Humoral immune response to fibrillar beta-amyloid peptide

The beta-amyloid peptide (Abeta) is a normal product of the proteolytic processing of its precursor (beta-APP). Normally, it elicits a very low humoral immune response; however, the aggregation of monomeric Abeta to form fibrillar Abeta amyloid creates a neo-epitope, to which antibodies are generated. Rabbits were injected with fibrillar human Abeta(1-42), and the resultant antibodies were purified and their binding properties characterized. The antibodies bound to an epitope in the first eight residues of Abeta and required a free amino terminus. Additional residues did not affect the affinity of the epitope as long as the peptide was unaggregated; the antibody bound Abeta residues 1-8, 1-11, 1-16, 1-28, 1-40, and 1-42 with similar affinities. In contrast, the antibodies bound approximately 1000-fold more tightly to fibrillar Abeta(1-42). Their enhanced affinity did not result from their bivalent nature: monovalent Fab fragments exhibited a similar affinity for the fibrils. Nor did it result from the particulate nature of the epitope: monomeric Abeta(1-16) immobilized on agarose and soluble Abeta(1-16) exhibited similar affinities for the antifibrillar antibodies. In addition, antibodies raised to four nonfibrillar peptides corresponding to internal Abeta sequences did not exhibit enhanced affinity for fibrillar Abeta(1-42). Antibodies directed to the C-terminus of Abeta bound poorly to fibrillar Abeta(1-42), which is consistent with models where the carboxyl terminus is buried in the interior of the fibril and the amino terminus is on the surface. When used as an immunohistochemical probe, the antifibrillar Abeta(1-42) IgG exhibited enhanced affinity for amyloid deposits in the cerebrovasculature. We hypothesize either that the antibodies recognize a specific conformation of the eight amino-terminal residues of Abeta, which is at least 1000-fold more favored in the fibril than in monomeric peptides, or that affinity maturation of the antibodies produces an additional binding site for the amino-terminal residues of an adjacent Abeta monomer. In vivo this specificity would direct the antibody primarily to fibrillar vascular amyloid deposits even in the presence of a large excess of monomeric Abeta or its precursor. This observation may explain the vascular meningeal inflammation that developed in Alzheimer's disease patients immunized with fibrillar Abeta. Passive immunization with an antibody directed to an epitope hidden in fibrillar Abeta and in the transmembrane region of APP might be a better choice in the search for an intervention to remove Abeta monomers without provoking an inflammatory response.     

Obligate multivalent recognition of cell surface tomoregulin following selection from a multivalent phage antibody library

A therapeutic antibody candidate (AT-19) isolated using multivalent phage display binds native tomoregulin (TR) as a mul-timer not as a monomer. This report raises the importance of screening and selecting phage antibodies on native antigen and reemphasizes the possibility that potentially valuable antibodies are discarded when a monomeric phage display system is used for screening. A detailed live cell panning selection and screening method to isolate multivalently active antibodies is described. AT-19 is a fully human antibody recognizing the cell surface protein TR, a proposed prostate cancer target for therapeutic antibody internalization. AT-19 was isolated from a multivalent single-chain variable fragment (scFv) antibody library rescued with hyperphage. The required multivalency for isolation of AT-19 is supported by fluorescence activated cell sorting data demonstrating binding of the multivalent AT-19 phage particles at high phage concentrations and failure of monovalent particles to bind. Pure monomeric scFv AT-19 does not bind native receptor on cells, whereas dimeric scFv or immunoglobulin G binds with nanomolar affinity. The isolation of AT-19 antibody with obligate bivalent binding activity to native TR is attributed to the use of a multivalent display of scFv on phage and the method for selecting and screening by alternate use of 2 recombinant cell lines.     

An anti-leukemic single chain Fv antibody selected from a synthetic human phage antibody library

The display of human antibody repertoire on the cell surface of the filamentous bacteriophage has offered a novel strategy for selecting antibodies to a diverse range of purified targets. However, the selection of antibodies with biological functions has not yet been fully investigated. To select phage antibodies with therapeutic potential, a synthetic human single chain Fv (scFv) phage antibody library was panned on whole premyelocytic leukemia cell line (HL60). Phages binding to common receptors and undesirable phages were subtracted by incubating the library with human glioma cells. High affinity binding phages to HL60 cells were enriched by fluorescence-activated cell sorting. After the 6th round of selection, 50% of the selected phage antibodies showed significant binding to HL60 cells, whereas none of the analyzed phage antibodies bound to human pre-B cells (Nalm-6). In addition to binding, one scFv antibody inhibited HL60 cell proliferation by 90% compared to irrelevant scFv antibodies. Taken together the data demonstrate that specific scFv antibodies with biological functions can be isolated by using whole cells as affinity matrix.     

Human anti-human IL-18 antibody recognizing the IL-18-binding site 3 with IL-18 signaling blocking activity

IL-18 is an important regulator in both innate and acquired immune responses. The aberrant expression of IL-18 is associated with severe inflammatory conditions, such as autoimmune diseases and allergies. Thus, human antibodies with inhibitory activity on IL-18 signaling may be useful for therapeutic applications. We report here the first establishment of an antagonistic anti-IL-18 complete human antibody, h18-108, employing a human single chain antibody (scFv)-displaying phage library. The h18-108 scFv inhibited the IFN-gamma production of a human myelomonocytic cell line, KG-1. Flow cytometry analysis showed that h18-108 blocked the binding of IL-18 to KG-1 cells. Epitope mapping analysis using two kinds of random peptide-displaying phage libraries and an IL-18 alanine mutant (D98A) demonstrated that the h18-108 scFv binds to the site 3 of IL-18, which is suggested to be an association site with the IL-18 receptor beta. The complete human Fab and IgG forms of h18-108 have been successfully constructed to attain increases in both binding affinity and inhibitory activity.     

Recombinant scFv antibodies against E protein and N protein of severe acute respiratory syndrome virus

Severe acute respiratory syndrome (SARS) brought aglobal outbreak in spring of 2003 [1–3], and more andmore attention has been paid on it when a new caseresurfaced in Singapore last September [4]. By the endof May in 2003, WHO reported a cumulative total of 8202infected cases with 725 deaths from 28 countries.Because of the high transmission and morality rate ofSARS, scientists in many countries have made theirefforts in studying SARS coronavirus (SARS-CoV)[5, 6]. Several genomes of…     

Human anti-self antibodies with high specificity from phage display libraries.

Recently we demonstrated that human antibody fragments with binding activities against foreign antigens can be isolated from repertoires of rearranged V-genes derived from the mRNA of peripheral blood lymphocytes (PBLs) from unimmunized humans. The heavy and light chain V-genes were shuffled at random and cloned for display as single-chain Fv (scFv) fragments on the surface of filamentous phage, and the fragments selected by binding of the phage to antigen. Here we show that from the same phage library we can make scFv fragments encoded by both unmutated and mutated V-genes, with high specificities of binding to human self-antigens. Several of the affinity purified scFv fragments were shown to be a mixture of monomers and dimers in solution by FPLC gel filtration and the binding kinetics of the dimers were determined using surface plasmon resonance (k(on) = 10(5)-10(6) M-1s-1, k(off) = 10(-2)s-1 and Ka = 10(7) M-1). The kinetics of association are typical of known Ab-protein interactions, but the kinetics of dissociation are relatively fast. For therapeutic application, the binding affinities of such antibodies could be improved in vitro by mutation and selection for slower dissociation kinetics.     

Specificity grafting of human antibody frameworks selected from a phage display library: generation of a highly stable humanized anti-CD22 single-chain Fv fragment

A prerequisite for the enrichment of antibodies screened from phage display libraries is their stable expression on a phage during multiple selection rounds. Thus, if stringent panning procedures are employed, selection is simultaneously driven by antigen affinity, stability and solubility. To take advantage of robust pre-selected scaffolds of such molecules, we grafted single-chain Fv (scFv) antibodies, previously isolated from a human phage display library after multiple rounds of in vitro panning on tumor cells, with the specificity of the clinically established murine monoclonal anti-CD22 antibody RFB4. We show that a panel of grafted scFvs retained the specificity of the murine monoclonal antibody, bound to the target antigen with high affinity (6.4-9.6 nM), and exhibited exceptional biophysical stability with retention of 89-93% of the initial binding activity after 6 days of incubation in human serum at 37 degrees C. Selection of stable human scaffolds with high sequence identity to both the human germline and the rodent frameworks required only a small number of murine residues to be retained within the human frameworks in order to maintain the structural integrity of the antigen binding site. We expect this approach may be applicable for the rapid generation of highly stable humanized antibodies with low immunogenic potential.     

Selection of scFv Antibody Fragments Binding to Human Blood versus Lymphatic Endothelial Surface Antigens by Direct Cell Phage Display

The identification of marker molecules specific for blood and lymphatic endothelium may provide new diagnostic tools and identify new targets for therapy of immune, microvascular and cancerous diseases. Here, we used a phage display library expressing human randomized single-chain Fv (scFv) antibodies for direct panning against live cultures of blood (BECs) and lymphatic (LECs) endothelial cells in solution. After six panning rounds, out of 944 sequenced antibody clones, we retrieved 166 unique/diverse scFv fragments, as indicated by the V-region sequences. Specificities of these phage clone antibodies for respective compartments were individually tested by direct cell ELISA, indicating that mainly pan-endothelial cell (EC) binders had been selected, but also revealing a subset of BEC-specific scFv antibodies. The specific staining pattern was recapitulated by twelve phage-independently expressed scFv antibodies. Binding capacity to BECs and LECs and differential staining of BEC versus LEC by a subset of eight scFv antibodies was confirmed by immunofluorescence staining. As one antigen, CD146 was identified by immunoprecipitation with phage-independent scFv fragment. This antibody, B6-11, specifically bound to recombinant CD146, and to native CD146 expressed by BECs, melanoma cells and blood vessels. Further, binding capacity of B6-11 to CD146 was fully retained after fusion to a mouse Fc portion, which enabled eukaryotic cell expression. Beyond visualization and diagnosis, this antibody might be used as a functional tool. Overall, our approach provided a method to select antibodies specific for endothelial surface determinants in their native configuration. We successfully selected antibodies that bind to antigens expressed on the human endothelial cell surfaces in situ, showing that BECs and LECs share a majority of surface antigens, which is complemented by cell-type specific, unique markers.     

Generation of affinity matured scFv antibodies against mouse neural cell adhesion molecule L1 by phage display

The recognition molecule L1 plays important functional roles in the nervous system and in non-neural tissues. Since antibodies to L1 are of prime importance to study its functional properties, we have generated affinity matured human single chain variable fragment (scFv) antibodies against mouse L1 by introducing random mutations in the complementarity determining regions (CDRs) of a previously isolated scFv antibody heavy chain (CDR1 and CDR2) and light chain (CDR3). After biopanning the mutant library, a clone (5F7) that gave the strongest ELISA signal was expressed, purified, and characterized. The dissociation constant of 5F7 (2.86 x 10(-8)M) was decreased 60-fold compared to the wild type clone G6 (1.72 x 10(-6)M). 5F7 detected L1 by Western blot analysis in mouse brain homogenates and recognized L1 in L1 transfected cells and cryosections from mouse retina and optic nerve by immunofluorescence. Bivalent 5F7 scFv antibody (5F7-Cys) was also generated and showed a dissociation constant of 5.22 x 10(-9)M that is 5.5-fold lower than that of monomeric 5F7 antibody. The bivalent affinity matured L1 scFv antibody thus showed stronger binding by a factor of 310 compared to the wild type clone. This antibody should be useful in various biological assays.     

Production of functionalized single-chain Fv antibody fragments binding to the ED-B domain of the B-isoform of fibronectin in Pichia pastoris

The Pichia pastoris expression system was used to produce functionalized single-chain antibody fragments (scFv) directed against the ED-B domain of the B-fibronectin (B-Fn) isoform which was found to be present only in newly formed blood vessels during tumor angiogenesis. Therefore, scFv antibody fragments recognizing the ED-B domain are potential markers for angiogenesis. We constructed four functionalized scFv antibody fragments for direct labeling with radioactive molecules or toxins or for attachment to liposomes serving as carriers for cytotoxic or antiangiogenic compounds. The C-termini of the scFv antibody fragments contain 1-3 cysteine residues that are separated by a hydrophilic linker (GGSSGGSSGS) from the binding domain and are accessible for site-specific functionalization with thiol-reactive reagents. Plasmid expression, culture conditions, and purification were optimized in 1-L cultures. The scFv antibody fragments were purified by anion exchange chromatography. The yields were 5-20 mg/L culture medium. The large-scale production of one scFv antibody fragment in a 3.7-L fermenter gave a yield of 60 mg. The reactivity of the cyteines was demonstrated by labeling with the thiol-reactive fluorescent dye ABD-F. The four scFv antibody fragments bound specifically to ED-B-modified Sepharose and binding was further confirmed by immunofluorescence on cell cultures using ED-B-positive human Caco-2 tumor cells. Furthermore, we could demonstrate specific binding of scFv-modified liposomes to ED-B-positive tumor cells. Our results indicate that the P. pastoris expression system is useful for the large-scale production of cysteine-functionalized alpha-ED-B scFv antibody fragments.     

高亲和力抗乙型肝炎病毒PreS1的人源单链抗体的获得:天然及免疫抗体库的对比研究

以健康人的外周血淋巴细胞为来源,以偶联BSA的乙型肝炎病毒PreS1肽体外免疫.分别从免疫和未经免疫的淋巴细胞提取RNA,扩增抗体基因,构建大容量天然单链抗体(scFv)噬菌体展示文库和体外免疫scFv抗体库.以PreS1肽进行3轮淘选后,抗原抗体反应结果显示,从免疫库中获得了亲和力10-7～10-8 M的抗乙型肝炎病毒PreS1的单链抗体,高于天然库的结果(10-6～10-7 M).测序结果表明两株抗体均为人抗体.为基因工程抗体用于临床治疗乙型肝炎奠定基础.同时证明淋巴细胞体外免疫方法构建的免疫抗体库优于大容量天然抗体库.     

Development of humanized scFv antibody fragment(s) that targets and blocks specific HLA alleles linked to myasthenia gravis

Myasthenia gravis (MG) is an autoimmune disease caused by sensitization of the immune system to self-antigens. We have previously shown that targeting MG-susceptible alleles can significantly inhibit proliferation of disease-specific T cells. In this work, we humanized a murine monoclonal antibody (mAb) LG11, capable of blocking MG-associated DQ beta 1 (DQB1) allele and reformatted it into single-chain fragment variable (scFv). A fully functional humanized scFv was obtained by optimizing variable domain orientations and linker lengths, along with the optimization of expression conditions and codons to suit Escherichia coli expression machinery. Characterization of humanized scFv (FL8) revealed that the reformatted scFv, despite recognizing the same epitope as the parent murine LG11 mAb, exhibited superior binding affinity (0.97 nM) compared to the LG11 mAb, towards the immunizing antigen (DQB1*0601/70-90) and was able to block the proliferation of T cells cultured from PBLs of MG-patients typed DQB1*0601. The scFv was also capable of binding a variant MG-associated allele (DQB1*0502/70-90) with moderate affinity (18.7 nM), a feature that was absent in the LG11. To our knowledge, this is the first report of humanizing a MG-associated human leukocyte antigen (HLA) scFv for preclinical studies.

     

Direct in Vivo Intracellular Selection of Conformation-sensitive Antibody Domains Targeting Alzheimer's Amyloid-β Oligomers

The development of conformation-sensitive antibody domains targeting the misfolding beta amyloid (Aβ) peptide is of great interest for research into Alzheimer's disease (AD).We describe the direct selection, by the Intracellular Antibody Capture Technology (IACT), of a panel of anti-Aβ single chain Fv antibody fragments (scFvs), targeting pathologically relevant conformations of Aβ. A LexA-Aβ1-42 fusion protein was expressed in yeast cells, as the “intracellular antigen”. Two different scFv antibody libraries (Single Pot Libraries of Intracellular Antibodies, SPLINT) were used for the intracellular selections: (i) a naïve library, derived from a natural, non-immune, source of mouse antibody variable region (V) genes; and (ii) an immune library constructed from the repertoire of antibody V genes of Aβ-immunized mice. This led to the isolation of 18 different anti-Aβ scFvs, which bind Aβ both in the yeast cell, as well as in vitro, if used as purified recombinant proteins. Surprisingly, all the anti-Aβ scFvs isolated are conformation-sensitive, showing a high degree of specificity towards Aβ oligomers with respect to monomeric Aβ, while also displaying some degree of sequence-specificity, recognizing either the N-terminal or the C-terminal part of Aβ1-42; in particular, the scFvs selected from Aβ-immune SPLINT library show a relevant N-terminal epitope bias. Representative candidates from this panel of the anti-Aβ scFvs were shown to recognize in vivo-produced Aβ “deposits” in histological sections from human AD brains and to display good neutralization properties, significantly inhibiting Aβ oligomer-induced toxicity and synaptic binding of Aβ oligomers in neuronal cultured cells. The properties of these anti-Aβ antibody domains, as well as their direct availability for intra- or extra-cellular “genetic delivery” make them ideally suited for new experimental approaches to study and image the intracellular processing and trafficking of Aβ oligomers.     

Specific binding of the pathogenic prion isoform: development and characterization of a humanized single-chain variable antibody fragment

Murine monoclonal antibody V5B2 which specifically recognizes the pathogenic form of the prion protein represents a potentially valuable tool in diagnostics or therapy of prion diseases. As murine antibodies elicit immune response in human, only modified forms can be used for therapeutic applications. We humanized a single-chain V5B2 antibody using variable domain resurfacing approach guided by computer modelling. Design based on sequence alignments and computer modelling resulted in a humanized version bearing 13 mutations compared to initial murine scFv. The humanized scFv was expressed in a dedicated bacterial system and purified by metal-affinity chromatography. Unaltered binding affinity to the original antigen was demonstrated by ELISA and maintained binding specificity was proved by Western blotting and immunohistochemistry. Since monoclonal antibodies against prion protein can antagonize prion propagation, humanized scFv specific for the pathogenic form of the prion protein might become a potential therapeutic reagent.     

Directed evolution of an anti-human red blood cell antibody

We have earlier described a haemagglutination-based assay for on-site detection of antibodies to HIV using whole blood. The reagent in this assay comprises of monovalent Fab fragment of an anti-human RBC antibody fused to immunodominant antigens of HIV-1 and HIV-2. In the present work, we describe a rational and systematic method for directed evolution of scFv and Fab antihuman RBC antibody fragments. Based on homology modeling and germline sequence alignments of antibodies, target residues in the anti-RBC MAb B6 sequence were identified for mutagenesis. A combinatorial library of 10⁷ clones was constructed and subjected to selection on whole RBC under competitive binding conditions to identify several phage-displayed B6 scFv clones with improved binding as determined in an agglutination assay. Selected V_L and V_H sequences were shuffled to generate a second generation phage-displayed Fab library which on panning yielded Fab clones with several fold better binding than wild type. The mutants with better binding also displayed more Fab molecules per phage particle indicating improved in vivo folding which was also confirmed by their increased periplasmic secretion compared to the wild type. The mutant Fab molecules also showed superior characteristics in large scale production by in vitro folding of LC and Fd. The biophysical measurements involving thermal and chemical denaturation and renaturation kinetics clearly showed that two of the mutant Fab molecules possessed significantly improved characteristics as compared to the wild type B6 Fab. Structural modelling revealed that B6 Fab mutants had increased hydrogen bonding resulting in increased stability. Our approach provides a novel and useful strategy to obtain recombinant antibodies with improved characteristics.Key words: phage display, antibody maturation, Fab, antibody folding, scFv, agglutination     

A 130-kDa protein on endothelial cells binds to amino acids 15-42 of the B beta chain of fibrinogen.

Factors which stimulate the release of von Willebrand factor (vWf) from endothelial cell Weibel-Palade bodies and which induce the expression of the leukocyte-binding adhesion molecule P-selectin (PADGEM, GMP-140, CD62) on the endothelial cell surface remain incompletely characterized. Fibrin but not fibrinogen is a potent stimulus for the release of stored von Willebrand factor from endothelial cells. Removal of fibrinopeptides A and B from fibrinogen occurs during the formation of fibrin, and the removal of fibrinopeptide B is a requirement for fibrin to induce vWf secretion. The cleavage of fibrinopeptide A by reptilase enzyme forms a fibrin gel yet it is incapable of stimulating Weibel-Palade body degranulation. As a consequence of removing fibrinopeptide B, B beta 15-42 becomes the new NH2 terminus of the beta chain of fibrin. We have shown that the peptide B beta 15-42 in solution inhibits the release of vWf stimulated by fibrin. In addition, B beta 15-42 coupled to ovalbumin supports the binding and spreading of endothelial cells, while a scrambled form of this peptide coupled to the same carrier does not. We investigated whether these determinants near the amino terminus of the beta chain of fibrin bind to a specific protein on the surface of endothelial cells. A 130-kDa protein was isolated from surface-labeled human umbilical vein endothelial cells by specific binding to B beta 15-42 immobilized on Sepharose. This glycoprotein was eluted with the B beta 15-42 peptide in solution but not with the scrambled form of this peptide. The fibrin-derived peptides B beta 19-26 and B beta 37-56-cysteine were also incapable of eluting the 130-kDa protein bound to immobilized B beta 15-42 as were the arginine-glycine-aspartic acid-serine RGDS tetrapeptide and EDTA. The 130-kDa protein is recognized neither by antibodies to the known integrins found on endothelial cells nor by antibodies to CD31 (endoCAM, PECAM-1), a member of the immunoglobulin family of receptors found on endothelial cells. The beta chain of fibrin thus contains a sequence near its amino terminus which specifically binds to what is likely a novel endothelial cell surface protein. This glycoprotein may promote endothelial cell adhesion to fibrin during the wound healing process and is a candidate for a receptor involved in fibrin-mediated release of Weibel-Palade bodies from endothelial cells.     

Plasma membrane display of anti-viral single chain Fv fragments confers resistance to tobacco mosaic virus

We tested the hypothesis that membrane-anchored anti-viral antibodies can confer viral resistance to transgenic plants. A heterologous expression system was developed for plasma membrane targeting of anti-viral antibodies using mammalian transmembrane domains. A tobacco mosaic virus (TMV) neutralizing single-chain Fv antibody fragment (scFv24) was targeted to the endoplasmic reticulum and integrated into the plasma membrane of tobacco cells, using mammalian signal peptides and membrane receptor transmembrane domains. The human platelet-derived growth factor receptor (PDGFR) transmembrane domain or the T-cell receptor -domain (TcR) transmembrane domain was fused to the C-terminus of TMV-specific scFv24 to target expression of scFv24 as an extracellularly facing plasma membrane protein. Western blot and ELISA analyses were carried out to confirm functional expression of the recombinant fusion proteins scFv24-PDGFR and scFv24-TcR in transgenic tobacco suspension cultures and transgenic plants. Immunofluorescence and electron microscopy showed that the TcR transmembrane domain targeted scFv24 to the tobacco plasma membrane. Bioassays of viral infection showed that transgenic tobacco plants expressing scFv24-TcR were resistant to TMV infection. These results demonstrated that membrane anchored anti-viral antibody fragments are functional, can be targeted to the plasma membrane in planta and are a novel approach for engineering disease-resistant crops.     

Generation of antibodies recognizing an aberrant glycoform of human tissue inhibitor of metalloproteinase-1 (TIMP-1) using decoy immunization and phage display

Aberrant glycosylation of human tissue inhibitor of metalloproteinase-1 (TIMP-1) by N-acetylglucosaminyltransferase-V (GnT-V) was previously reported to be related to cancer progression. Here, we report on the antibodies recognizing the structural features initiated by an addition of N-linked β(1,6)-N-acetylglucosamine (GlcNAc) branch by GnT-V on TIMP-1. Two glycoforms of TIMP-1, TIMP1-L produced in Lec4 cells without GnT-V activity and TIMP1-B in GnT-V overexpressing transfectant cells, were purified from culture supernatant and used for generation of antibodies. TIMP1-L was injected in the left hind footpad of mice as decoy and TIMP1-B in the right hind footpad as immunogen. Phage-displayed scFv library was constructed from the B cells retrieved from the right popliteal lymph nodes and subjected to panning and screening. Phage ELISA of individual clones revealed the scFv clones with preferential binding activity to TIMP1-B, and they were converted into an scFv-Fc format for further characterization of binding specificity. Glycan binding assay of an antibody, 1-9F, revealed its differential specificity toward an extension of glycan structure initiated with β(1,6)-GlcNAc linkage and terminally decorated with a sialic acid. This study demonstrates feasibility of a new strategy combining decoy immunization with phage display for the efficient generation of antibodies tracking down structural features of different glycoforms.     

Synthesis, cloning and expression of the single-chain Fv gene of the HPr-specific monoclonal antibody, Jel42. Determination of binding constants with wild-type and mutant HPrs.

The monoclonal antibody Jel42 is specific for the Escherichia coli histidine-containing protein, HPr, which is an 85 amino acid phosphocarrier protein of the phosphoenolpyruvate:sugar phosphotransferase system. The binding domain (Fv) has been produced as a single chain Fv (scFv). The scFv gene was synthesized in vitro and coded for pelB leader peptide-heavy chain-linker-light chain-(His)(5) tail. The linker is three repeats from the C-terminal repetitive sequence of eukaryotic RNA polymerase II. This linker acts as a tag; it is the antigen for the monoclonal antibody Jel352. The codon usage was maximized for E.coli expression, and many unique restriction endonuclease sites were incorporated. The scFv gene incorporated into pT7-7 was highly expressed, yielding 10-30% of the cell protein as the scFv, which was found in inclusion bodies with the leader peptide cleaved. Jel42 scFv was purified by denaturation/renaturation yielding preparations with K(d) values from 20 to 175 nM. However, based upon an assessment of the amount of active refolded scFv, the binding dissociation constant was estimated to be 2.7 +/- 2.0 nM compared with 2.8 +/- 1.6 and 3.7 +/- 0.3 nM previously determined for the Jel42 antibody and Fab fragment respectively. The effect of mutation of the antigen HPr on the binding constant of the scFv was very similar to the properties determined for the antibody and the Fab fragment. It was concluded that the small percentage ( approximately 6%) of refolded scFv is a true mimic of the Jel42 binding domain and that the incorrectly folded scFv cannot be detected in the binding assay.     

Idiotypic determinants of monoclonal antibodies that bind to 3-fucosyllactosamine

Many monoclonal antibodies that react with the lacto-N-fucopentaose III (LNF III) antigenic determinant, Gal beta 1-4(Fuc alpha 1-3)GlcNAc beta 1-3Gal beta 1-4Glc, have been described recently. The terminal trisaccharide of this determinant, fucosyllactosamine, is present on glycolipids and glycoproteins and on the surface of granulocytes, monocytes, and other cells. To study the structural and genetic diversity of these antibodies, syngeneic anti-idiotypic monoclonal antibodies were produced in BALB/c mice against PMN 6, a monoclonal antibody directed against this sequence. Anti-idiotypic antibodies 6B1 and 6C4 reacted with 50% of a panel of 20 anti-LNF III monoclonal antibodies, whereas 6A3 reacted strongly only with PMN 6. This indicates that the determinants recognized by 6C4 and 6B1 represent major cross-reactive idiotopes of this family of antibodies. The binding of idiotypic antibodies to a glycolipid bearing this antigenic determinant was completely inhibited by the three anti-idiotypic antibodies, 6A3, 6B1, and 6C4. The idiotopes could be demonstrated on the heavy chain of the monoclonal antibodies by an antibody transfer technique when mild reducing conditions were employed, but a high concentration of reducing agent destroyed the idiotypic determinants. This suggests that the anti-idiotypic antibodies recognize conformational structures expressed on the heavy chain molecules. The binding of 18 monoclonal antibodies to two glycolipid antigens and to a fucosyllactosamine-bovine serum albumin conjugate was compared. Antibodies that possessed the 6C4 cross-reactive idiotope bound to fucosyllactosamine-bovine serum albumin more weakly than idiotype-negative antibodies (p = 0.001). This suggests that the 6C4-positive antibodies might represent germline structures.