伏安酶联免疫分析新体系.本方法以线性扫描二阶导数伏安法检测HRP催化H~2O~2氧化MAP的产物,用于游离HRP和各种HRP标记物的测定,灵敏度均高于经典的ELISA显色光度法.测定游离HRP的线性范围为1.0x10^-^8-1.0x10-6/L,检测限达3.8x10^-^9g/L.制备出了HRP催化H~2O~2氧化MAP的产物纯品并应用电化学分析,高效液相色谱,元素分析,紫外-可见光谱,红外光谱,^1H核磁共振谱,^1^3C核磁共振谱及质谱等技术对体系酶促反应进行了深入的研究.在选择的酶促反应条件下,生成的产物为2-氨基-5-[(3-差苯基)]-2,5-环己烯基-1,4-二酮.提出了酶催化反应机理及其产物的电极还原过程。     

Remarkable supramolecular catalysis of glycoside hydrolysis by a cyclodextrin cyanohydrin

(6AR,6DR)-6A,6D-di-C-cyano-beta-cyclodextrin (3) was synthesized and shown to catalyze hydrolysis of nitrophenyl glycosides with the reaction following Michaelis-Menten kinetics. At pH 7.4 and 25 degrees C, hydrolysis of 4-nitrophenyl-beta-glucopyranoside (2) was catalyzed with KM = 15 mM, kcat = 8.2 x 10-6 s-1, and kcat/kuncat = 1217. Catalysis was observed with concentration of 3 as low as 10 muM. Hydrolysis of the corresponding alpha-glucoside, alpha-galactoside, alpha-mannoside, and 2-nitrophenyl-beta-galactoside was also catalyzed by 3, with kcat/kuncat ranging from 283 to 2147. A series of analogues of 3 was prepared and investigated for catalysis of the hydrolysis of 2: (6AR,6DR)-6A,6D-di-C-propyl-beta-cyclodextrin (9) was not catalytic, while 6A,6D-di-C-cyano-6A,6D-dideoxy-beta-cyclodextrin (12) had a low catalytic activity (kcat/kuncat = 4). A kcat/kuncat = 48 was found for 6A,6D-dialdehydo-beta-cyclodextrin dihydrate (11). It was proposed that 3 acts by general acid catalysis on the bound substrate.     

增强辣根过氧化物酶催化鲁米诺化学发光反应的新型增强剂四苯硼钠

报道了新型增强剂四苯硼钠对过氧化物酶催化鲁米诺－过氧化氢发光反应的增强作用，建立了流动注射化学发光测定或辣过氧化物酶（ＨＲＰ）的新体系。用该体系测定ＨＲＰ线性范围为１．０×１０－１２×１．２×１０－１３ｍｏｌ／Ｌ；检测限为０．６×１０－１３ｍｏｌ／Ｌ。对０．６×１０－１３ｍｍｏｌ／Ｌ的 ＨＲＰ进行１１次平行测定，相对标准偏差为 １． ５％。     

Exploring the scope of the 29G12 antibody catalyzed 1,3-dipolar cycloaddition reaction

[Chemical reaction: See text] 29G12 is a murine monoclonal antibody programmed to catalyze the regio- and enantioselective 1,3-dipolar cycloaddition reaction between 4-acetamidobenzonitrile N-oxide 1a and N,N-dimethylacrylamide 2a (Toker, J. D.; Wentworth, P., Jr.; Hu, Y.; Houk, K. N.; Janda, K. D. J. Am. Chem. Soc. 2000, 122, 3244). Given the unique nature of 29G12 as a protein biocatalyst for this chemical reaction, we have investigated both the substrate specificity and mechanistic parameters of the 29G12-catalyzed process. These studies have shown that while 29G12 is specific for its dipole substrate 1a, the antibody is highly promiscuous with respect to the dipolarophiles it can process. 29G12 accepts a bulky hydrophobic dipolarophile cosubstrate, with rates of product formation up to 70-fold faster than with the original substrate 2a. In all cases, the respective isoxazoline products are produced with exquisite regio- and stereochemical control (78-98% ee). Comparison between the steady-state kinetic parameters from the 29G12-catalyzed reaction of 1a with the most efficient versus the original dipolarophile cosubstrate (2m and 2a, respectively), reveals that while the effective molarities (EM)s are almost identical (EM(2m)) 26 M; EM((2a)) 23 M), the affinity of 29G12 for the larger dipolarophile 2m is more than 1 order of magnitude higher than for 2a [Km(2m) 0.44 +/- 0.04 mM; Km(2a) 5.8 +/- 0.4 mM]. Furthermore, when 2m is the cosubstrate, the affinity of 29G12 for its dipole 1a is also greatly improved [Km(1a) 0.82 +/- 0.1 mM compared to Km(1a) 3.4 +/- 0.4 mM when 2a is the cosubstrate]. An analysis of the temperature dependence of the 29G12-catalyzed reaction between 1a and 2m reveals that catalysis is achieved via a decrease in enthalpy of activation (DeltaDeltaH 4.4 kcal mol(-1)) and involves a large increase in the entropy of activation (DeltaDeltaS 10.4 eu). The improved affinity of 29G12 for the nitrile oxide 1a in the presence of 2m, coupled with the increase in DeltaDeltaS during the 29G12-catalyzed reaction between 1a and 2m supports the notion of a structural reorganization of the active site to facilitate this antibody-catalyzed reaction.     

基于Fe3O4@Au复合纳米粒子标记抗体的电化学免疫方法用于水体中大肠杆菌的检测

合成了Fe₃O₄@Au复合纳米粒子作为辣根过氧化酶标记抗体的载体, 并将该复合纳米粒子标记物应用于电化学放大免疫分析. 将电子媒介体硫堇聚合在玻碳电极表面, 以纳米金作为固定大肠杆菌抗体的基底, 通过辣根过氧化酶催化溶液中H₂O₂产生的电流信号来测定大肠杆菌. 实验结果表明, 该方法对水体中大肠杆菌检测的线性范围为50～1×10⁵ cfu/mL, 检出限为20 cfu/mL. 对过富集后的实际水样进行测定, 该法结果表明, 对水体中大肠杆菌的检测灵敏度达到2 cfu/mL.     

Synergistic enhancement of the horseradish peroxidase-catalyzed oxidation of luminol by 4-substituted phenylboronic acids

Combinations of 4-substituted phenylboronic acids [phenyl, iodo, bromo, and trans-4-(3-propenoic acid) substituents] have been discovered to have synergistic effects in the horseradish peroxidase (HRP) catalyzed chemiluminescent oxidation of luminol. Three types of effect have been observed: 1. synergistic reduction in the background light emission of a luminol-peroxide assay reagent to a value lower than the background obtained with either enhancer individually; 2. increase in signal to background ratio (S B ) in the presence of HRP to a value higher than the S B obtained with either enhancer individually (synergy) or to a value higher than the combined S B obtained with each enhancer (synergistic enhancement); and 3. for some combinations of enhancers, an increase in signal in the presence of HRP to a value higher than the signal obtained with either enhancer individually (synergy), or to a value higher than the combined signal obtained with each enhancer (synergistic enhancement). The magnitude of the effect was moderate but the synergistic decreases in background and increases in signal produced increases in S B up to four-fold. Examples of synergistic pairs of enhancers included 4-biphenyl and 4-bromophenylboronic acid; 4-biphenyl and 4-iodophenylboronic acid; and trans-4-(3-propenoic acid) and 4-iodophenylboronic acid. Generally, synergy was obtained at several concentrations of all of the combinations of enhancers tested, and at different time points in the reaction due to the different light emission kinetics of the enhanced reactions. The mechanism of this synergistic effect has not been elucidated but may involve the enhancers acting at different points in the complex chemiluminescent peroxidase catalyzed oxidation reaction.     

A sensitive and rapid immunoassay for quantification of CA125 in human sera by capillary electrophoresis with enhanced chemiluminescence detection

In this paper we have presented a sensitive and rapid immunoassay (IA) method by capillary electrophoresis with an enhanced chemiluminescence detection system (CE-CL) based on the catalytic effects of horseradish peroxidase (HRP) on the luminol-hydrogen peroxide reaction. The conditions for the CL reaction and electrophoresis were systematically investigated using HRP as a model sample. The linear range from 2.5 x 10(-11) to 1.0 x 10(-9) mol/L (R = 0.999), and the detection limit of 1.0 x 10(-12) mol/L (signal-to-noise ratio = 3) for HRP were achieved using para-iodophenol as CL enhancer. The relative standard deviations of the migration time and peak area for 5.0 x 10(-10) mol/L HRP (n = 7) were 0.26 and 4.8%, respectively, using a CE system with a home-built CL detector. Under the optimal condition, the HRP-labeled CA125 antibody (Ab) and the Ab-antigen complex were well separated within 4 min by CE using a high-pH buffer (pH 10.20). The assay was successfully used for quantification of CA125 in human sera from health controls and patients associated with ovarian cancer, and the recoveries of the standard addition experiments were 93-109%. Our primary results demonstrated that IA based on CE-CL detection is a powerful tool for clinical diagnosis combined with these commercial IA kits.     

Elementary steps of enzymatic oxidation of nifedipine catalyzed by horseradish peroxidase

The elementary steps of the enzymatic oxidation of nifedipine (NF) catalyzed by horseradish peroxidase (HRP) have been described based on analysis of kinetic magnetic field effects (MFEs). It has been shown that the first step of the catalytic cycle is single electron transfer resulting in formation of NF*(+) radical cation and ferroperoxidase (Per(2+)). As a result, comparison with an earlier studied oxidation reaction of NADH catalyzed by HRP evidenced that the enzymatic oxidations of two substrates-native, NADH, and its synthetic analogue, NF-catalyzed by HRP in the absence of H(2)O(2) follow identical mechanisms.     

Catalytic antibodies induced by a zwitterionic hapten

A zwitterionic hapten 4 featuring both positively and negatively charged functional groups was designed and synthesized with the goal of generating catalytic antibodies for the hydrolysis of ester 6 and amide 7. Of the 36 monoclonal antibodies specific to BSA-4 (bovine serum albumin) that were isolated, six accelerated the hydrolysis of 6. Two catalytic antibodies with distinctively different and representative kinetic behaviors were selected for detailed kinetic studies. Whereas H8-2-6F11 showed burst kinetic behavior, which can be attributed to the formation of an acyl intermediate, H8-1-2D5 did not, but it did exhibit high multiple turnover activity. The rate of hydrolysis of 6 catalyzed by H8-1-2D5 followed Michaelis-Menten kinetics; the apparent values of the Michaelis-Menten constant Km and the catalytic constant kcat were 488 microM and 3.5 min(-1), respectively. The catalytic rate enhancement (kcat/kun) observed for H8-1-2D5 was 1.3 x 10(5), which is approximately two orders of magnitude greater than those for monofunctional haptens. Thus H8-1-2D5 compares well in catalytic activity with antibodies isolated by a related approach called heterologous immunization.     

Studies on the oxidation reaction of tyrosine (Tyr) with H2O2 catalyzed by horseradish peroxidase (HRP) in alcohol-water medium by spectrofluorimetry and differential spectrophotometry

An oxidation reaction of tyrosine (Tyr) with H(2)O(2) catalyzed by horseradish peroxidase (HRP) was studied by spectrofluorimetry and differential spectrophotometry in the alcohol(methanol, ethanol, 1-propanol and isopropanol)-water mutual solubility system. Compared with the enzymatic-catalyzed reaction in the water medium, the fluorescence intensities of the product weakened, even extinguished. Because the addition of alcohols made the conformation of HRP change, the catalytic reaction shifted to the side of polymerization and the polymer (A(n)H(2), n>or=3) exhibited no fluorescence. The four alcohols cannot deactivate HRP. Moreover isopropanol activated HRP remarkably.     

Detection and Quantification of Sulfonamide Antibiotic Residues in Milk Using Scanning Electrochemical Microscopy

The use of scanning electrochemical microscopy (SECM) for the qualitative and quantitative determination of sulfapyridine (SPY) in milk is described. A direct competitive immunoassay was performed involving an antibiotic horseradish peroxidase (HRP)‐labeled analog and using selective capture antibodies immobilized on the surface of Protein G‐modified glassy carbon plates. SECM detection was accomplished by means of the sample generator/tip collector (GC) mode involving the reduction of benzoquinone (BQ) generated upon the HRP‐catalyzed oxidation of hydroquinone (HQ) at the modified substrate surface in the presence of H₂O₂. The detection limit for SPY in milk samples was as low as 0.13 ng mL^?1.     

Kinetics of oxidation of o-dianisidine by hydrogen peroxide in the presence of antibody complexes of iron(III) coproporphyrin

The complex of iron(III) coproporphyrinl (FeCPI) with antibody D5E3 was studied as an artificial peroxidase, usingo-dianisidine as a substrate. At saturation with respect to antibody, the initial rates ofo-dianisidine oxidation are practically the same for free and bound FeCPI at a concentration 5 × 10^-9M, but the catalytic rate constant (k_c) for bound FeCPI exceed (k_c) for free FeCPI by two-to threefold. This difference can be explained by a real enhancement of (k_c) at the antibody-active site. The dependence of initial rates of the reaction on substrate concentrations obeyed Michaelis-Menten kinetics and revealed substrate activation at high concentrations ofo-dianisidine. A comparison of the Stern-Volmer constants foro-dianisidineinduced quenching of the porphyrin fluorescence proves that antibody-bound coproporphyrin is equivalently accessible to the substrate as protoporphyrin bound to apoperoxidase from horseradish peroxidase (HRP). Based on analysis of the (k_c) dependence on H₂O₂ concentrations in the FeCPI-antibody system, we suggest that interaction with hydrogen peroxide is the rate-limiting step for the oxidation reaction.     

CE-based simultaneous liquid-phase noncompetitive enzyme immunoassay for three tumor markers in human serum using electrochemical detection

A method for indirectly detecting horseradish peroxidase (HRP) was described by CE with electrochemical detection. Details of selection for optimum conditions were presented. The detection limit of free HRP was 1.09 x 10(-12) M or 0.94 zmol (S/N = 3). A novel CE-based liquid-phase binding noncompetitive enzyme immunoassay (CE-EIA) was developed. In this method, after the noncompetitive immunoreaction in liquid phase, the free enzyme (HRP)-labeled antibody (Ab*) and the bound enzyme-labeled complex (Ag-Ab*) were separated and then the system of HRP catalyzing H(2)O(2)/o-aminophenol (OAP) reaction was adopted. Prostate specific antigen (PSA), carcinoembryonic antigen (CEA), and human chorionic gonadotropin (HCG) in human serum samples were detected without any sample preparation, with the detection limits (S/N = 3) of 0.22, 0.17 and 0.30 ng/mL, respectively. This technique has been successfully applied to detect simultaneously PSA, CEA, and HCG in 12 min, upon adding these three antigens into human serum to simulate patient serum. It proves that the CE-EIA technique proposed could be developed into a sensitive and new method for simultaneous clinical assay of multianalytes.