Antibodies induced by liposomal protein exhibit dual binding to protein and lipid epitopes

Natural polyreactive antibodies can accommodate chemically unrelated epitopes, such as lipids and proteins, in a single antigen binding site. Because liposomes containing lipid A as an adjuvant can induce antibodies directed against specific lipids, we immunized mice with liposomes containing lipid A together with a protein or peptide antigen to determine whether monoclonal antibodies generated after immunization would be specifically directed both to the liposomal lipid (either cholesterol or galactosylceramide) and also to the accompanying liposomal protein or peptide. Monoclonal antibodies were obtained that bound, by ELISA, to cholesterol and to recombinant gp140 envelope protein from HIV-1, or to galactosylceramide and to an HIV-1 envelope peptide. Surface plasmon resonance studies with the former antibody showed that the liposomal cholesterol and liposomal gp140 each contributed to the overall binding energy of the antibody to liposomes containing cholesterol and protein.     

Antitumor effects of a novel monoclonal antibody with high binding affinity to ganglioside GD3

Ganglioside GD3, which is one of the major gangliosides expressed on the cell surface human tumors of neuroectodermal origin, has been studied as a target molecule for passive immunotherapy. We established ten kinds of anti-GD3 monoclonal antibodies (mAb) of the mouse IgG3 subclass by immunization with purified GD3 and melanoma cells. One of the established mAb, KM641, showed major reactivity with GD3 and minor reactivity with GQ1b out of 11 common gangliosides in an enzymelinked immunosorbent assay. Immunostaining of gangliosides, separated on thin-layer chromatography plates, using KM641 revealed that most of the melanoma cell lines contained immunoreactive GD3 and GD3-lactone at a high level, but only the adrenal gland and the urinary bladder out of 21 human normal tissues had immunoreactive GD3. In immunofluorescence, KM641 bound to a variety of living tumor cell lines especially melanoma cells, including some cell lines to which another anti-GD3 mAb R24, established previously, failed to bind. High-affinity binding of KM641 to a tumor cell line was quantified by Scatchard analysis (K _d = 1.9×10^–8 M). KM641 exerted tumor-killing activity in the presence of effector cells or complement against melanoma cells expressing GD3 at a high level. Not only natural killer cells but also polymorphonuclear cells were effective as the effector cells in antibody-dependent cellular cytotoxicity. Intravenous injection of KM641 markedly suppressed the tumor growth of a slightly positive cell line, C24.22 (7.2×10⁵ binding sites/cell), as well as a very GD3-positive cell line, G361 (1.9×10⁷ binding sites/cell), inoculated intradermally in nude mice. KM641, characterized by a high binding affinity for GD3, has the potential to be a useful agent for passive immunotherapy of human cancer.     

High-affinity binding measurements of antibodies to cell-surface-expressed antigens

A simple method that allows affinity measurements of antibodies to integral membrane proteins is described. Kinetic Exclusion Assay was used to determine the concentration of free antibody that remains in solution after equilibrium has been established between the antibody and the cell-surface-expressed antigen, from which the equilibrium dissociation constant (Kd) was determined. It eliminates the requirement for soluble antigen and modifications such as radio-labeling or fluorescent labeling of the antibody. For one of the cell-surface-expressed antigens, it was determined that the affinity of the antibody to the cell-surface-expressed antigen was similar to that of the purified, soluble form of the antigen. In addition to the simplicity of the approach, the method provides a true measure of the affinity/avidity of the antibody to the native form of cell-surface-expressed targets, including antigens that cannot be produced in soluble forms, and to unknown cell surface antigens.     

Unique single‐domain antigen binding fragments derived from naturally occurring camel heavy‐chain antibodies

The humoral immune response of camels, dromedaries and llamas includes functional antibodies formed by two heavy chains and no light chains. The amino acid sequence of the variable domain of the naturally occurring heavy‐chain antibodies reveals the necessary adaptations to compensate for the absence of the light chain. In contrast to the conventional antibodies, a large proportion of the heavy‐chain antibodies acts as competitive enzyme inhibitors. Studies on the dromedary immunoglobulin genes start to shed light on the ontogeny of these heavy‐chain antibodies. The presence of the heavy‐chain antibodies and the possibility of immunizing a dromedary allows for the production of antigen binders consisting of a single domain only. These minimal antigen‐binding fragments are well expressed in bacteria, bind the antigen with affinity in the nM range and are very stable. We expect that such camelid single domain antibodies will find their way into a number of biotechnological or medical applications. The structure of the camelid single domain is homologous to the human VH, however, the antigen‐binding loop structures deviate fundamentally from the canonical structures described for human or mouse VHs. This has two additional advantages: (1) the camel or llama derived single domain antibodies might be an ideal scaffold for anti‐idiotypic vaccinations; and (2) the development of smaller peptides or peptide mimetic drugs derived from of the antigen binding loops might be facilitated due to their less complex antigen binding site. Copyright © 1999 John Wiley & Sons, Ltd.     

Rabbit antibodies against the low molecular weight folate binding protein from human milk. Use for immunological characterization of human folate binding proteins in an enzyme-linked immunosorbent assay (ELISA)

Antibodies to a low molecular weight folate binding protein isolated from human milk were raised in rabbits and used for development of a two-site enzyme-linked immunosorbent assay (ELISA) for immunological characterization of human folate binding proteins (FBPs). The high and low molecular weight FBPs from human milk were immunologically indistinguishable. Furthermore, the FBPs in human urine and cerebrospinal fluid showed a cross-reactivity of 70% and 30%, respectively. No cross-reactivity of the FBP from cow's milk was observed.     

N-terminal mutations in the anti-estradiol Fab 57-2 modify its hapten binding properties

Recombinant antibodies often contain N-terminal mutations arising from the use of degenerate cloning primer sets and/or the introduction of restriction sites in the framework 1 regions. We studied the effects of such mutations in a recombinant anti-estradiol Fab fragment derived from the hybridoma cell line 57-2. The 5' ends of the heavy and light chain genes were originally modified to introduce the restriction sites XhoI and SacI, respectively, for cloning purposes. However, the affinity and specificity of the recombinant Fab were lowered compared to the proteolytic Fab' fragment of the parental hybridoma IgG. Replacing the mutated sites with authentic amino acid coding sequences restored the binding properties as well as increased the bacterial production levels fivefold and 10-fold at 30 and 37 degrees C, respectively. Local changes in the antigen binding site were probed by determining the affinity constants (Kd) for estradiol and four related steroids. It was found that the mutated heavy chain amino terminus specifically increased the Kd for testosterone whereas the mutated light chain amino terminus decreased the Kd for all of the steroids to the same extent; the heavy and light chain effects were additive. Analysis of a newly determined crystal structure of the authentic Fab 57-2 in complex with estradiol suggests that mutations in the residue 2 in V(H), and 2 and 4 in the V(L) domain were those responsible for the observed effects. Their general roles as structure-determining residues for the CDR3 loops imply that similar effects can occur with other recombinant antibodies as well.     

Antigen forks: bispecific reagents that inhibit cell growth by binding selected pairs of tumor antigens

Bispecific antibodies of a new category, termed antigen forks, were constructed by crosslinking antibodies that recognized pairs of distinct tumor cell surface antigens. At concentrations of 1–100 nM, several such forks inhibited the growth of human tumor cell lines bearing both relevant antigens. The same cells were not inhibited by unconjugated component antibodies, and the active conjugates did not inhibit the growth of human cell lines that expressed lower levels of relevant antigens. The three most active antigen forks all contained monoclonal antibody 454A12, which recognizes human transferrin receptor. This antibody was conjugated respectively to antibodies 113F1 (against a tumor-associated glycoprotein complex), 317G5 (against a 42-kDa tumor-associated glycoprotein), or 520C9 (against the c-erbB-2 protooncogene product). The 317G5-454A12 fork strongly inhibited the HT-29 and SW948 human colorectal cancer cell lines, while the 113F1-454A12 fork was also effective against SW948. By designing forks against antigens of incompatible function that are co-expressed at high levels on tumor cells but not on normal tissues, it may be possible to generate reagents that inhibit tumor growth with enhanced selectivity.     

Two monoclonal antibodies against small-cell lung cancer show existence of synergism in binding

Summary Murine IgG1 monoclonal antibodies (mAbs), ITK-2 and ITK-3, were generated against a small-cell lung cancer (SCLC) cell line. Enzyme-linked immunosorbent assay using a variety of established cell lines as substrates, immunoperoxidase staining of freshly frozen tissue sections, and fluorescence-activated cell sorter analysis of peripheral blood leukocytes showed that these mAbs recognize a part of the SCLC-associated cluster 1 antigen. In immunoprecipitation studies, both ITK-2 and ITK-3 bound to a 145-kDa glycoprotein of SCLC cell membrane extracts, as did MOC-1 and NKH-1, which both recognize the cluster 1 antigen. However, because the binding of¹²⁵I-labeled ITK-2 to SCLC cells was not inhibited by MOC-1 or NKH-1, the binding site of ITK-2 on SCLC cells appeared to be different from that of either MOC-1 or NKH-1. Unexpectedly, binding of¹²⁵I-labeled ITK-2 to SCLC cells increased in the presence of ITK-3. This ITK-3-induced increase in ITK-2 binding was due partly to an increase in the number of binding sites for ITK-2 on SCLC cells. Addition of ITK-3 may, therefore, improve the effectiveness of ITK-2-based tumor detection or therapy.     

Study of an anti-human transthyretin immunoadsorbent: Influence of coupling chemistry on binding capacity and ligand leakage

A variant of transthyretin (TTR Val30Met) has been identified as the main protein precursor of the amyloid fibrils deposited in familial amyloidotic polyneuropathy (FAP). Specific removal of TTR in an extracorporeal immunoadsorption procedure is currently under investigation as a possible treatment of FAP. Immunoadsorbents were constructed by immobilizing murine anti-TTR monoclonal antibody 88.6.BA9 onto agarose gel supports via several different coupling chemistries. The influence of coupling conditions such as pH and antibody density, and of perfusion variables, such as antigen concentration and applied flow-rate, on the TTR capture efficiency, was determined. Cyanogen bromide-, carbonyldiimidazole- and aldehyde-activated (ALD) supports conjugated with antibody at optimal pH, provided immunoadsorbents with comparable TTR binding capacities. Regarding stability, leakage was lowest for the ALD based immunoadsorbents, particularly at high pH.     

Monoclonal antimyogenin antibodies define epitopes outside the bHLH domain where binding interferes with protein-protein and protein-DNA interactions

We have developed a panel of monoclonal antibodies against rat myogenin, a skeletal muscle regulatory protein of the bHLH family. Some of these monoclonals have been widely used by others, and details of their production are presented. Mapping the epitopes by immunoprecipitation of myogenin deletion mutants demonstrates that this panel recognizes epitopes spanning the entire molecule outside the HLH region. Four antibodies against epitopes outside the bHLH region interfere with the binding of myogenin/E-protein heterodimers to DNA sequences containing the myogenin heterodimer consensus recognition site. Three of these epitopes are partially masked in the heterodimers; antibody binding to these epitopes reduces the interactions between myogenin and E12. This suggests that surfaces outside the HLH dimerization domain may contribute to the stability of myogenin/E12 complexes. The binding of one antibody to its epitope did not appear to affect the myogenin/E12 interaction but nonetheless interfered with the binding of the complex to DNA, suggesting that this epitope lies near to a surface occupied by DNA. © 1996 Wiley-Liss, Inc.     

Molecular basis for the binding polyspecificity of an anti-cholera toxin peptide 3 monoclonal antibody

The onset of autoimmune diseases is proposed to involve binding promiscuity of antibodies (Abs) and T‐cells, an often reported yet poorly understood phenomenon. Here, we attempt to approach two questions: first, is binding promiscuity a general feature of monoclonal antibodies (mAbs) and second, what is the molecular basis for polyspecificity? To this end, the anti‐cholera toxin peptide 3 (CTP3) mAb TE33 was investigated for polyspecific binding properties. Screening of phage display libraries identified two epitope‐unrelated peptides that specifically bound TE33 with affinities similar to or 100‐fold higher than the wild‐type epitope. Substitutional analyses revealed distinct key residue patterns recognized by the antibody suggesting a unique binding mode for each peptide. A database query with one of the consensus motifs and a subsequent binding study uncovered 45 peptides (derived from heterologous proteins) that bound TE33. To better understand the structural basis of the observed polyspecificity we modeled the new cyclic epitope in complex with TE33. The interactions between this peptide and TE33 suggested by our model are substantially different from the interactions observed in the X‐ray structure of the wild‐type epitope complex. However, the overall binding conformation of the peptides is similar. Together, our results support the theory of a general polyspecific potential of mAbs. Copyright © 2005 John Wiley & Sons, Ltd.     

Identification of peptide mimotopes for the fluorescein hapten binding of monoclonal antibody B13‐DE1

Using 6mer and 12mer phage peptide libraries three unique phage clones were identified which specifically bind to a monoclonal anti‐FITC antibody, B13‐DE1. The two 6mer and one 12mer peptide insert sequences are clearly related to each other and contain a high proportion of hydrophobic amino acids. The peptides are bound by the antibody combining site of B13‐DE1 probably in a similar manner to FITC and represent therefore true peptidic mimics of the fluorescein hapten. No reactivity of the peptides could be demonstrated with another monoclonal anti‐fluorescein antibody or with polyclonal anti‐fluorescein antibodies. Immunization of mice with the peptides resulted in the production of antibodies cross‐reacting with all peptides but not with fluorescein. The results show that phage peptide libraries can be used to isolate mimotope peptides which can mimic low molecular weight structures seen by a specific antibody and probably other recognition molecules. Copyright © 1999 John Wiley & Sons, Ltd.     

Antibodies binding diverse pertactin epitopes protect mice from Bordetella pertussis infection

Infection by the bacterium Bordetella pertussis continues to cause considerable morbidity and mortality worldwide. Many current acellular pertussis vaccines include the antigen pertactin, which has presumptive adhesive and immunomodulatory activities, but is rapidly lost from clinical isolates after the introduction of these vaccines. To better understand the contributions of pertactin antibodies to protection and pertactin''s role in pathogenesis, we isolated and characterized recombinant antibodies binding four distinct epitopes on pertactin. We demonstrate that four of these antibodies bind epitopes that are conserved across all three classical Bordetella strains, and competition assays further showed that antibodies binding these epitopes are also elicited by B. pertussis infection of baboons. Surprisingly, we found that representative antibodies binding each epitope protected mice against experimental B. pertussis infection. A cocktail of antibodies from each epitope group protected mice against a subsequent lethal dose of B. pertussis and greatly reduced lung colonization levels after sublethal challenge. Each antibody reduced B. pertussis lung colonization levels up to 100-fold when administered individually, which was significantly reduced when antibody effector functions were impaired, with no antibody mediating antibody-dependent complement-induced lysis. These data suggest that antibodies binding multiple pertactin epitopes protect primarily by the same bactericidal mechanism, which overshadows contributions from blockade of other pertactin functions. These antibodies expand the available tools to further dissect pertactin''s role in infection and understand the impact of antipertactin antibodies on bacterial fitness.     

Three-dimensional structure-activity relationship modeling of cocaine binding to two monoclonal antibodies by comparative molecular field analysis

Successful immunotherapy of cocaine addiction and overdoses requires cocaine-binding antibodies with specific properties, such as high affinity and selectivity for cocaine. We have determined the affinities of two cocaine-binding murine monoclonal antibodies (mAb: clones 3P1A6 and MM0240PA) for cocaine and its metabolites by [3H]-radioligand binding assays. mAb 3P1A6 (K(d) = 0.22 nM) displayed a 50-fold higher affinity for cocaine than mAb MM0240PA (K(d) = 11 nM) and also had a greater specificity for cocaine. For the systematic exploration of both antibodies' binding specificities, we used a set of approximately 35 cocaine analogues as structural probes by determining their relative binding affinities (RBAs) using an enzyme-linked immunosorbent competition assay. Three-dimensional quantitative structure-activity relationship (3D-QSAR) models on the basis of comparative molecular field analysis (CoMFA) techniques correlated the binding data with structural features of the ligands. The analysis indicated that despite the mAbs' differing specificities for cocaine, the relative contributions of the steric (approximately 80%) and electrostatic (approximately 20%) field interactions to ligand-binding were similar. Generated three-dimensional CoMFA contour plots then located the specific regions about cocaine where the ligand/receptor interactions occurred. While the overall binding patterns of the two mAbs had many features in common, distinct differences were observed about the phenyl ring and the methylester group of cocaine. Furthermore, using previously published data, a 3D-QSAR model was developed for cocaine binding to the dopamine reuptake transporter (DAT) that was compared to the mAb models. Although the relative steric and electrostatic field contributions were similar to those of the mAbs, the DAT cocaine-binding site showed a preference for negatively charged ligands. Besides establishing molecular level insight into the interactions that govern cocaine binding specificity by biopolymers, the three-dimensional images obtained reflect the properties of the mAbs binding pockets and provide the initial information needed for the possible design of novel antibodies with properties optimized for immunotherapy.     

Further characterization of the binding properties of two monoclonal antibodies recognizing human Tn red blood cells

The terminal alpha anomeric Ga1NAc residue is an essential sugar for the Tn glycotope, human blood group A determinant, and Forssman antigen. In a previous study [King M.J., Parson S.F., Wu A,M., Jones N., Transfusion 31: 142-149, 1991] we defined two monoclonal antibodies (MoAbs, BRIC66 and BRIC111) reacting with human Tn red blood cells. However, more advanced studies of these two MoAbs were hampered by the lack of availability of Gal/GalNAc related glycotopes. In order to use these antibodies as powerful probes to elucidate structural changes during life processes, we have characterized in detail the combining sites of these two MoAbs using enzyme-linked immunosorbent (ELISA) and inhibition assays with an extended glycan/ligand collection. From the results, it has been established that BRIC66 demonstrated multiple specificities and its reactivity towards glycotopes was defined as: Ga1NAc alpha1-->Ser/Thr (Tn) > or = Ga1NAc alpha1-->3(LFuc alpha1-->2)Gal (Ah) > Ga1NAcalpha1-->3Galbeta1-->4Glc (AL) > Ga1NAalpha1-->3Gal (A) GalNAc alpha1-->3GalNAc > Gal or Glc. Another MoAb, BRIC111, mainly bound Tn-glycophorin. The best ligand for this MoAb was Tn-containing glycopeptides (M.W. < 3.0 x 10(3) Da) from asialo ovine salivary mucin (OSM), which was approximately 70 and 58 times more active than Ga1NAc and monomeric Ga1NAc alpha1-->Ser/Thr (Tn), respectively, suggesting that the active glycotopes present in glycophorin for BRIC111 binding also exist in OSM. The N-acetyl group at carbon-2 and configuration at carbon-2 and carbon-4 of the alpha anomeric Ga1NAc are required for the binding of either MoAb. Identification of these binding properties should aid in the selection of these MoAbs and the conditions required for biological studies and clinical applications.     

Specificity of monoclonal antibodies binding to the polysaccharide antigens (Vi, O9) of Salmonella typhi

A panel of monoclonal antibodies were generated against the surface polysaccharide antigens of the cell envelope of Salmonella typhi. Four clones (IgM) were specific for the capsular Vi polysaccharide, and one clone (IgG3) reacted selectively with the S. typhi lipopolysaccharide in enzyme immunoassay. On the basis of their reactivity pattern and binding affinity, MATy-V7 (IgM) and MATy-O9 (IgG3) antibodies were selected for further characterization of their antigenic specificity. In an inhibition enzyme immunoassay with rabbit factor-specific anti-Salmonella antibodies as the competing agents, the reactivity of MATy-V7 and MATy-O9 were significantly inhibited by the anti-Vi and anti-O9 antisera, respectively. Moreover, both the Vi- and O9-specific monoclonal antibodies were shown to be useful serotyping agents by correct identification in slide agglutination tests of 32 clinical isolates of all the S. typhi and other serogroup D salmonellae among a total of 140 bacterial isolates representing eight different Enterobacteriaceae genera tested.     

The surface-associated elongation factor Tu is concealed for antibody binding on viable pneumococci and meningococci

Proteome analyses revealed that elongation factor-Tu (EF-Tu) is associated with cytoplasmic membranes of Gram-positive bacteria and outer membranes of Gram-negative bacteria. It is still debatable whether EF-Tu is located on the external side or the internal side of the membranes. Here, we have generated two new monoclonal antibodies (mAbs) and polyclonal rabbit antibodies against pneumococcal EF-Tu. These antibodies were used to investigate the amount of surface-exposed EF-Tu on viable bacteria using a flow cytometric analysis. The control antibodies recognizing the pneumococcal surface protein A and phosphorylcholine showed a significant binding to viable pneumococci. In contrast, anti-EF-Tu antibodies did not recognize pneumococcal EF-Tu. However, heat killing of pneumococci lacking capsular polysaccharides resulted in specific antibody binding to EF-Tu and, moreover, increased the exposure of recognized phosphorylcholine epitopes. Similarly, our EF-Tu-specific antibodies did not recognize EF-Tu of viable Neisseria meningitidis. However, pretreatment of meningococci with ethanol resulted in specific antibody binding to EF-Tu on outer membranes. Importantly, these treatments did not destroy the membrane integrity as analysed with control mAbs directed against cytoplasmic proteins. In conclusion, our flow cytrometric assays emphasize the importance of using viable bacteria and not heat-killed or ethanol-treated bacteria for surface-localization experiments of proteins, because these treatments modulate the cytoplasmic and outer membranes of bacteria and the binding results may not reflect the situation under physiological conditions.     

High-throughput screening of monoclonal antibodies against plant cell wall glycans by hierarchical clustering of their carbohydrate microarray binding profiles

Antibody-producing hybridoma cell lines were created following immunisation with a crude extract of cell wall polymers from the plant Arabidopsis thaliana. In order to rapidly screen the specificities of individual monoclonal antibodies (mAbs), their binding to microarrays containing 50 cell wall glycans immobilized on nitrocellulose was assessed. Hierarchical clustering of microarray binding profiles from newly produced mAbs, together with the profiles for mAbs with previously defined specificities allowed the rapid assignments of mAb binding to antigen classes. mAb specificities were further investigated using subsequent immunochemical and biochemical analyses and two novel mAbs are described in detail. mAb LM13 binds to an arabinanase-sensitive pectic epitope and mAb LM14, binds to an epitope occurring on arabinogalactan-proteins. Both mAbs display novel patterns of recognition of cell walls in plant materials.     

Rabbit antibodies against the folate binding protein from cow's milk. Production,characterization and use for development of an enzyme-linked immunosorbent assay (ELISA)

Rabbit antibodies to purified folate binding protein from cow's milk whey were used for development of a two-site enzyme-linked immunosorbent assay (ELISA) for quantitation of bovine folate binding proteins, The folate binding proteins in human milk and serum showed no cross-reactivity. A partial saturation of purified bovine folate binder with folate gave rise to an increased antigenicity probably due to a ligand (folate)-induced exposure of antigenic sites on the protein.