Evaluation of a high-affinity QCM immunosensor using antibody fragmentation and 2-methacryloyloxyethyl phosphorylcholine (MPC) polymer

This study evaluated construction of a highly affinitive quartz crystal microbalance (QCM) immunosensor using anti-C-reactive protein (CRP) antibody and its fragments for CRP detection. Three types of antibody were immobilized on the surface of a QCM via covalent-bounding. Then affinity was evaluated through antigen-antibody binding between CRP and its antibody. Affinity between antigen-antibody was shown to be highest when anti-CRP F(ab')2-IgG antibody (70 microg/mL) was immobilized on the QCM. In case of anti-CRP F(ab')2-IgG antibody, affinity which was attributable to antigen-antibody binding was almost twice that of anti-CRP IgG antibody, which is used conventionally for QCM immunosensors. In addition, when it was treated with 2-methacryloyloxyethyl phosphorylcholine-co-n-butyl methacrylate, so-called MPC polymer, highly affinitive and selective immunosensing for CRP was achieved without non-specific binding from plasma proteins in human serum. When anti-CRP F(ab')2-IgG antibody was immobilized on the QCM, the detection limit and the linearity of CRP calibration curve were achieved at concentrations from 0.001 to 100 microg/dL even during investigation in serum samples. Experimental results verified the successful construction of a highly affinitive and selective QCM-immunosensor which was modified with anti-CRP F(ab')2-IgG antibody and MPC polymer.     

Novel electrical detection of label-free disease marker proteins using piezoresistive self-sensing micro-cantilevers

We report an electro-mechanical biosensor for electrical detection of proteins with disease markers using self-sensing piezoresistive micro-cantilevers. Electrical detection, via surface stress changes, of antigen-antibody (Ag-Ab) specific binding was accomplished through a direct nano-mechanical response of micro-fabricated self-sensing micro-cantilevers. A piezoresistive sensor measures the film resistance variation with respect to surface stress caused by biomolecules specific binding. When specific binding occurred on a functionalized Au surface, surface stress was induced throughout the cantilever, resulting in cantilever bending and resistance change of the piezoresistive layer. The cantilever biosensors were used for the detection of prostate specific antigen (PSA) and C-reactive proteins (CRP), which are a specific marker of prostate cancer and cardiac disease. From the above experiment, it was revealed that the sensor output voltage was proportional to the injected antigen concentration (without antigen, 10 ng/ml, 100 ng/ml, 1 microg/ml). PSA and CRP antibodies were found to be very specific for their antigens, respectively. This indicated that the self-sensing micro-cantilever approach is beneficial for detecting disease markers, and our piezoresistive micro-cantilever sensor system is applicable to miniaturized biosensor systems.     

Detection of progesterone in whole blood samples

The progesterone concentration in blood samples can be utilised as a marker for the diagnosis of early pregnancy, endocrinopathy and virilism. Here, we describe a method for progesterone detection and measurement in whole blood samples by a surface sensitive biosensor used in conjunction with an integrated optical grating coupler. This device determines refractive index changes near the biosensor's surface. Hence, biological species bound to a surface layer can be measured in real-time without any label. For the measurements, we have modified the indirect competitive immunoassay principle. The concentration of the progesterone antibody was kept at 1 microg/ml. Progesterone concentration was determined in buffer solution and whole blood in a range between 0.005 and 10 ng/ml. The detection limit was determined to be 3 pM. The relative standard deviation was calculated to be 3.5%.     

Determination of ractopamine in monkey plasma and swine serum by high-performance liquid chromatography with electrochemical detection

A high-performance liquid chromatographic (HPLC) method is described for the determination of ractopamine (LY031537) in monkey plasma and swine serum. Plasma or serum (0.5 ml) was diluted with phosphate buffer pH 7.0. Ractopamine was isolated from the plasma matrix using ion exchange on a polymeric carboxylic acid solid-phase extraction cartridge followed by partitioning with ethyl acetate. An isocratic HPLC method using electrochemical detection at +700 mV was used to separate and measure ractopamine in the purified extract in 6.5 min of run time. Standard area response was linear with respect to concentration of ractopamine over the range of 0.5 to 40 ng/ml. Validation data were collected using rhesus monkey plasma and swine serum. The method precision and accuracy were evaluated in the range 1.0 to 20 ng/ml using fortified samples of monkey plasma. The method limit of quantitation was estimated at 2 ng/ml as determined in monkey plasma.     

Aptamer-antibody on-chip sandwich immunoassay for detection of CRP in spiked serum

This study describes a RNA aptamer-based biochip with high affinity and specificity for C-reactive protein (CRP). CRP, which exists in concentrations of 1-3mg/l in the serum of healthy patients, has been identified as a reliable biomarker for inflammation and as a potential marker for sepsis and tissue necrosis. The CRP-specific aptamer was covalently immobilized with its 5'-end on ARChip Epoxy. The detection of bound CRP was carried out optically using labelled secondary antibody in a sandwich format. Assay conditions were optimized with respect to the CRP binding buffer (buffer system, pH and additives) and Ca(2+) concentration (10 mM). Moreover, two sandwich immunoassay formats were tested, the one using dye-labelled antibodies and the other with biotin-modified antibodies/Dy647-labelled streptavidin. In comparison with an antibody-based chip assay, the aptamer chip is superior in terms of CRP measuring range (10 microg/l to 100mg/l) in human serum whereas antibody-based chips result in superior data reproducibility (CV of 8-15%). In contrast to antibody chips, aptamer microarrays provide the unique potential of detecting CRP in serum samples of low risk patients (1-3mg/l) as well as high risk patients (>500 mg/l), furthermore elevated CRP levels (20-350 mg/l) with acceptable recovery (70-130%) by including only one serum sample dilution step (1:100) for the complete measuring range.     

Simultaneous detection of C-reactive protein and other cardiac markers in human plasma using micromosaic immunoassays and self-regulating microfluidic networks

We show a proof-of-concept in which we combine our previously published concepts of micromosaic immunoassays (microMIAs) with self-regulating microfluidic networks (microFNs) to detect C-reactive protein (CRP) and other cardiac markers such as myoglobin (Mb) and cardiac Troponin I (cTnI). The microFNs are microfabricated in Si, have a well-defined surface chemistry, and are affixed to a bibulous material so as to self-regulate the displacement of an aliquot of liquid through the microFNs using capillary forces. An open section of the channels of the microFNs is covered with a hydrophobic poly(dimethylsiloxane) (PDMS) slab that acts as the substrate for a solid-phase immunoassay. Here, individual assays are conducted using independent channels. These assays are "sequential": series of samples, reagents, and buffers are displaced one after the other over the PDMS surface, and, as these assays are conducted under "microfluidic" conditions, they are fast to perform, very economical in their use of reagents, extremely integrated, and yield high-quality signals. The combinatorial character of microMIAs is exploited to optimize the assay parameters for detecting CRP. In particular, we found it optimal to deposit the capture antibody for CRP on PDMS at a concentration between 20 and 500 microg ml(-1) in PBS in 1 min and to detect captured CRP in 2 min using a detection antibody having a concentration in PBS of 120 microg ml(-1). With this method, CRP is quantitatively detected within 10 min in one microliter of human plasma down to concentrations of 30 ng ml(-1), which suggests the possibility to detect CRP at clinically relevant concentrations for the management of coronary heart disease (CHD) and systemic inflammation.     

Contribution of anaphylatoxins to allergic inflammation in human lungs

The contribution of complement activation to allergic asthma remains controversial. In order to elucidate the role played by the complement split products, anaphylatoxins C3a and C5a, we evaluated their effects on production of cysteinyl-leukotrienes (cysLTs) by human lung fragments following an anaphylactic reaction. The lung tissues obtained from two patients with lung cancer showed C5aR-, C5L2R-, and C3aR-mRNA expression. When the chopped lung fragments passively sensitized with human IgE were incubated with anti-human IgE antibody, a significant amount of cysLTs was generated in comparison with the control (without anti-IgE antibody). The co-addition of human C5a at doses of 0.1 to 10 ng/ml to the anti-IgE antibody potentiated cysLT production. The response was bell-shaped in distribution, significant, and peaked at a C5a concentration of 1 ng/ml. The co-addition of human C3a up to 1,000 ng/ml seemed to increase cysLT production, but not to any significant extent. A novel C5a receptor complementary peptide, acetylated peptide A, dose-dependently inhibited cysLT production by the human lung fragments following the anaphylactic reaction in the presence of 1 ng/ml C5a. However, this peptide did not inhibit cysLT production in the presence of 100 ng/ml C3a. It is suggested that the anaphylatoxin C5a potentiates cysLT production in human lung tissues and contributes to allergic inflammation in disorders such as asthma, thus acetylated peptide A may be useful for suppressing allergic inflammation in the lungs.     

SPR-based immunosensor for the CRP detection--a new method to detect a well known protein

The c-reactive protein (CRP) is one of the significant human blood serum markers for inflammatory processes. The serum presence of this hepatic approximately 115 kDa protein of five identical subunits accompanies several diseases (e.g. CVD, inflammatory bowel diseases) and is nowadays detected by high-sensitivity ELISA assays in blood serum. To enable CRP detection in other matrices, an SPR-based (surface plasmon resonance) immunosensor for the CRP detection has been established. A linear detection range of 2-5 microg CRP per ml was found, using two different antiCRP antibodies (monoclonal, IgG) for CRP trapment and detection. Furthermore, the kinetic antibody association and dissociation constants of one antibody (antiCRP, clone C2) could be determined.     

Continuous-flow fluoro-immunosensor for paclitaxel measurement

A fluorescence-based continuous-flow immunosensor for sensitive, precise, accurate and fast determination of paclitaxel was developed. The sensor utilizes anti-paclitaxel antibody immobilized through its Fc region and crosslinked by dimethylpimelimidate to protein A attached covalently onto the silanized inner walls of a glass capillary column followed by saturation of the paclitaxel-binding sites with rhodamine-labeled paclitaxel. The assay is based on the displacement and detection downstream of the rhodamine-labeled paclitaxel, by a flow-through spectrofluorometer, as a result of the competition with paclitaxel introduced as a pulse into the stream of carrier buffer flowing through the system. The peak height of the fluorescence intensity profile of the displaced rhodamine-labeled paclitaxel was directly proportional to the concentration of paclitaxel applied and was a function of the carrier buffer flow rate. The sensitivity of the immunosensor response ranged from 0.31 relative fluorescence units (RFU)/ng/ml at a flow rate 0.1 ml/min to 0.52 RFU/ng/ml at 1 ml/min, while the lower detection limit ranged from 1 ng/ml at 0.1 ml/min to 4 ng/ml at 1 ml/min. The immunosensor response was very reproducible (RSD=4.8%; n=10) and linear up to 100 ng/ml. The assay time ranged from 2 min at 1 ml/min to 8 min at 0.1 ml/min. A technique developed to resaturate the antigen binding sites of the immobilized antibody with rhodamine-labeled paclitaxel was successful in regenerating the capillary column without affecting its performance, thus enhancing the economic viability of the immunosensor. The immunosensor was successfully applied for the determination of paclitaxel in human plasma.     

Indomethacin inhibits responses to all vasoconstrictors in the rat mesenteric vascular bed: Restoration of responses by prostaglandin E2

Indomethacin added to the perfusing buffer inhibited pressor responses to noradrenaline, angiotensin II, arginine vasopressin, histamine, serotonin, calcium ions and potassium ions in the male rat mesenteric vascular bed. For every pressor agent the indomethacin concentration which inhibited response amplitude by 50% was about 7 microg/ml (2.1 × 10^?5 M). With every pressor agent, prostaglandin (PG) E2 could restore normal responsiveness in indomethacin-blocked preparations even while the indomethacin was still present in the buffer. The concentration of PGE2 required was proportional to the concentration of indomethacin. Preparations completely inhibited by indomethacin needed about 5ng/ml PGE2 for complete restoration of normal responses. Aspirin and mefenamic acid could also inhibit responses to all pressor agents tested but with these drugs only a partial restoration could be achieved by PGE2.     

Capillary gas chromatographic determination of permethrin insecticide by transesterification

A sensitive method was developed to determine permethrin extracted from phosphate buffer and cattle plasma by potassium cyanide catalyzed transesterification of this insecticide with refluxing ethanol and detection of the resulting ethyl esters by capillary gas chromatography with an electron capture detector. With a reflux time of 2 h and with 3-phenoxybenzyl 2-chlorobenzoate as an internal standard, linear calibration curves from buffer (5–250 ng) and plasma (5–100 ng) were obtained. Precision and accuracy of the method were 15%. The limit of detection was approximately 2.5 ng/ml (cis) and 1 ng/ml (trans) from buffer. In cattle sprayed along the back at 2 mg/kg, the concentration of cis- and trans-permethrin in plasma was below the detection limit (5 ng/ml).     

Development of an Amperometric Immunosensor for the Determination of Methamphetamine in Urine

An amperometric immunosensor in the competitive format was developed for the detection of methamphetamine in urine. The electrodes consisted of carbon paste and Ag/AgCl screen printed on heat sealing film, respectively, and of monoclonal anti-methamphetamine antibody as the biorecognition element. Optimum amounts of methamphetamine- N -bovine serum albumin conjugate, monoclonal antibody and alkaline phosphatase-goat anti-mouse immunoglobulin G were 20, 10 ng and 1:10,000 dilution in 10 μl each, respectively. Methamphetamine was detected by the conversion of p -aminophenyl phosphate to electroactive p -aminophenol in the range of 200 ng/ml (lower detection limit) to 1,500 ng/ml methamphetamine in a nearly linear dose response curve. Within amphetamine concentrations of 0-1,500 ng/ml cross-reaction with methamphetamine was not observed. Working with urine samples spiked with methamphetamine, the accuracy and precision of the assay were 91.5-104.4% and 15.8-24.4%, respectively. This is a proof of concept in the clinical perspective for an amperometric immunosensor whose electrodes are amenable to future mass production.     

Patterned Immobilization of Antibodies within Roll-to-Roll Hot Embossed Polymeric Microfluidic Channels

This paper describes a method for the patterned immobilization of capture antibodies into a microfluidic platform fabricated by roll-to-roll (R2R) hot embossing on poly (methyl methacrylate) (PMMA). Covalent attachment of antibodies was achieved by two sequential inkjet printing steps. First, a polyethyleneimine (PEI) layer was deposited onto oxygen plasma activated PMMA foil and further cross-linked with glutaraldehyde (GA) to provide an amine-reactive aldehyde surface (PEI-GA). This step was followed by a second deposition of antibody by overprinting on the PEI-GA patterned PMMA foil. The PEI polymer ink was first formulated to ensure stable drop formation in inkjet printing and the printed films were characterized using atomic force microscopy (AFM) and X-ray photoelectron spectroscopy (XPS). Anti-CRP antibody was patterned on PMMA foil by the developed method and bonded permanently with R2R hot embossed PMMA microchannels by solvent bonding lamination. The functionality of the immobilized antibody inside the microfluidic channel was evaluated by fluorescence-based sandwich immunoassay for detection of C-reactive protein (CRP). The antibody-antigen assay exhibited a good level of linearity over the range of 10 ng/ml to 500 ng/ml (R² = 0.991) with a calculated detection limit of 5.2 ng/ml. The developed patterning method is straightforward, rapid and provides a versatile approach for creating multiple protein patterns in a single microfluidic channel for multiplexed immunoassays.     

Enzyme-linked immunosorbent assay for rat hepatic triglyceride lipase

A noncompetitive enzyme-linked immunosorbent assay to measure rat hepatic triglyceride lipase (H-TGL) was developed. Antibodies to rat H-TGL were purified from goat antisera by immunoadsorption on an H-TGL-Sepharose 4B column. Routinely, Immulon 2 Removawell strips were coated with the purified antibody overnight at 4 degrees C. After blocking the wells with bovine serum albumin (BSA) for 2 hr at room temperature, standards (0.85 ng/ml-13.1 ng/ml) or samples were added to the wells and were incubated with the bound anti-rat H-TGL overnight at 4 degrees C. The standards and samples had been pretreated with 5-20 mM SDS for 30 min at room temperature and were then diluted so that the final SDS concentration in the assay was 1 mM or less. The pretreatment with SDS was necessary to achieve maximal immunoreactivity. The sample incubation was followed by an overnight incubation at 4 degrees C with an anti-rat H-TGL-horseradish peroxidase conjugate. Rat H-TGL was detected by the color development after the addition of 0.4 mg/ml of o-phenylenediamine in 0.01% H2O2, 0.1 M citrate phosphate, pH 5.0. A linear relationship was obtained between absorbance at 490 nm and the amount of highly purified rat H-TGL used as a standard. Inclusion of 1 M NaCl in the assay buffer (1% BSA, 0.05% Tween 20, 10 mM phosphate, pH 7.4) during the sample and conjugate incubations minimized non-specific interactions. Recoveries of purified rat H-TGL added to a rat liver perfusate sample ranged from 98.6% to 103%.(ABSTRACT TRUNCATED AT 250 WORDS)     

High performance liquid chromatographic determination of azithromycin in serum using fluorescence detection and its application in human pharmacokinetic studies

A fast and sensitive high-performance liquid chromatographic method for determination of azithromycin in human serum using fluorescence detection was developed. The drug and an internal standard (clarithromycin) were extracted from serum using n-hexan and subjected to pre-column derivatization with 9-fluorenylmethyl chloroformate as labeling agent. Analysis was performed on a phenyl packing material column with sodium phosphate buffer containing 2 ml/l triethylamine (pH 5.9) and methanol (29:71, v/v) as the mobile phase. The standard curve was linear over the range of 10-500 ng/ml of azithromycin in human serum. The means between-days precision were from 13.3% (for 10 ng/ml) to 2% (500 ng/ml) and the within-day precision from 11.9 to 1.7% determined on spiked samples. The accuracy of the method was 100.7-107.2% (between days) and 100.3-107.8% (within day). The limit of quantification was 10 ng/ml. This method was applied in a bioequivalence study of four different azithromycin preparations in 12 healthy volunteers.     

Detection of insulin-antibody binding on a solid surface using imaging ellipsometry

Imaging ellipsometry (IE) was used to detect the binding of insulin to its antibody on a solid surface. The modification of a gold surface with 11-mecaptoundecanoic acid (11-MUA), the adsorption of protein G, and antibody immobilization onto the protein G layer were confirmed by surface plasmon resonance. Ellipsometric images and ellipsometric angles of the surface antibody were acquired using the IE system by off-null ellipsometry. Ellipsometric images of antigen binding to the antibody were acquired, and their mean optical intensities estimated. Changes in mean optical intensity indicated that the detection range for insulin was from 10 ng/ml to 100 microg/ml.     

Disposable amperometric immunosensor for the detection of polycyclic aromatic hydrocarbons (PAHs) using screen-printed electrodes

An amperometric immunosensor for polycyclic aromatic hydrocarbons (PAHs) was developed. The immunosensor was based on disposable screen-printed carbon electrodes. The coating antigen used was phenanthrene-9-carboxaldehyde coupled to bovine serum albumin (BSA) via adipic acid dihydrazide. Antibodies were monoclonal mouse anti-phenanthrene. The enzyme alkaline phosphatase (AP) was used in combination with the substrate p-aminophenyl phosphate (pAPP) for detection at +300 mV (vs. Ag/AgCl). Various assay types were compared. Good results were achieved with an indirect co-exposure competition assay with a LOD of 0.8 ng/ml (800 ppt) and an IC(50) of 7.1 ng/ml (7.1 ppb) for phenanthrene. An indirect competition assay could detect phenanthrene with a LOD of 2 ng/ml (IC(50): 15 ng/ml) and an indirect displacement assay with a LOD of 2 ng/ml (IC(50): 11 ng/ml) at a 5 microl surface coating of 8.8 microg/ml phenanthrene-BSA conjugate. A coating concentration of 2.2 microg/ml allowed detection with a LOD of 0.25 ng/ml (250 ppt) with the indirect competition assay. The influence of the coating concentration on the sensor performance was investigated. Cross-reactivities were tested for 16 important PAHs. Anthracene and chrysene showed strong cross-reactivity, whereas benzo[g,h,i]perylene and dibenzo[a,h]anthracene showed no cross-reactivity.     

Optimization of methanol biosynthesis from methane using Methylosinus trichosporium OB3b

Methylosinus trichosporium OB3b oxidized methane to methanol in the presence of a high concentration of Cu2+. Further oxidation of methanol to formaldehyde was prevented by adding 200 mM NaCl which acted as a methanol dehydrogenase H inhibitor. The bacterium, 0.6 mg dry cell ml(-1), in methane/air (1:4, v/v) at 25 degrees C in 12.9 mM phosphate buffer (pH 7) containing 20 mM sodium formate and 200 mM NaCl accumulated 7.7 mM methanol over 36 h.     

Amperometric determination of laminarin using immobilized beta-1,3-glucanase

A novel sensor system equipped with a reactor packed with beads containing immobilized beta-1,3-glucanase and glucose oxidase was developed for the amperometric determination of laminarin concentration. The proposed sensor system consisted of a reactor, an oxygen electrode, a flow cell, a pump, a buffer tank, and a recorder. The measurement was performed with a flow injection system. The optimum conditions for the sensor system were as follows: transfer solution, pH 7.0; 0.1 M phosphate buffer solution; flow rate, 0.15 ml/min; and sample volume, 50 microl. The response was correlated to the laminarin concentration. The calibration curve was obtained between 50 and 0.5 mg/ml laminarin (R2 = 0.994). The detection limit was 50 microg/ml laminarin (the ratio of signal/noise = 3). The relative standard deviations were 2.0% (n = 15) and 2.5% (n = 15) for 0.4 and 1.0 mg/ml laminarin solutions, respectively. One assay was completed within 5 min. Results suggest that the sensor can be used not only for the analysis of seaweed and health-enhancing foods but also for monitoring the initial pollution of the marine environment.     

Citrate, a possible precursor of astaxanthin in Phaffia rhodozyma: influence of varying levels of ammonium, phosphate and citrate in a chemically defined medium.

The influence of ammonium, phosphate and citrate on astaxanthin production by the yeast Phaffia rhodozyma was investigated. The astaxanthin content in cells and the final astaxanthin concentration increased upon reduction of ammonium from 61 mM to 12.9 mM (from 140 microg/g to 230 microg/g and 1.2 microg/ml to 2.3 microg/ml, respectively). Similarly, both the astaxanthin content and astaxanthin concentration increased by reducing phosphate from 4.8 mM to 0.65 mM (160 microg/g to 215 microg/g and 1.7 microg/ml to 2.4 microg/ml, respectively). Low concentrations of ammonium or phosphate also increased the fatty acid content in cells. By analogy with lipid synthesis in other oleaginous yeasts, an examination of the data for varying nitrogen and phosphate levels suggested that citrate could be the source of carbon for fatty acids and carotenoid synthesis. Supporting this possibility was the fact that supplementation of citrate in the medium at levels of 28 mM or higher notably increased the final pigment concentration and pigment content in cells. Increased carotenoid synthesis at low ammonium or phosphate levels, and stimulation by citrate were both paralleled by decreased protein synthesis. This suggested that restriction of protein synthesis could play an important role in carotenoid synthesis by P. rhodozyma.