Determination of the affinity of high- and low-affinity antibodies, which are in a mixture, using ELISA and the method of non-linear regression

It was shown that application of the method of non-linear regression for the solution of the equation, which relates the fraction of free antibodies in a mixture and antigen concentrations, allows to determine the affinity constants for two antibodies in a mixture. Such method is easier and more accurate than the suggested by us earlier method, which use the numerical solution of the appropriate four equations, that describe the relations between the experimental data obtained by ELISA, competing antigen concentration, and values of antibody affinity. In addition, the proposed method allows using much less quantity of experimental measurements without diminishing of the accuracy for the affinity constants evaluations.     

Analysis of some "insoluble" problems of determining the binding parameters of ligand-receptor interaction and methods of their solving

Some problems of the estimation of the parameters of ligand-receptor interaction (affinity, rate constants, valency, etc.) were considered. It was demonstrated that not only the Scatchard plot but also Klotz plot could be used for determining the parameters of ligand-receptor interaction for two types of binding sites of different affinity. A new approach and new coordinate systems for the estimation of the parameters of ligand-receptor interaction were suggested. It was shown that for the estimation of the affinity of putative monovalent antibodies by ELISA various equations, which are more precise and convenient than the Friguet et al. equations, could be obtained by the transformation of mass action law equation. The problem solution for the estimation by ELISA the affinity of two types of bivalent antibodies with different affinity and their concentrations for the case of the mixture of these antibodies was also suggested. The application of the proposed coordinate of dilution allows to solve the problem of determination of the parameters of ligand-receptor interaction (including antigen-antibody system) for the pre-existing ligand-receptor mixture without their preliminary separation and purification. This approach is especially important for the cases when the receptor is not stable enough to be isolated in the intact form from this mixture. It was shown that the well-known phenomenon of the prozone often observed under the titration of serum antibodies by the method of agglutination may get a mathematical explanation. Analytical solution of the problem of determining the velocity constant and the amount of the end product of the first order irreversible and reversible reaction kinetics was suggested, despite the fact that the process is described by the system of irrational equations. Mehods of asymptotic solution of transcendental irrational equations which describe the dynamics of reactions which mechanisms are subject to the so-called heterogeneous, successive, or competitive models have been considered. These methods permit the finding of the reaction rate constants and the amount of the end product, if the kinetics of the transformation of either initial, or end product of the reaction is known.     

Determination of antibody affinity by ELISA. Theory

New approaches for the measurement of antibody affinity by ELISA are suggested and considered theoretically. It was shown that not only more precise and more convenient in comparison to that suggested earlier, but also more informative graphical representation of the experimental data in the appropriate coordinate could be used for evaluation of antibody affinity. The following cases were considered: (i) determination of antibody affinity for one kind of univalent antibodies, (ii) determination of antibody affinity for one kind of bivalent antibodies, (iii) determination of antibody affinity for two kinds of univalent antibodies, which are in a mixture, and (iv) determination of antibody affinity for two kinds of bivalent antibodies, which are in a mixture. Advantages and disadvantages of the different approaches are discussed.     

Determination of antibody affinity using ELISA

Some new approaches for the determination of antibody affinity were proposed. It was pointed out that the proposed methods are more simple, convenient, precise, and informative than that of Friguet et al. (1985). The approach that allows determination of two-valence antibodies affinity was also proposed. The example of two monovalent antibodies presented in the examined mixture was considered. It allows to estimate the affinity of both kinds of antibodies as well as to determine their concentration relations in the mixture.     

Identification of agonistic and antagonistic antibodies against gp190, the leukemia inhibitory factor receptor, reveals distinct roles for its two cytokine-binding domains

The receptor for the cytokine leukemia inhibitory factor (LIF) associates the low affinity binding component gp190 and the high affinity converter gp130, both of which are members of the family of hematopoietic receptors characterized by the cytokine receptor homology (CRH) domain. The gp190 is among the very few members of this large family to contain two CRH domains. The membrane-distal one (herein called D1) is followed by an Ig-like domain, a membrane-proximal CRH domain called D2, and three type III fibronectin repeats. We raised a series of monoclonal antibodies specific for the human gp190. Among them was the blocking antibody 1C7, which was directed against the D1Ig region and which impaired the binding of LIF to gp190. Another blocking antibody, called 12D3, was directed against domain D2 and interfered with the reconstitution of the high affinity receptor complex, independently of the interaction between LIF and gp190. The blocking effect of these two antibodies concerned four cytokines known to use gp190, i.e. LIF, oncostatin M, ciliary neurotrophic factor, and cardiotrophin-1. Among 23 antibodies tested alone or in combination (two anti-D2 and 21 anti-D1Ig), only the mixture of the two anti-D2 antibodies displayed agonistic activity in the absence of the cytokine. Taken together, these results demonstrate that the two CRH domains of gp190 play different functions in ligand binding and receptor activation.     

A novel redox method for rapid production of functional bi-specific antibodies for use in early pilot studies

We demonstrate here a rapid alternative method for the production of functional bi-specific antibodies using the mild reducing agent 2-mercaptoethanesulfonic acid sodium salt (MESNA). Following reduction of a mixture of two monoclonal antibodies with MESNA to break inter heavy chain bonds, this solution is dialysed under oxidising conditions and antibodies are allowed to reform. During this reaction a mixture of antibodies is formed, including parental antibodies and bi-specific antibody. Bi-specific antibodies are purified over two sequential affinity columns. Following purification, bi-specificity of antibodies is determined in enzyme-linked immunosorbent assays and by flow cytometry. Using this redox method we have been successful in producing hybrid and same-species bi-specific antibodies in a time frame of 6-10 working days, making this production method a time saving alternative to the time-consuming traditional heterohybridoma technology for the production of bi-specific antibodies for use in early pilot studies. The use of both rat and mouse IgG antibodies forming a rat/mouse bi-specific antibody as well as producing a pure mouse bi-specific antibody and a pure rat bi-specific antibody demonstrates the flexibility of this production method.     

Affinity chromatography and co-chromatography of bispecific monoclonal antibody immunoconjugates

Bispecific monoclonal antibodies (bsMAb) are unique macromolecules functioning as cross-linkers with two different predetermined binding specificities. A wide range of potential applications employing these probes can be envisioned in immunodiagnostics and immunotherapy. One of the major limitations for the use of bsMAbs produced by hybrid-hybridomas is the production of parental monospecific antibodies along with bsMAbs. Hence, the purification of desired bsMAb free from both parental mAbs and other possible promiscuous combinations is essential. Purification of antibodies is the single greatest obstacle in obtaining an immunoprobe with high specific activity. This review describes the affinity purification and affinity co-purification techniques for the separation of bsMAb as a pre-formed immune complex or as a pure species. The use of immobilized ligands is the basis of affinity chromatography. Affinity chromatography can be classified into three different categories depending on the properties of the immobilized ligand. The ligand-specific affinity chromatography is based on the extremely specific immobilized ligand, directed towards the protein or antibody of interest. Using a dual, sequential affinity chromatography, bsMAb can be purified from a mixture of bispecific and monospecific monoclonal antibodies with a ligand specific for each antibody. Thiophilic adsorption is a group-specific affinity method that can be successfully used to separate monospecific forms from bispecific species by salt gradient elution. Affinity co-chromatography offers a convenient one-step method for purification of bulk amounts of immunoconjugates for diagnostic applications by exploiting several dye-ligands known to bind certain enzymes. The same method could be potentially used for quality control and quality assurance purposes in industrial biotechnology.     

Analysis of the discrete structure of antibodies by affinity and antigen-binding capacity

Immune sera are a mixture of different groups of antibodies belonging to the same class of immunoglobulins, but differing in their affinity. The graphic analysis and numerical methods permit the determination of the size and affinity of each group of antibodies. Differences in affinity are manifested as differences in antigen-binding capacity. The antigen-binding capacity index, calculated as the product of the association constant multiplied by the concentration of the active centers of antibodies, is proposed.     

A new method for the evaluation of antibody affinity based on serial dilutions of studied antibody-antigen mixture

A new method for the evaluation of the affinity of bivalent antibodies were suggested. This method is based on the previously published by the author the idea of using so-called coordinates of dilutions. It was shown that the suggested method allows to evaluate the affinity of antibodies with high accuracy using this simple approach. It is supposed that at some conditions the suggested method could have substantial advantages in comparison to the traditional methods. This method allows to analyze situations when antibodies are already in a mixture with antigen, for example in the bloodstream in the case of infections or autoimmune diseases. The method provides useful approach for the evaluation not only antibody affinity, but also the concentration of circulated antigen.     

Clustered H chain somatic mutations shared by anti-p-azophenylarsonate antibodies confer enhanced affinity and ablate the cross-reactive idiotype

A cluster of four consecutive CDR2 somatic mutations are shared by the VH regions of two independently isolated hybridoma antibodies with specificity for p-azophenylarsonate (Ars). The mutations appear to be derived by a series of independent events. To assess the influence of these shared somatic mutations on antibody affinity for Ars and on idiotypy, we introduced them, via site-directed mutagenesis, into the V region of an anti-Ars antibody that was otherwise unmutated and we eliminated them from the mutated context of one of the two antibodies in which they were originally found. Results of affinity measurements by fluorescence quenching and of idiotypic binding assays performed on these engineered mutants demonstrated that the shared mutations increased affinity for Ars and eliminated the predominant Id associated with strain A anti-Ars antibodies and four of five idiotypes defined by anti-idiotypic mAb. These results support the interpretation that a strong affinity-based selection pressure has favored the clonal expansion of B cells with receptors containing these mutations despite the loss of a predominant Id. Thus, in producing antibodies containing V regions conferring high affinity for Ag, the combined processes of somatic mutation and clonal selection have generated a common structural solution through parallel repeats.     

亲和层析法用于噬菌体抗体库的筛选

本研究报道一种基于固定化金属亲和层析(IMAC)的噬菌体抗体库液相筛选方法。将纯化的带有His标签的抗原与噬菌体抗体库混合,噬菌体抗体与抗原充分结合后再加入亲和介质,使噬菌体抗体抗原复合物通过His标签与介质结合,然后通过充分洗涤去除非特异性噬菌体抗体,最后将特异性噬菌体抗体洗脱下来,感染TG1,进行下一轮筛选。整个筛选过程中抗原与抗体的结合在液相中完成,不仅消除了固相介质对抗原表位的影响,也更有利于噬菌体抗体与抗原的充分作用。将此方法应用于HEV NE2蛋白特异性人源噬菌体抗体的筛选,抗原竞争ELISA,阳性血清阻断,可溶性单链抗体表达检测及测序结果表明,最终获得2个特异性人源抗体。     

A circular antibody-antigen complex is responsible for increased affinity shown by mixtures of monoclonal antibodies to human chorionic gonadotropin

Mixtures of some pairs of monoclonal antibodies that have separate epitopes on the beta-subunit of hCG have increased affinity for the hormone relative to that of either antibody alone. A mathematical model developed to explain the phenomenon predicted that a circular tetrameric complex composed of each antibody and two molecules of hCG was responsible for the effect. This structure has now been identified experimentally by the following criteria: 1) the m.w. of the complex observed by electrophoresis (370,000 g/mol) and gel filtration (440,000 g/mol) was in agreement with the m.w. expected for a tetramer composed of two molecules of antibody and two molecules of hCG (i.e., 376,000 g/mol); 2) the ratio of individual antibodies to hCG measured with the use of 131I and 125I-labeled antibodies and/or hCG was 1:1:2; and 3) the complex failed to adhere to affinity columns containing either antibodies or hCG covalently coupled to Sepharose. These columns adsorbed B101, B102, hCG, and mixtures of B101 plus hCG or B102 plus hCG. The observations made with the affinity resins are compatible with a circular model for antigen-antibody complex in which the epitopes of the antigen and the binding site of the antibodies were mutually and completely obscured. Although not studied in detail, a similar complex was formed when the beta-subunit of hCG was substituted for the intact hormone. In addition, a mixture of antibodies that bound to the alpha- and beta-subunits of hCG (i.e., A102 and B102) and that had a higher affinity for the hormone than either antibody also gave rise to a similar species that could be detected after electrophoresis. A pair of antibodies that bind to separate epitopes on the beta-subunit (i.e., B101 and B103) and do not show enhanced affinity for hCG failed to form a stable complex that could be identified as a separate species after electrophoresis. Thus, the studies reported here confirm earlier theoretical predictions linking the increase in affinity observed on mixing monoclonal antibodies to the formation of a circular complex.     

Affinity purification of two populations of antibodies against format determinants of synthetic myelin basic protein peptide S82 from S82-AH- and S82-CH-Sepharose 4B columns

Two different kinds of immunosorbents were prepared that contained the synthetic myelin basic protein didecapeptide S82 (TTHYGSLPQKAQGHRDQDEG)—one coupled with AH-Sepharose 4B through hexanoate spacers to the C-terminal glycyl residue; the other, with CH-Sepharose 4B through hexanoate spacers to the N-terminal threonine residue. An antiserum rich in antibodies to a format determinant of S82 was passed through each column, and, by means of affinity purification, two homogeneous populations of anti-format antibodies were obtained, each with a binding affinity of 1×10⁸M^–1 for S82. The population recovered from S82-AH-Sepharose 4B cross-reacted to a considerable extent with synthetic peptide S8 (GSLPQKAQGHRPQDENG) but only to a limited extent with S79 (AQGHRPQDEG). The population recovered from S82-CH-Sepharose 4B crossreacted poorly, if at all, with S8. An equimoler mixture of S8+S79, however, reacted well with either population of anti-format antibodies, thus showing that the mixture could mimic the format of S82. It was concluded that secondary structural conformation of S82 could be preserved during the coupling procedure and that the resulting immunosorbents could be used for the affinity purification of anti-S82 antibodies to the format determinants.Special Issue dedicated to Dr. Elizabeth Roboz-Einstein.Supported by Research Grants NS-10237 (Duke) and NS-15322 (St. Luke's) from the National Institutes of Health and by RG1197-B7 from the National Multiple Sclerosis Society.     

X-ray snapshots of the maturation of an antibody response to a protein antigen

The process whereby the immune system generates antibodies of higher affinities during a response to antigen (affinity maturation) is a prototypical example of molecular evolution. Earlier studies have been confined to antibodies specific for small molecules (haptens) rather than for proteins. We compare the structures of four antibodies bound to the same site on hen egg white lysozyme (HEL) at different stages of affinity maturation. These X-ray snapshots reveal that binding is enhanced, not through the formation of additional hydrogen bonds or van der Waals contacts or by an increase in total buried surface, but by burial of increasing amounts of apolar surface at the expense of polar surface, accompanied by improved shape complementarity. The increase in hydrophobic interactions results from highly correlated rearrangements in antibody residues at the interface periphery, adjacent to the central energetic hot spot. This first visualization of the maturation of antibodies to protein provides insights into the evolution of high affinity in other protein-protein interfaces.     

Structure-Guided Combinatorial Engineering Facilitates Affinity and Specificity Optimization of Anti-CD81 Antibodies

Hepatitis C viral infection is the major cause of chronic hepatitis that affects as many as 71 million people worldwide. Rather than target the rapidly shifting viruses and their numerous serotypes, four independent antibodies were made to target the host antigen CD81 and were shown to block hepatitis C viral entry. The single-chain variable fragment of each antibody was crystallized in complex with the CD81 large extracellular loop in order to guide affinity maturation of two distinct antibodies by phage display. Affinity maturation of antibodies using phage display has proven to be critical to therapeutic antibody development and typically involves modification of the paratope for increased affinity, improved specificity, enhanced stability or a combination of these traits. One antibody was engineered for increased affinity for human CD81 large extracellular loop that equated to increased efficacy, while the second antibody was engineered for cross-reactivity with cynomolgus CD81 to facilitate animal model testing. The use of structures to guide affinity maturation library design demonstrates the utility of combining structural analysis with phage display technologies.     

Monoclonal antibodies for carcinoembryonic antigen and related antigens as a model system: determination of affinities and specificities of monoclonal antibodies by using biotin-labeled antibodies and avidin as precipitating agent in a solution phase immunoassay

A general method is described for the determination of affinity constants and antigen cross-reactivities of monoclonal antibodies. The method employs biotin-labeled antibody, radiolabeled antigen, and avidin as a precipitating agent in a homogeneous phase, competitive radioimmunoassay. This method eliminates incomplete or variable precipitation of antigen-antibody complexes often encountered in immunoassays in which monoclonal antibodies are employed. Using this assay system, we were able to rapidly determine the affinity constants for a number of monoclonal antibodies elicited to carcinoembryonic antigen (CEA). In the preceding paper it was shown that five of the monoclonal antibodies recognized distinct epitopes on CEA. In antigen-binding experiments with these five monoclonal antibodies, the percent of radiolabeled CEA bound in antibody excess ranged from 30 to 92%. The CEA cross-reacting antigens, normal cross-reacting antigen (NCA), and tumor-extracted, CEA-related antigen (TEX) were significantly bound by one, and to a lesser degree, by two of the five antibodies. Two antibodies did not bind significant amounts of NCA or TEX. In inhibition studies, the amount of unlabeled CEA leading to 50% inhibition of 125I-labeled CEA-binding was in the range of 3.7 to 760 ng per tube. The amount of TEX showing the same degree of inhibition was 23-fold greater than the amount of CEA for two antibodies and 351-fold greater than the amount of CEA for a third antibody. The affinity constants for CEA were in the range of 1.0 x 10(8) to 5.1 x 10(10) M-1. The affinity constants for NCA and TEX, determined for one of the antibodies, were three orders of magnitude lower in comparison to CEA. The heterogeneity of radiolabeled CEA as indicated by the low fraction bound by one of the monoclonal antibodies is shown to be most probably an artifact resulting from radioiodination damage. The application of the approach described in this report should eliminate the problems most commonly encountered in the determination of affinity constants for monoclonal antibodies or the use of monoclonal antibodies in competitive, homogeneous-phase immunoassays.     

Study of Peptide Mimetics of Hepatitis A Virus Conjugated to Keyhole Limpet Hemocyanin and as Multiple Antigen Peptide System

Mimotopes mimic binding properties of natural antigen epitopes. They could be used for vaccine design, drugs development, and diagnostic assays. We have previously identified four bacteriophages displaying hepatitis A virus (HAV) mimotopes from a phage-display peptide library by affinity selection on serum antibodies from hepatitis A patients. Three of these HAV mimotopes showed similarity in their amino acid sequences with at least one of the VP3 and VP1 antigenic proteins of HAV and the four induced specific anti-HAV antibodies. In the present work, four conjugations were done. In each of them, a linear peptide (46, 53, 54 or 56) containing the amino-acid sequence of the corresponding mimotope was conjugated to keyhole limpet hemocyanin (KLH). Conjugation products were named: 46KLH, 53KLH, 54KLH and 56KLH. A two-arm multiple antigen peptide (MAP) system containing peptide sequence 46, and a second MAP containing two copies of peptide sequence 56 were synthesized and dimerized, to obtain the heterodimeric four-arms MAP (named MAP46-56) containing two copies of peptides 46 and 56. Mice were immunized with peptides conjugated to KLH and MAP46-56 to evaluate the ability of these two forms of mimotope presentation, to elicit antibodies that bind to the original antigen. KLH conjugated peptides rendered the highest levels of anti-peptide antibodies and were the only ones that induced specific anti-HAV antibodies. The results of immunizations showed that for the mimotopes chosen here, conjugation to a carrier protein was the most effective option to induce antibodies that cross-reacted with the natural antigen.     

REAL-Select: Full-Length Antibody Display and Library Screening by Surface Capture on Yeast Cells

We describe a novel approach named REAL-Select for the non-covalent display of IgG-molecules on the surface of yeast cells for the purpose of antibody engineering and selection. It relies on the capture of secreted native full-length antibodies on the cell surface via binding to an externally immobilized ZZ domain, which tightly binds antibody Fc. It is beneficial for high-throughput screening of yeast-displayed IgG-libraries during antibody discovery and development. In a model experiment, antibody-displaying yeast cells were isolated from a 1∶1,000,000 mixture with control cells confirming the maintenance of genotype-phenotype linkage. Antibodies with improved binding characteristics were obtained by affinity maturation using REAL-Select, demonstrating the ability of this system to display antibodies in their native form and to detect subtle changes in affinity by flow cytometry. The biotinylation of the cell surface followed by functionalization with a streptavidin-ZZ fusion protein is an approach that is independent of the genetic background of the antibody-producing host and therefore can be expected to be compatible with other eukaryotic expression hosts such as P. pastoris or mammalian cells.     

Studies on species cross-reactivity of hemopexin by use of monoclonal and polyclonal antibodies

The extent of immunological cross-reactivity between hemopexins of four species (rat, human, rabbit and chicken) was assessed with four affinity purified polyclonal antibodies and three monoclonal antibodies using RIA, Western blotting and rocket immunoelectrophoresis. Neither the two monoclonal antibodies to rabbit hemopexin (Rb3D11 and Rb3H9), the monoclonal antibody (R4B3) to rat hemopexin nor any of the polyclonal antibodies showed shared antigenic determinants between avian and mammalian hemopexins as judged by RIA or rocket immunoelectrophoresis. Western blotting with polyclonal antibodies revealed some reactivity raising the possibility of a few shared, though distantly related, epitopes. Polyclonal antibodies, raised to the mammalian hemopexins cross-reacted to variable extents with the respective antigens by RIA, results paralleled by data obtained by Western blotting. Anti-rat monoclonal antibodies reacted only with rat hemopexin in Western blots and minimally with rabbit hemopexin in RIA. The anti-rabbit monoclonal antibodies recognized two distinct epitopes one of which is shared with human hemopexin and presumably highly conserved.     

Method of purification of glucose oxidase by means of affinity chromatography on immunoabsorbent]

The possibility to purify glucose oxidase from Penicillium vitale on immunosorbent containing specific antibodies to the enzyme covalently bound with Sepharose 4B is studied. The method of affinity chromatography was applied, beside routine methods of fractionating blood serum proteins, to isolate specific antibodies from antiserum of rabbits immunized with glucose oxidase. Immobilized on Sepharose glucose oxidase was used as biospecific sorbent. Specific antibodies to the enzyme were isolated using chromatograpy of gamma-globulins mixture followed by protein desorption from the column with 1 M NaC1 and 3% glucose. Antibodies were immobilized by their covalent binding to activated Sepharose. The immunosorbent obtained was used to purify low active preparation of glucose oxidase by means of affinity chromatography under conditions worked out for the antibodies isolation. The enzyme was eluted from the column with 1 M NaC1 (pH 3.0) containing 3% glucose. 5-Fold purified enzyme preparation was isolated.