Analysis of bovine immunoglobulin G in milk,colostrum and dietary supplements: a review

The immunoprotective properties of bovine milk immunoglobulin G (IgG) have led to a recent proliferation of nutritional products incorporating this protein. It has therefore become critical that reliable analytical techniques for the measurement of the IgG content in such products are available. This literature review surveys current methods of analysis for IgG, including separation-based or immuno-based concentration analysis. The review also discusses nutraceutical applications, regulatory issues, stability of IgG and the significance of primary reference material in IgG analysis.     

高效凝胶渗透色谱法检测马初乳中的免疫球蛋白G

建立了高效凝胶渗透色谱(HPGPC)测定马初乳中免疫球蛋白G(IgG)含量的方法。采用TOSOH TSK-G4000PWXL色谱柱(300 mm×7.8 mm, 5 μm)分离,以0.05 mol/L磷酸盐缓冲液(pH 6.9)为流动相,流速0.8 mL/min,检测波长280 nm,温度25 ℃。结果表明: 免疫球蛋白G的线性范围为0.2～3.0 g/L(r2=0.9995),平均回收率为97.47%,相对标准偏差(RSD)为1.22%,检出限(信噪比为10)为0.08 mg/L,方法的稳定性、精密度和重现性(以峰面积的RSD计)分别为2.86%、1.62%、1.82%。在优先满足小马哺育的前提下,采集新疆昭苏马场中两个不同品种马匹的马乳,于低温保存,在4 ℃和12000 r/min下30 min内离心两次,制得乳清,测得第一次泌乳时,IgG含量在2 h时高达35.0～50.0 g/L,而在72 h后,马乳中IgG含量迅速下降为2.0～4.0 g/L。该方法前处理过程简单、快速,方法简便、准确、重现性好、精密度高,适合作为马初乳中IgG的检测方法。     

普鲁士蓝增敏压电均相免疫分析法测定免疫球蛋白G

建立了普鲁士蓝增敏的均相压电免疫分析法,用于人尿液中免疫球蛋白G(IgG)的检测.本方法以蛋白质为种子,形成蛋白质-普鲁士蓝粒子,该粒子不断“滚雪球”增大,使得压电检测信号明显放大.在pH 4.0、盐浓度0.1 mol/L,5 mmol/L FeC13,2.5 mmol/L K4Fe(CN)6(K4Fe(CN)6与蛋白浓度比≥5000),FeCl3加样速度为0.5 μL/s的优化条件下,IgG的检测范围为0～625 nmol/L;检出限为2.4 nmol/L.α1-微球蛋白,β2-微球蛋白、尿微量白蛋白均无明显干扰.本方法用于临床样本的IgG测定,并与免疫比浊法进行对比,两者结果一致,表明本方法可行.     

Affinity liquid chromatography method for the quantification of immunoglobulin G in bovine colostrum powders

An affinity liquid chromatography (LC) method for the determination of bovine immunoglobulin G (IgG), using protein G coupled to an agarose support, was modified to permit the quantification of IgG in colostrum-based powders. Sample preparation included pH adjustment to 4.6 to precipitate casein and denatured whey protein. The method was applied to a range of colostrum powders and was compared with the alternative independent methods of surface plasmon resonance immunoassay, radial immunodiffusion, and reversed-phase LC. The method was rapid, and performance parameters included a working range of 10-150 microg IgG and precision relative standard deviation values of <10%.     

Competitive magnetic immunoassay for protein detection in thin channels

Functional magnetic nanoparticles are prepared and characterized for protein detection in a magnetic separation channel. This detection method is based on a competitive immunoassay of magnetic separation in thin channels using functional magnetic nanoparticles. We used protein A–IgG complex to demonstrate the feasibility. Free IgG and fixed number of IgG-labeled microparticles were used to compete for limited sites of protein A on the magnetic nanoparticles. Several experimental parameters were investigated for protein detection. The deposited percentages of IgG-labeled microparticles at various concentrations of free IgG were determined and used as a reference plot. The IgG concentration in a sample was deduced and determined based on the reference plot using the deposited percentage of IgG-labeled microparticles from the sample. The linear range of IgG detection was from 5.0 × 10⁻⁸ to 1.0 × 10⁻¹¹ M. The detection limit was 3.69 × 10⁻¹² M. The running time was less than 10 min. Selectivities were higher than 92% and the relative errors were less than 7%. The IgG concentration of serum was determined to be 3.6 mg ml⁻¹. This measurement differed by 8.3% from the ELISA measurement. The recoveries of IgG spiked in serum were found to be higher than 94%. This method can provide simple, fast, and selective analysis for protein detection and other immunoassay-related applications.     

Isolation of immunoglobulin G from bovine milk whey by poly(hydroxyethyl methacrylate)‐based anion‐exchange cryogel

Bovine milk whey contains several bioactive proteins such as α‐lactalbumin, β‐lactoglobulin, and immunoglobulin G (IgG). Chromatographic separation of these proteins has received much attention in the past few years. In this work, we provide a chromatographic method for the efficient isolation of IgG from bovine milk whey using a poly(2‐hydroxyethyl methacrylate)‐based anion‐exchange cryogel. The monolithic cryogel was prepared by grafting 2‐(dimethylamino) ethyl methacrylate onto the poly(2‐hydroxyethyl methacrylate)‐based cryogel matrix and then employed to separate IgG under various buffer pH and salt elution conditions. The results showed that the buffer pH and the salt concentration in the step elution have remarkable influences on the purity of IgG, while the IgG recovery depended mainly on the loading volume of whey for a given cryogel bed. High purity IgG (more than 95%) was obtained using the phosphate buffer with pH of 5.8 as the running buffer and the salt solution in as the elution liquid. With suitable loading volume of whey, the maximum IgG recovery of about 94% was observed. The present separation method is thus a potential choice for the isolation of high‐purity IgG from bovine milk whey.     

Two-color electrophoretic immunoassay for simultaneous measurement of insulin and glucagon content in islets of Langerhans

A multianalyte CE competitive immunoassay using two-color detection was developed to measure insulin and glucagon in islets of Langerhans. Insulin was quantified with FITC-insulin (Ins*) and anti-insulin antibodies (Ins Ab) and glucagon was quantified with Cy5-glucagon (Glu*) and anti-glucagon antibodies (Glu Ab). A 3 mW Ar(+) laser at 488 nm and a 25 mW laser diode at 635 nm were used to excite FITC and Cy5, respectively. Fluorescence was split with a half-silvered mirror and passed through a 520 +/- 20 nm bandpass filter or a 663 nm longpass filter for the detection of insulin and glucagon, respectively. The two-color detection format enabled independent quantitation of both analytes even with concentrations of insulin immunoassay reagents 20-fold higher than glucagon reagents. Simultaneous calibration curves were generated and used to determine insulin and glucagon content in islets of Langerhans. Amounts of insulin and glucagon were 56.6 +/- 3.2 and 1.0 +/- 0.5 ng/islet, respectively. LODs were 7 nM insulin and 3 nM glucagon. The assay will be applicable to fast monitoring of multiple peptides secreted from islets of Langerhans and can be applied to other systems for the quantitation of multiple analytes with large differences in concentrations.     

Use of cellulose derivatives on gold surfaces for reduced nonspecific adsorption of immunoglobulin G

This study addresses the design of protein-repellent gold surfaces using hydroxyethyl- and ethyl(hydroxyethyl) cellulose (HEC and EHEC) and hydrophobically modified analogues of these polymers (HM-HEC and HM-EHEC). Adsorption behavior of the protein immunoglobulin G (IgG) onto pure gold and gold surfaces coated with cellulose polymers was investigated and described by quartz crystal microbalance with dissipation monitoring (QCM-D), atomic force microscopy (AFM) and contact angle measurements (CAM). Surfaces coated with the hydrophobically modified cellulose derivatives were found to significantly outperform a reference poly(ethylene glycol) (PEG) coating, which in turn prevented 90% of non-specific protein adsorption as compared to adsorption onto pure gold. HEC and EHEC prevented around 30% and 60% of the IgG adsorption observed on pure gold, while HM-HEC and HM-EHEC were both found to completely hinder biofouling when deposited on the gold substrates. Adsorption behavior of IgG has been discussed in terms of polymer surface coverage and roughness of the applied surfaces, together with hydrophobic interactions between protein and gold, and also polymer-protein interactions.     

Aflatoxin M1 determination in raw milk using a flow-injection immunoassay system

A flow-injection immunoassay (FI-IA) method with amperometric detection for aflatoxin M1 (AFM1) determination in milk has been developed. The first step consists in an incubation of the sample containing AFM1 (Ag) with fixed amounts of anti-AFM1 antibody (Ab) and of the tracer (Ag^*, AFM1 covalently coupled to HRP) until equilibrium is reached. In this mixture a competition occurs between Ag and Ag^* for the Ab. The mixture is then injected into a flow system where the separation of the free tracer (Ag^*) and the antibody-bound tracer (AbAg^*) is performed in a column with immobilized Protein G. The antigen–antibody complexes are retained in the column due to the high affinity of the Protein G for the antibody. The activity of the eluted enzyme label is then amperometrically detected.

The immunoassay was optimised relative to conditions for antibody–antigen incubation (pH, incubation time, ionic strength, temperature) and enzymatic label detection. This method showed a dynamic concentration range between 20 and 500 ppt AFM1, a low detection limit (11 ppt), good reproducibility (RSD < 8%) and a high throughput (six samples per hour in triplicate). Different milk samples were analysed and the results were in good agreement with those obtained by HPLC using the AOAC 2000.08 method.     

Development and validation of a sensitive enzyme immunoassay for surveillance of Cry1Ab toxin in bovine blood plasma of cows fed Bt-maize (MON810)

The increasing global adoption of genetically modified (GM) plant derivatives in animal feed has provoked a strong demand for an appropriate detection method to evaluate the existence of transgenic protein in animal tissues and animal by-products derived from GM plant fed animals. A highly specific and sensitive sandwich enzyme immunoassay for the surveillance of transgenic Cry1Ab protein from Bt-maize in the blood plasma of cows fed on Bt-maize was developed and validated according to the criteria of EU-Decision 2002/657/EC. The sandwich assay is based on immuno-affinity purified polyclonal antibody raised against Cry1Ab protein in rabbits. Native and biotinylated forms of this antibody served as capture antibody and detection antibody for the ELISA, respectively. Streptavidin-horseradish peroxidase conjugate and TMB substrate provided the means for enzymatic colour development.The immunoassay allowed Cry1Ab protein determination in bovine blood plasma in an analytical range of 0.4-100 ng mL⁻¹ with a decision limit (CCα) of 1.5 ng mL⁻¹ and detection capability (CCβ) of 2.3 ng mL⁻¹. Recoveries ranged from 89 to 106% (mean value of 98%) in spiked plasma.In total, 20 plasma samples from cows (n = 7) fed non-transgenic maize and 24 samples from cows (n = 8) fed transgenic maize (collected before and, after 1 and 2 months of feeding) were investigated for the presence of the Cry1Ab protein. There was no difference amongst both groups (all the samples were below 1.5 ng mL⁻¹; CCα). No plasma sample was positive for the presence of the Cry1Ab protein at CCα and CCβ of the assay.     

Micro-plate chemiluminescence enzyme immunoassay for aflatoxin B1 in agricultural products

In this work, a micro-plate chemiluminescence enzyme immunoassay by antibody-coated for the determination of aflatoxin B1 (AFB1) in agricultural products has been established. Aflatoxin B1 antibody (AFB1-Ab) was adsorbed physically on polystyrene micro-plate hole as solid phase antibody, which took place immunity-reaction between antigen and antibody with AFB1 standard solution or samples by direct competition. Luminol-hydrogen peroxide chemiluminescence system catalyzed by horseradish peroxidase (HRP) with p-iodophenol enhancement was used as signal detecting system. The effects of several factors, including composition and pH of coating solution, dilution ratio and amount of antibody and enzyme labeled antigen, time of antibody-coating, incubation and chemiluminescence reaction, and other relevant variables upon the immunoasaay were studied and optimized. The linear range of proposed method for AFB1 was 0.05-10.0 ng g⁻¹ with a correlative coefficient of −0.9997. The sensitivity of the proposed method was 0.01 ng g⁻¹. The RSDs of intra- and inter-assay were less than 12.2% and 10.0%, respectively. This method has been successfully applied to the evaluation of AFB1 in agricultural products with recoveries of 79.8%, 101.9% and 115.4% for low, middle and high concentration samples, respectively. It shows a good correlation with the commercial available ELISA kit for AFB1 with correlative coefficient of 0.9098 indicating that the established CLEIA method can be used to determine AFB1 in real samples.     

Screening for testosterone, methyltestosterone, 19-nortestosterone residues and their metabolites in bovine urine with enzyme-linked immunosorbent assay (ELISA)

This work reports on the development of rapid enzyme-linked immunosorbent assay for testosterone, methyltestosterone, 19-nortestosterone and their metabolites in real samples of bovine urine. The assays were based on the competition between an immobilised testosterone-BSA conjugate and the analyte for corresponding antibodies, followed by the use of secondary anti-species (α-IgG-HRP) to determine the degree of competition. Urine samples were analysed after 10-fold dilution with the buffer, omitting extraction and hydrolysis. The limits of detection calculated for the original sample were ca. 74, 266 and 131 pg ml⁻¹ (ppt) for testosterone, methyltestosterone and 19-nortestosterone, respectively. In particular, testosterone and methyltestosterone assays offer the advantage to pick up both parent compounds and their major metabolites due to the high cross-reactivity pattern with corresponding antibody used in each assay. The concentration in bovine urine detected by developed method does indicate 19-nortestosterone administration to heifers. The developed assays were applied to urine samples of heifers treated with above androgens.     

对毛细管电泳法和亲合液相色谱法测定保健食品中免疫球蛋白G的改进

对现行的毛细管电泳法和亲合液相色谱法测定保健食品中免疫球蛋白G(IgG)的方法作了两方面的改进:①在样品的预处理方面,采用加入稀乙酸使酪蛋白沉淀析出并用离心法预以分离;②在亲合液相色谱测定方法方面,用内径较大(0.51mm)的不锈钢管道系统代替了原有的系统,使系统的反压值下降至276kPa,达到与免疫亲合色谱柱的耐压最大值300kPa相匹配。改进后的方法的线性范围在200～2000mg·L~(-1)之间。在分别加入100,300mg·L~(-1)标准IgG溶液的浓度水平上做了回收试验,测得方法的回收率和相对标准偏差(n=5)依次为112%和97%以及4.2%和3.9%。13种保健食品样品中IgG含量的亲合液相色谱法测定结果与毛细管电泳法的测定结果相一致。     

Boron‐chelating fluorescent probe (BOPB) in the red region combined with CE‐LIF for the detection of NO in mice liver

Precise measurement of nitric oxide (NO) is of great importance to understand the function of NO in liver and the mechanism of liver injury. 8‐(3’,4’‐Diamino phenyl)‐3,5‐(2‐hydroxyphenyl)‐dimethylene pyrrole (BOPB), a fluorescent probe in the red region (>600 nm) newly developed in our group, has good photostability and excitation/emission wavelength of 622/643 nm matching well with commercial 635 nm semiconductor laser of CE‐LIF detection. Therefore, BOPB was used in CE‐LIF for the determination of NO in mice liver. Both derivatization and separation conditions were optimized. Derivatization reaction of BOPB and NO was carried out in pH 7.4 PBS buffer at 35°C for 12 min and the separation of NO derivative of BOPB (BOPB‐T) was achieved within 7.0 min in pH 9.0 running buffer containing 15 mM H₃BO₃–NaOH and 15 mM SDS. Good linearity was found in the range of 1.0 × 10^?9–5.0 × 10^?7 M with the LOD of 0.02 nM. The proposed method was applied to the analysis of NO in real samples, and NO concentration was obviously increased in acute liver injury of mice. Compared to existing derivatization‐based CE‐LIF methods for NO, this method has lower LOD and less background interference owing to detection wavelength of BOPB in the red region.     

Homogeneous immunoassay for soy protein determination in food samples using gold nanoparticles as labels and light scattering detection

A homogeneous aggregation immunoassay involving the use of gold nanoparticles (AuNPs) and light scattering detection is described for soy protein determination in food samples. AuNPs act as enhancers of the precipitate that appears when the antigen-antibody complex is formed. The AuNPs-antibody conjugate has been synthesized by physical adsorption of polyclonal anti-soy protein antibodies onto the surface of commercial AuNPs with a nominal diameter of 20 nm. The direct assay is based on the reaction of the conjugate with soy protein, which reaches the equilibrium in about 10 min, and the measurement of the light scattering intensity at 530 nm, which is proportional to the analyte concentration. The dynamic range of the calibration graph is 0.2-20 μg mL⁻¹ and the detection limit value is 65 ng mL⁻¹. The precision, expressed as relative standard deviation, has been assayed at two different concentrations, 0.2 and 1 μg mL⁻¹, giving values ranging from 4.7 to 5.9%. The interference of other proteins has been assayed. The usefulness of this method has been shown by its application to the analysis of fruit juice and “nonmilk yoghourt” samples. The results obtained with the proposed method are similar to those obtained by using a commercial ELISA kit, but the assay time is significantly shorter and the detection limit was about 10 times lower. A recovery study has been also performed, giving values in the range of 84.0-119.3%.     

High sensitivity chemiluminescence enzyme immunoassay for detecting staphylococcal enterotoxin A in multi-matrices

In this study, detection of staphylococcal enterotoxin A (SEA) in multi-matrices using a highly sensitive and specific microplate chemiluminescence enzyme immunoassay (CLEIA) has been established. A pair of monoclonal antibodies (mAbs) was selected from 37 anti-SEA mAbs by pairwise analysis, and the experimental conditions of the CLEIA were optimized. This CLEIA exhibited high performance with a wide dynamic range from 6.4 pg mL⁻¹ to 1600 pg mL⁻¹, and the measured low limit of detection (LOD) was 3.2 pg mL⁻¹. No cross-reactivity was observed when this method was applied to test SEB, SEC1, and SED. It has also been successfully applied for analyzing SEA in a variety of environmental, biological, and clinical matrices, such as sewage, tap water, river water, roast beef, peanut butter, cured ham, 10% nonfat dry milk, milk, orange juice, human urine, and serum. Thus, the highly sensitive and SEA-specific CLEIA should make it attractive for quantifying SEA in public health and diagnosis in near future.     

Application of a flow type quartz crystal microbalance immunosensor for real time determination of cattle bovine ephemeral fever virus in liquid

Bovine ephemeral fever (BEF) is a viral disease of cattle. A flow type quartz crystal microbalance (QCM) immunosensor was developed for the real time determination BEF virus (BEFV) that is suitable for clinical point-case diagnosis. Self-assembled monolayer (SAM) of thiols and sulphides by the cystamine–glutaraldehyde method was used for the immobilization of BEFV monoclonal antibody on the gold surface of a quartz crystal microbalance (QCM). A positive correlation was found between the virus concentration and frequency changes (R² = 0.9962) on this QCM system. The reproducible rates for the 50 and 10 μg/mL samples were 4 and 13.9%, respectively. There was no interference from non-specifically adsorbed phage. Using this flow type QCM immunosensor, BEFV could specifically be detected with sensitivity comparable to a conventional enzyme-linked immunosorbent assay (ELISA). The measurement could be obtained directly, within several minutes, rather than hours as required visualizing the results of ELISA. In addition, the observation of reproducible and constant changes after successive additions of BEFV suggests that a QCM immunosensor in a flow cell could be developed for automated or continuous real time operation.     

Metal-organic framework functionalized with deep eutectic solvent for solid-phase extraction of Rhodamine 6G in water and cosmetic products

An NH₂-MIL-53(Al)-DES(ChCl-Urea) nanocomposite was synthesized for extraction and determination of Rhodamine (Rh) 6G from environmental and cosmetic samples. The deep eutectic solvent (DES) was prepared by mixing choline chloride and urea in a mole ratio of 1:2. NH₂-MIL-53(Al)-DES(ChCl-Urea) nanocomposite was synthesized using the impregnation method at a ratio of 60:40 (w/w). The optimum conditions were determined after NH₂-MIL-53(Al)-DES(ChCl-Urea) characterization was performed. The optimum conditions were determined as pH 8, adsorbent amount of 15 mg, total adsorption-desorption time of 6 min, and enrichment factor of 20. The recovery values of the solid-phase extraction method for water and cosmetic samples under optimum conditions were between 95% and 106%. NH₂-MIL-53(Al)-DES(ChCl-Urea) nanocomposite was an economically advantageous adsorbent because of its reusability of 15 times. All analyses were performed using the ultraviolet-visible spectrophotometer. The linear range, limit of detection, and limit of quantification of the method were 100–1000, 9.80, and 32.68 μg/L, respectively. The obtained results showed that the synthesized nanocomposite is a suitable adsorbent for the determination of Rh 6G in water and cosmetic samples. The real sample applications were verified with the high-performance liquid chromatography system.     

Application of conjoint liquid chromatography with monolithic disks for the simultaneous determination of immunoglobulin G and other proteins present in a cell culture medium

The aim of this study was to develop a chromatographic method, as a substitute for enzyme-linked immunosorbent assays, for the rapid and simultaneous detection of IgG, insulin, and transferrin present in a cell culture medium. Conjoint liquid chromatography (conjoint LC) using monolithic disks was applied for this purpose. An anion-exchange disk was combined with a Protein G affinity disk in a preparative HPLC system. IgG bound to the Protein G disk, whereas transferrin and insulin were captured on the quaternary ammonium (QA) disk. Using this method, it was possible to simultaneously determine the concentrations of IgG, transferrin, and insulin in the cell culture medium. Thus, conjoint LC could be used for the rapid and simultaneous detection of different proteins present in a cell culture medium.     

A multidimensional high performance liquid chromatography method coupled with amperometric detection using a boron-doped diamond electrode for the simultaneous determination of sulfamethoxazole and trimethoprim in bovine milk

The development and validation of a multidimensional HPLC method using an on-line clean-up column coupled with amperometric detection employing a boron-doped diamond (BDD) electrode for the simultaneous determination of sulfamethoxazole (SMX) and trimethoprim (TMP) in bovine milk are presented. Aliquots of pre-prepared skim-milk samples were directly injected into a RAM octyl-BSA column in order to remove proteins that otherwise would interfere with milk analysis. After exclusion of the milk proteins, SMX and TMP were transferred to the analytical column (an octyl column) and the separation of the compounds from one another and from other endogenous milk components was achieved. SMX and TMP were detected amperometrically at 1.25 V vs. Ag/AgCl (3.0 mol L⁻¹ KCl). Results with good linearity in the concentration ranges 50-800 and 25-400 μg L⁻¹ for SMX and TMP, respectively, were obtained and no fouling of the BDD electrode was observed within the experimental period of several hours. The intra- and inter-assay coefficients of variation were less than 10% for both drugs and the obtained LOD values for SMX and TMP were 25.0 and 15.0 μg L⁻¹, respectively.