Site-directed biotinylation of antibodies for controlled immobilization on solid surfaces

Site-directed biotinylation of antibodies at the hinge region was developed to immobilize antibodies in an oriented manner via biotin-streptavidin linkage. When intact antibody was biotinylated with maleimide-activated biotin after reduction, the reaction preferentially occurred at the sulfhydryl groups between the C(H1) and the C(L) domains and, provided that the reagent concentration exceeded a certain level, at those between the C(H2) and the C(H2) domains at the hinge. Based on this result, we devised an approach in which free maleimide was added to compete with the activated biotin for the preferential sites between the C(H1) and the C(L) domains. Since the smaller molecular size of free maleimide made it more accessible for the reaction than biotin, maleimide bound to the groups between the C(H1) and the C(L) domains first and thus conceded the groups between the C(H2) and the C(H2) domains to biotin under optimal conditions. In an alternative approach, selective biotinylation at the hinge was also achieved by reacting activated biotin with F(ab')(2) fragment prepared by enzymatic cleavage. This result indicated that, when free of Fc, the hinge structure, which contains the functional groups, of the fragment was open, allowing easy access to the biotin derivative from the aqueous medium. Both site-directed biotinylation preparations were tested as capture antibodies in sandwich-type immunoassays and compared to whole antibody randomly biotinylated at amino groups on the molecule. Preparations of both the intact antibody and the F(ab')(2) showed consistently enhanced detection capabilities that were 2.6 and 20 times that of the control, respectively.     

Immuno-rolling circle amplification using a multibinding fusion protein

Ultrasensitive detection of specific, low level proteins in body fluids is particularly challenging. Owing to the extreme sensitivity of the polymerase chain reaction step, the requirements for immuno-rolling circle amplification (immuno-RCA) are much more stringent than for conventional ELISA. Here, we report the development of a rolling circle amplification procedure using multibinding fusion protein to enhance signals of immuno-RCA to detect a cancer biomarker, α-fetoprotein (AFP). We successfully avoid the covalent linkage between antibody and DNA or antibody and biotin/streptavidin by introducing a new genetically engineered fusion protein which contains the C2 domain of protein G and biotin acceptor peptide (BAP) which is intended to maintain the biological activity of the antibody. The purified fusion protein retained its binding affinity with IgG and streptavidin after efficient expression in Escherichia coli. Immuno-RCA in combination with BAP-C2 specifically and sensitively detected AFP in a microplate format. Therefore, the sensitivity and convenient nature of this method should contribute to effective signal enhancement in immunoassays for cancer biomarker detection.     

Signal amplification in flow cytometry using biotin tyramine.

BACKGROUND: Catalysed reporter deposition (CARD) has been successfully used as a means of signal amplification in solid-phase immunoassays. The procedure relies on the use of horseradish peroxidase (HRP)-conjugated reagents--normally antibodies-in conjunction with substituted phenolic compounds such as biotin tyramine. The HRP catalyses deposition of biotin tyramine around the site of enzyme activity, and streptavidin-HRP can then be added to generate an amplified HRP signal. The possibility of using this technique for solution-phase amplifications has been suggested but not yet demonstrated. METHODS: This paper describes the application of CARD to signal enhancement in flow cytometry. The specific examples described here are those of anti-human CD4 and anti-human CD36 antibodies binding to either human lymphocytes or mixed mononuclear cells. RESULTS: Optimum biotin tyramine concentrations were evaluated, and a fivefold increase in signal was observed over standard detection of the anti-human CD4 antibody with anti-mouse-fluorescein isothiocyanate (FITC). In the example using the anti-CD36 antibody, the biotin tyramine treatment was repeated, resulting in an additional 2.5-fold signal amplification. CONCLUSIONS: The technique described in this report provides a method of amplifying the signals achieved by standard flow cytometry detection reagents.     

Concepts for the syntheses of biotinylated steroids. Part I: testosterone derivatives as immunochemical probes

We describe synthetic strategies for the biotinylation of testosterone (T) at positions 3, 7alpha, 17alpha, and 19. These T probes are able to mimic ligand binding and may provide for a better understanding of the biospecific interaction with steroid-binding proteins such as the androgen receptor, anti-steroid antibodies, or steroid-binding serum globulins. For the 7alpha- and 17alpha-derivatives, biotinyl-N-hydroxy-succinimide esters with different types of spacer chains were used. The 3-biotin hydrazone derivative was produced using N-(epsilon-biotinyl)-caproyl hydrazide, whereas for the 19-biotinylation, a biotinyl-1-N-diamino-3, 6-dioxaoctane-amide was applied. Key reaction for the biotinylation at position 3 is the oximation of the 3-oxo function. The 17alpha-position is accessible by the reaction of the 3-protected 4-androsten-17-epoxide with oxygen in the beta-position, followed by nucleophilic ring opening with cyanide which provides the 17alpha-cyanomethyl derivative. The key step is the regioselective ketal protection of the 3-oxo function of androst-4-ene-3,17-dione using a stannoxane catalyst. An alternative pathway for the insertion of biotin at the 19-position was established by the synthesis of 17beta-hydroxy-androst-4-en-3-one-19-yl carboxymethyl ether. After activation by the carbodiimide method, the compound reacts with aminoterminal biotin derivatives. The copper(I)-catalyzed 1,6 Michael addition of 17-acetoxy-6,7-dehydro-T leads to 7alpha-derivatives by use of omega-silyl protected hydroxylalkyl-modified Grignard reagents. A functional group interconversion using the Staudinger reaction transforms the azide function into a primary omega-amino group. The absolute configurations of the different biotinylated derivatives were investigated by (1)H NMR studies. For the 7alpha-biotinylated T series, additionally, an X-ray analysis proved the axial position of the spacer group. This results in a vertical orientation of the biotin moiety toward the alpha-face of the planar tetracyclic backbone. Thus, a negligible alteration of the original structure of the upper beta-face offers the feasibility of applying the 7alpha-derivatives as optimal immunochemical tracers in competitive immunoassays. Biotinylated T derivatives should be also suitable for ligand-binding studies to the androgen receptor or to sex hormone-binding globulin.     

Evaluation of biotin-dye conjugates for use in an HPLC assay to assess relative binding of biotin derivatives with avidin and streptavidin

In this investigation, studies were conducted to determine if size exclusion HPLC could be used to assess relative association rates (on-rates) and dissociation rates (off-rates) of biotin derivatives from avidin (Av) and streptavidin (SAv). For easy detection and quantification of biotin derivatives, molecules that can be detected by UV absorbance were conjugated to biotin. Concern that conjugation of the chromophoric moieties (dyes) might affect biotin binding with Av and SAv or might interact with the HPLC column led to evaluation of 10 biotin-dye conjugates. The dyes conjugated with biotin included dansyl, cyanocobalamin (CN-Cbl), coumarin 343, Lissamine-rhodamine, fluorescein, Cascade Blue, Lucifer Yellow, Oregon Green, tetramethylrhodamine, and Alexa Fluor 594. The biotin-dye conjugates were initially evaluated to determine their peak characteristics on two different size exclusion HPLC columns. Measurement of the percent of biotin-dye conjugate bound with Av in the presence of an equal quantity of biotin provided an association rate relative to biotin. All of the biotin-dyes tested had association rates within a factor of 3x (slower) that of biotin. The relative dissociation rate of biotin-dye conjugates was assessed by challenging the biotin conjugate bound to Av or SAv with a large excess of biotin. All of the initial biotin-dye conjugates tested bound Av and SAv tightly resulting in very slow dissociation rates. From the biotin-dye conjugates studied, biotin-CN-Cbl, 6b, was selected as the best conjugate for the HPLC assay. To test the HPLC assay, an iminobiotin-CN-Cbl conjugate, 13a, and a biotin-sarcosine-CN-Cbl conjugate, 13b, were synthesized. The fact that the iminobiotin does not bind with Av at physiological pH was easily detected in the size exclusion HPLC assay. The biotin-sarcosine-CN-Cbl conjugate was expected to have a more rapid dissociation rate than the other biotin-dye conjugates. This was confirmed in that HPLC assay. Although 13b bound tightly with Av in the absence of added biotin, it was completely released within 1 h when challenged by an excess of biotin. A slower dissociation of 13b was noted with SAv. The results obtained indicate that CN-Cbl conjugates of biotin derivatives can be used to determine relative on-rates and off-rates of biotin derivatives with Av and SAv. The studies also demonstrated that the biotin-CN-Cbl conjugate, 6b, can be used as a reference compound to compare on-rates and off-rates of nonchromophoric biotin derivatives.     

Reaginic antibody formation in the mouse. X. Possible role of suppressor T cells in transient IgE antibody responses.

The kinetics of IgE antibody response to alum-absorbed dinitrophenyl derivatives of ovalbumin (DNP-OA) was dependent on the dose of immunogen. A persistent IgE antibody response was obtained when high responder BDF1 mice were immunized with a minimum (0.05 microgram) dose. An increase of the immunogen to 10 microgram depressed IgE antibody responses but enhanced IgG antibody responses of both hapten and carrier specificities. Determination of T helper cell activity and B memory cells after immunization with different doses of antigen indicated that minimum immunogen was favorable for developing helper activity, whereas 1 to 10 microgram immunogen were more favorable than a 0.05-microgram dose for developing both IgE and IgG B memory cells. Nevertheless, neither helper T cells nor B memory cells in the spleen explains a transient IgE antibody response to a high (10 microgram) dose of DNP-OA. Evidence was obtained that immunization with 10 microgram OA induced generation of antigen-specific suppressor T cells, which were not detectable after immunization with 0.05 microgram OA. Transfer of suppressor T cells to DNP-OA-primed mice depressed both anti-hapten and anti-carrier IgE antibody responses. The results suggested strongly that suppressor T cells are involved in a transient IgE antibody response to a high-dose immunogen.     

Multiple labeling of antibodies with dye/DNA conjugate for sensitivity improvement in fluorescence immunoassay

Fluorescence immunoassays are widely used in life science research, medical diagnostics, and environmental monitoring due to the intrinsically high specificity, simplicity, and versatility of immunoassays, as well as the availability of a large variety of fluorescent labeling molecules. However, the sensitivity needs to be improved to meet the ever-increasing demand in the new proteomics era. Here, we report a simple method of attaching multiple fluorescent labels on an antibody with a dye/DNA conjugate to increase the immunoassay sensitivity. In the work, mouse IgG adsorbed on the surface of a 96-well plate was detected by its immunoreaction with biotinylated goat anti-mouse antibody. A 30 base pair double-stranded oligonucleotide terminated with biotin was attached to the antibody through the biotin/streptavidin/biotin interaction. Multiple labeling of the antibody was achieved after a fluorescent DNA probe was added into the solution and bound to the oligonucleotide at high ratios. By comparison with fluorescein-labeled streptavidin, the assay with the dye/DNA label produced up to 10-fold increase in fluorescence intensity, and consequently about 10-fold lower detection limit. The multiple labeling method uses readily available reagents, and is simple to implement. Further sensitivity improvement can be obtained by using longer DNAs for antibody labeling, which can incorporate more fluorescent dyes on each DNA.     

Site-specific photobiotinylation of antibodies, light chains, and immunoglobulin fragments

The high affinity of biotin for avidin has been exploited for many antibody-based assays. This requires that biotin is covalently conjugated to the antibody molecule. Several chemically reactive biotinylation reagents are commercially available. Except for the attachment via sulfhydryl groups in the immunoglobulin (Ig) molecule, these reagents attach biotin randomly to various amino acid side chains. Although non-site-specific modification of antibodies does not interfere in most immunoassays, specific application and sensitive antibodies would benefit from site-specific biotinylation. Here we describe an affinity biotinylation technique based on a photoreactive biotin reagent. The design of this reaction was possible from the discovery of a conserved binding site in the variable Ig domain for nucleotides and nucleosides. The described photoaffinity biotinylation offers the advantages of ease, convenience, and production of a reproducible and defined biotinylated antibody preparation.     

Generic liposome reagent for immunoassays

We have derivatized liposomes with antibodies by using avidin to crosslink biotinylated phospholipid molecules in the liposome membranes with biotinylated antibody molecules. A comparison of the biotin binding activity of avidin in solution and avidin associated with liposomes shows that avidin bound to biotinylated phospholipid in liposome membranes retains full binding activity for additional biotin molecules. Changes in the fluorescence spectrum of avidin have been used to characterize the binding capacity of avidin for biotin in solution, and change in intensity of light scattered due to aggregation of liposomes was used to measure the biotin binding activity of avidin associated with liposomes. Relative amounts of the biotinylated phospholipid, avidin, and biotinylated antibody have been optimized to produce stable liposomes which are derivatized with up to 1.7 nmol of antibody/mumol of lipid. These derivatized liposomes are highly reactive to immunospecific aggregation in the presence of multivalent antigen. A linear increase in light scattering was recorded between 1 and 10 pmol of antigen. This work shows that liposomes containing biotinylated phospholipid can be a successful generic reagent for immunoassays.     

Influence of hydrophobic and hydrophilic spacer-containing enzyme conjugates on functional parameters of steroid immunoassay

Introduction of spacers in coating steroid antigen or enzyme conjugates or immunogen is known to exert an influence on the sensitivity of steroid enzyme immunoassays. We have introduced hydrophobic and hydrophilic spacers between enzyme and steroid moieties and studied their effects on functional parameters of enzyme immunoassays, using cortisol as a model steroid. Cortisol-3-O-carboxymethyloxime-bovine serum albumin (F-3-O-CMO-BSA) was used as immunogen to raise the antiserum in New Zealand white rabbits. Three enzyme conjugates were prepared using cortisol-21-hemisuccinate (F-21-HS) as carboxylic derivative of cortisol and horseradish peroxidase (HRP) as an enzyme label. These were F-21-HS-HRP (without spacer), F-21-HS-adipic acid dihydrazide-HRP (adipic acid dihydrazide as hydrophobic spacer), and F-21-HS-urea-HRP (urea as hydrophilic spacer). The influence of hydrophobic and hydrophilic spacers on the functional parameters of assays such as lower detection limit, ED50, and specificity was studied with reference to enzyme conjugate without spacer. The results of the present investigation revealed that the presence of a hydrophilic spacer in the enzyme conjugate decreases the lower detection limit, decreases the ED50, and marginally improves the specificity of assays. These improvements in functional parameters of assays may be due to the decreased magnitude of the overall hydrophobic interactions existing between the spacer in enzyme conjugate and the antigen binding site of the antibody.     

Biotinylated granulocyte/macrophage colony-stimulating factor analogues: effect of linkage chemistry on activity and binding.

Biotinylated granulocyte/macrophage colony-stimulating factor (GM-CSF) analogues with different linkage chemistries and levels of conjugated biotin were synthesized by reacting recombinant human GM-CSF with sulfosuccinimidyl 6-biotinamidohexanoate or biotin hydrazide/1-[3-(dimethylamino)-propyl]-3-ethylcarbodiimide. These chemically reactive forms of biotin produced derivatives biotinylated at amine or carboxyl groups, respectively. Amine-derivatized analogues of 1.2 and 3.8 mol of biotin/mol of protein (N1-bGM-CSF and N4-bGM-CSF) and a carboxyl-modified analogue of 4.6 mol of biotin/mol of protein (C5-bGM-CSF) were synthesized. These analogues were compared to determine the effect of biotinylation on biological activity and GM-CSF receptor binding characteristics. The biotinylated proteins migrated with the same molecular weight as the native, unmodified protein as determined by SDS-PAGE and could be detected by Western blotting with alkaline phosphatase conjugated streptavidin, thus demonstrating the biotin linkage. All three analogues retained full agonist activity relative to the native protein (EC50 = 10-15 pM) when assayed for the stimulation of human bone marrow progenitor cell growth. Cell surface GM-CSF receptor binding was characterized by the binding of the analogues to human neutrophils, with detection by fluorescein-conjugated avidin and fluorescence-activated cell sorting. The N-bGM-CSFs demonstrated GM-CSF receptor specific binding that was displaceable by excess underivatized protein, with the detected fluorescence signal decreasing with increasing biotin to protein molar ratio. In contrast, C5-bGM-CSF binding above background fluorescence could not be detected using this system, suggesting that this derivative could bind to and activate the receptor, but not simultaneously bind fluorescein-conjugated avidin. The amine-derivatized biotinylated GM-CSF analogues retained biological activity, could specifically label cell surface receptors, and may be useful nonradioactive probes with which to study GM-CSF receptor cytochemistry and receptor modulation by flow cytometry.     

Novel monoclonal antibodies with specificity for chelated uranium(VI): isolation and binding properties

A derivative of 1,10-phenanthroline that binds to UO(2)(2+) with nanomolar affinity was found to be a very effective immunogen for the generation of antibodies directed toward chelated complexes of hexavalent uranium. This study describes the synthesis of 5-isothiocyanato-1,10-phenanthroline-2,9-dicarboxylic acid and its use in the generation and functional characterization of a group of monoclonal antibodies that recognize the most soluble and toxic form of uranium, the hexavalent uranyl ion (UO(2)(2+)). Three different monoclonal antibodies (8A11, 10A3, and 12F6) that recognize the 1:1 complex between UO(2)(2+) and 2,9-dicarboxy-1,10-phenanthroline (DCP) were produced by the injection of BALB/c mice with DCP-UO(2)(2+) covalently coupled to a carrier protein. Equilibrium dissociation constants for the binding of DCP-UO(2)(2+) to antibodies 8A11, 10A3, and 12F6 were 5.5, 2.4, and 0.9 nM, respectively. All three antibodies bound the metal-free DCP with roughly 1000-fold lower affinity. The second-order rate constants for the bimolecular association of each antibody with soluble DCP-UO(2)(2+) were in the range of 1 to 2 x 10(7) M(-1) s(-1). Binding studies conducted with structurally related chelators and 21 metal ions demonstrated that each of these three antibodies was highly specific for the soluble DCP-UO(2)(2+) complex. Detailed equilibrium binding studies conducted with three other derivatives of DCP, either complexed with UO(2)(2+) or metal-free, suggested that the antigen binding sites on the three antibodies have significant functional and structural similarities. Biomolecules that bind specifically to uranium will be at the heart of any new biotechnology developed to monitor and control uranium contamination. The three antibodies described herein possess sufficient affinity and specificity to support the development of immunoassays for hexavalent uranium in environmental and clinical samples.     

IgY antibodies of chicken do not bind staphylococcal binder of immunoglobulin (Sbi) from Staphylococcus aureus

The immunoglobulin (Ig) binding proteins of Staphylococcus aureus namely staphylococcal protein A (SpA) and staphylococcal binder of immunoglobulin (Sbi) are responsible for false positives during immunoassays. Avian IgY antibodies were reported to have no affinity to SpA and thus are safe for use in immunoassays. However, the behaviour of Sbi with IgY was not reported. The purpose of the present study is to evaluate the interactions between IgY antibodies and Sbi protein from different S. aureus strains. Initially, heterologous cloning and expression of complete sbi gene in Escherichia coli was undertaken. Recombinant Sbi protein was utilized to generate polyclonal anti-Sbi IgY and anti-Sbi antibodies in chicken and BALB/c mice respectively. Indirect ELISA and Western blotting were performed to evaluate the reactivity of anti-Sbi antibodies. Non-reducing PAGE followed by Western blotting and double-antibody sandwich dot-ELISA were performed to analyze the reactivity of IgY antibodies with recombinant Sbi and native Sbi from S. aureus strains. To avoid the possible interference of enzyme-conjugated secondary antibodies from mammalian sources, mouse anti-Sbi revealing antibodies were labeled with biotin so that streptavidin-HRP was used as developing reagent for chromogenic reaction. Sbi was highly immunogenic in chicken and mouse with antibody titers of 1:128,000 and 1:64,000 dilutions respectively. We observed that unimmunized IgY antibodies showed no affinity to either recombinant Sbi or native Sbi from S. aureus strains in Western blotting and double antibody sandwich ELISA. In view of these observations, we recommend that IgY antibodies are safe and free from false positives due to SpA and Sbi in immunoassays involving detection of S. aureus antigens/exotoxins.     

Development of highly sensitive and selective antibodies for the detection of the explosive pentaerythritol tetranitrate (PETN) by bioisosteric replacement

An improved antibody against the explosive pentaerythritol tetranitrate (PETN) was developed. The immunogen was designed by the concept of bioisosteric replacement, which led to an excellent polyclonal antibody with extreme selectivity and immunoassays of very good sensitivity. Compounds such as nitroglycerine, 2,4,6‐trinitrotoluene, 1,3,5‐trinitrobenzene, hexogen (RDX), 2,4,6‐trinitroaniline, 1,3‐dinitrobenzene, octogen (HMX), triacetone triperoxide, ammonium nitrate, 2,4,6‐trinitrophenol and nitrobenzene were tested for potential cross‐reactivity. The detection limit of a competitive enzyme‐linked immunosorbent assay was determined to be around 0.5 µg/l. The dynamic range of the assay was found to be between 1 and 1000 µg/l, covering a concentration range of three decades. This work shows the successful application of the bioisosteric concept in immunochemistry by exchange of a nitroester to a carbonate diester. The antiserum might be used for the development of quick tests, biosensors, microtitration plate immunoassays, microarrays and other analytical methods for the highly sensitive detection of PETN, an explosive frequently used by terrorists, exploiting the extreme difficulty of its detection. Copyright © 2015 John Wiley & Sons, Ltd.     

Biotin reagents for antibody pretargeting. 5. Additional studies of biotin conjugate design to provide biotinidase stability.

An investigation was conducted in which the stabilities of four structurally different biotin derivatives were assessed with regard to biotinamide bond hydrolysis by the enzyme biotinidase. The biotin derivatives studied contained an extra methylene in the valeric acid chain of biotin (i.e., homobiotin), or contained conjugated amino acids having hydroxymethylene, carboxylate, or acetate functionalities on a methylene alpha to the biotinamide bond. The biotinidase hydrolysis assay was conducted on biotin derivatives that were radioiodinated at high specific activity, and then subjected to diluted human serum at 37 degrees C for 2 h. After incubation, assessment of biotinamide bond hydrolysis by biotinidase was readily achieved by measuring the percentage of radioactivity that did not bind with avidin. As controls, an unsubstituted biotin derivative which is rapidly cleaved by biotinidase and an N-methyl-substituted biotin derivative which is stable to biotinidase cleavage were included in the study. The results indicate that increasing the distance from the biotin ring structure to the biotinamide bond by one methylene only decreases the rate of biotinidase cleavage, but does not block it. The data obtained also indicate that placing a hydroxymethylene, carboxylate, or acetate alpha to the biotinamide bond is effective in blocking the biotinamide hydrolysis reaction. These data, in combination with data previously obtained, which indicate that biotin derivatives containing hydroxymethylene or carboxylate moieties retain the slow dissociation rate of biotin from avidin and streptavidin [Wilbur, D. S., et al. (2000) Bioconjugate Chem. 11, 569-583], strongly support incorporation of these structural features into biotin derivatives being used for in vivo targeting applications.     

Biotin interference in immunoassays based on biotin-strept(avidin) chemistry: An emerging threat

Biotinylated antibodies/antigens are currently used in many immunoassay formats in clinical settings for diversified analytes and biomarkers to offer high detection selectivity and sensitivity. Biotin cannot be synthesized by mammals and must be taken as an essential supplement. Normal intake of biotin from various foods and milk causes no effect on the streptavidin/biotin-based immunoassays. However, overconsumption of biotin (daily doses 100–300 mg) poses a significant problem for immunoassays using the biotin-strept(avidin) pair. Biotin interferences are noted in immunoassays of thyroid markers, drugs, hormones, cancer markers, the biomarker for cardiac function (β–human chorionic gonadotropin), etc. The biotin level required for serious interference in test results varies significantly from test to test and cannot easily be predicted. Immunoassay manufacturers with technologies based on strept(avidin)-biotin binding must investigate the interference from biotin (up to at least 1200 ng/mL or 4.9 μM of biotin) in various formats. There is no concrete solution to circumvent the biotin interference encountered in blood samples, short of biotin removal. Considering the short half-life of biotin in the human body, patients must stop taking biotin supplements for >48 h before the test. However, this scenario is not considered for patients in emergency situations or those with biotinidase deficiency, mitochondrial metabolic disorders or multiple sclerosis. Apparently, a rapid analytical procedure for biotin is urgently needed to quantify for its interference in immunoassays using strep(avidin)-biotin chemistry. To date, there is no quick and reliable procedure for the detection of biotin at below nanomolar levels in blood and biological samples.Traditional lab-based techniques including HPLC/MS-MS cannot process an enormous number of public samples. Biosensors with high detection sensitivity, miniaturization, low cost, and multiplexing have the potential to address this issue.     

Biotin reagents for antibody pretargeting. 7. Investigation of chemically inert biotinidase blocking functionalities for synthetic utility

An investigation was conducted to evaluate three biotin derivatives designed to block biotinidase cleavage of the biotinamide bond. Difficulties in multistep syntheses of molecules containing tert-butyl protected hydroxymethyl and carboxylate groups positioned alpha to a biotinamide bond led to the investigation of alternative biotinidase-blocking moieties that do not require protection and deprotection. The targeted biotin derivatives contained serine-O-methyl ether, 2-aminobutyric acid, and valine moieties conjugated to the biotin carboxylate functionality. Those derivatives were further modified with a radioiodinated aryl ring to study their biotinidase stability. As a comparison to previously studied biotin derivatives, radioiodinated versions of biotin conjugates that contained (a) no biotinidase stabilizing group, (b) an N-methyl (sarcosine) stabilizing group, (c) an alpha-carboxylate (aspartate) stabilizing group and hydroxymethyl (serine) stabilizing group were also prepared and tested. When tested in human serum, all of the radioiodinated biotinidase-stabilized biotin derivatives had <1% biotinamide cleavage. Thus, under the conditions studied, all of the tested biotinidase blocking moieties appeared to be equal with regards to protection from biotinidase cleavage. Further testing of the biotin derivatives included a HPLC assay to determine their relative dissociation from recombinant streptavidin (rSAv). The dissociation of cyanocobalamin (CN-Cbl) adducts of biotin-serine-O-methyl ether, biotin-aminobutyric acid, and biotin-valine were compared with the CN-Cbl adduct of biotin-sarcosine. The relative rates of dissociation found were biotin-sarcosine-CN-Cbl > biotin-valine-CN-Cbl > biotin-serine-O-methyl ether-CN-Cbl > biotin-aminobutyric acid-CN-Cbl. Due to the high cost of serine-O-ethyl ether (and its N-Boc derivative) and difficulty in syntheses of its biotin derivatives, that adduct is not an attractive candidate for application to compounds used in vivo. The higher lipophilicity and diminished binding of the biotin-valine adduct also makes its use in vivo less attractive. Thus, the biotin-aminobutyric acid adduct appears to be the best candidate for incorporation into biotin derivatives used in vivo, as it simplifies the synthetic procedures, has low cost, and provides effective blocking of biotinidase while retaining high binding affinity.     

Construction of biotinylated peptide nanotubes for arranging proteins

Three kinds of biotinylated peptides with different linkers between biotin and beta-sheet peptide were designed and synthesized. The transmission electron microscopy revealed that the biotinylated peptides self-assembled to form a tubular structure with external diameter of ca. 60 nm and inner diameter of ca. 30 nm in an aqueous solution. The anti-biotin antibody effectively bound to biotin groups in the peptide nanotubes. The binding of antibody was regulated by not only the concentration of the protein in the solution but also the properties of biotinylated peptides forming the tubes. The antibody preferentially bound to the biotinylated peptide tubes assembled from the peptide with the most hydrophilic linker, suggesting that the surface properties and functions of the tubular structure were modulated and engineered by the design of the peptides.     

Estrogen conjugation and antibody binding interactions in surface plasmon resonance biosensing

Thioether-linked 3-mercaptopropionic acid derivatives of 17beta-estradiol and estrone were formed at the A-ring 4-position of the steroids by substitution of their 4-bromo analogues. The carboxylic acid terminal was used to link to an oligoethylene glycol (OEG) chain of 15-atoms in length. The OEG derivative of 17beta-estradiol was then in situ immobilized on a carboxymethylated dextran-coated gold sensor surface used to detect refractive index changes upon protein binding to the surface by surface plasmon propagation in a BIAcore surface plasmon resonance (SPR) instrument. Two other estradiol-OEG derivatives with Mannich reaction linkage at the 2-position and hemisuccinate linkage at the 3-position were also immobilized on the sensor surfaces for comparison. Binding performance between these immobilized different positional conjugates and monoclonal anti-estradiol antibody, raised from a 6-position conjugate, clearly demonstrated that both 2- and 4-conjugates, not conjugated through existing functional groups, gave strong antibody bindings, whereas the 3-conjugate through an existing functional group (3-OH) gave very little binding (2% compared to the 2-conjugate). Both 2- and 4-position conjugates were then applied in a highly sensitive estradiol SPR immunoassay with secondary antibody mediated signal enhancement that gave up to a 9.5-fold signal enhancement of primary antibody binding, and a detection limit of 25 pg/mL was achieved for a rapid and convenient flow-through immunoassay of estradiol.     

金霉素单克隆抗体的制备及检测方法的建立

采用羰基二咪唑法,将半抗原金霉素(AM)分别与牛血清白蛋白(BSA)和卵清蛋白(OVA)偶联制备金霉素免疫抗原AM-BSA和检测抗原AM-OVA,通过紫外光谱扫描检测偶联产物。采用细胞杂交瘤技术,制备抗金霉素单克隆抗体杂交瘤细胞株,建立了金霉素竞争ELISA检测方法,其灵敏度达到50ng/ml,且呈现良好的线性关系(r=0.9812),并且与其他抗生素无交叉反应。