Recombinant human single chain Fv antibodies recognizing human interleukin-6. Specific targeting of cytokine-secreting cells

A comprehensive comparison between camelid nanobodies and single chain variable fragments

By the emergence of recombinant DNA technology, many antibody fragments have been developed devoid of undesired properties of natural immunoglobulins. Among them, camelid heavy-chain variable domains (VHHs) and single-chain variable fragments (scFvs) are the most favored ones. While scFv is used widely in various applications, camelid antibodies (VHHs) can serve as an alternative because of their superior chemical and physical properties such as higher solubility, stability, smaller size, and lower production cost. Here, these two counterparts are compared in structure and properties to identify which one is more suitable for each of their various therapeutic, diagnosis, and research applications.

Identification of cross-reactive human single-chain variable fragments against phospholipases A2 from Lachesis muta and Bothrops spp venoms

Bushmasters (Lachesis spp) and lancehead vipers (Bothrops spp) are two of the most dangerous snakes found in Latin America. Victims of envenoming by these snakes require urgent administration of antivenom. Here, we report the identification of a small set of broadly neutralizing human monoclonal single-chain variable fragment (scFv) antibodies targeting key phospholipases A₂ from Lachesis and Bothrops spp using phage display technology and demonstrate their in vitro efficacy using a hemolysis assay.

Generation and characterization of a recombinant antibody fragment that binds to the coat protein of grapevine leafroll-associated virus 3

Pathogen-specific recombinant antibodies have been used to characterize pathogen infections and to engineer resistance in crops. We selected a single-chain antibody fragment (scFvLR3cp-1) specific for the coat protein of grapevine leafroll-associated virus 3 (GLRaV-3), one of the agents of grapevine leafroll (GLR) disease, from a phage display library. The antibody binds specifically to the entire length of GLRaV-3 particles and has a high binding affinity value (K(D)) of 42 nM. The amino acid motif AQEPPRQ located at the N terminus of the GLRaV-3 coat protein was identified as the antibody-binding epitope by PEPSCAN analysis. To evaluate scFv stability in the reducing environment of the plant cell cytosol, transient expression assays were performed using Nicotiana benthamiana as a model plant. Capture ELISA demonstrated that the scFv fragment was produced and retained its antigen-binding capacity in the plant cytosol. Further functional assays showed that scFvLR3cp-1 binds with high specificity to at least four members of the family Closteroviridae. Therefore, the GLRaV-3-specific scFv fragment could be an ideal candidate for mediating broad-spectrum virus resistance if produced in transgenic grapevine plants.

New developments in IL-6 dependent biology and therapy: where do we stand and what are the options?

Interleukin-6 (IL-6) is a four-helical protein which, on target cells, binds to a specific IL-6-receptor and two molecules of the promiscuous signal transducing protein gp130. Structure-function analysis defined three molecular contact sites between IL-6 and its receptor subunits. Using this information, competitive antagonistic proteins as well as hyperagonistic proteins were developed. Possible therapeutic applications of IL-6 antagonists are in IL-6 dependent haematological disorders (Castleman's disease, POEMS syndrome, multiple myeloma) and bone diseases (Paget's disease, osteoporosis). Designer IL-6 antagonists could suppress inflammatory activity in rheumatic and autoimmune diseases and could prevent secondary amyloidosis. IL-6 antagonists could also prove advantageous in myocardial infarction and unstable angina pectoris. IL-6 antagonists might slow down development of (mesangioproliferative) glomerulonephritis. On the other hand, hyperagonistic variants of IL-6 have a potential in ex vivo expansion of bone marrow stem cells and as thrombopoietic agents. They might also be developed into drugs to support liver regeneration in vivo and to treat stress-induced cardiac insufficiency.

Recombinant bispecific antibodies for cancer therapy

Bispecific antibodies can serve as mediators to retarget effector mechanisms to disease-associated sites. Studies over the past two decades have revealed the potentials but also the limitations of conventional bispecific antibodies. The development of recombinant antibody formats has opened up the possibility of generating bispecific molecules with improved properties. This review summarizes recent developments in the field of recombinant bispecific antibodies and discusses further requirements for clinical development.

Characterization of the interaction between DNA gyrase inhibitor and DNA gyrase of Escherichia coli

Escherichia coli DNA gyrase is comprised of two subunits, GyrA and GyrB. Previous studies have shown that GyrI, a regulatory factor of DNA gyrase activity, inhibits the supercoiling activity of DNA gyrase and that both overexpression and antisense expression of the gyrI gene suppress cell proliferation. Here we have analyzed the interaction of GyrI with DNA gyrase using two approaches. First, immunoprecipitation experiments revealed that GyrI interacts preferentially with the holoenzyme in an ATP-independent manner, although a weak interaction was also detected between GyrI and the individual GyrA and GyrB subunits. Second, surface plasmon resonance experiments indicated that GyrI binds to the gyrase holoenzyme with higher affinity than to either the GyrA or GyrB subunit alone. Unlike quinolone antibiotics, GyrI was not effective in stabilizing the cleavable complex consisting of gyrase and DNA. Further, we identified an 8-residue synthetic peptide, corresponding to amino acids (89)ITGGQYAV(96) of GyrI, which inhibits gyrase activity in an in vitro supercoiling assay. Surface plasmon resonance analysis of the ITGGQYAV-containing peptide-gyrase interaction indicated a high association constant for this interaction. These results suggest that amino acids 89--96 of GyrI are essential for its interaction with, and inhibition of, DNA gyrase.

Evidence for an initiation site for hen lysozyme folding from the reduced form using its dissected peptide fragments

We prepared two dissected fragments of hen lysozyme and examined whether or not these two fragments associated to form a native-like structure. One (Fragment I) is the peptide fragment Asn59-homoserine-105 containing Cys64-Cys80 and Cys76-Cys94. The other (Fragment II) is the peptide fragment Lys1-homoserine-58 connected by two disulfide bridges, Cys6-Cys127 and Cys30-Cys115, to the peptide fragment Asn106-Leu129. It was found that the Fragment I immobilized in the cuvette formed an equimolar complex with Fragment II (K(d) = 3.3x10(-4) M at pH 8 and 25 degrees C) by means of surface plasmon resonance. Moreover, from analyses by circular dichroism spectroscopy and ion-exchange chromatography of the mixture of Fragments I and II at pH 8 under non-reducing conditions, it was suggested that these fragments associated to give the native-like structure. However, the mutant Fragment I in which Cys64-Cys80 and Cys76-Cys94 are lacking owing to the mutation of Cys to Ala, or the mutant fragment in which Trp62 is mutated to Gly, did not form the native-like species with Fragment II, because the mutant Fragment I derived from mutant lysozymes had no local conformation due to mutations. Considering our previous results where the preferential oxidation of two inside disulfide bonds, Cys64-Cys80 and Cys76-Cys94, occurred in the refolding of the fully reduced Fragment I, we suggest that the peptide region corresponding to Fragment I is an initiation site for hen lysozyme folding.

The analysis of heparin-protein interactions using evanescent wave biosensor with regioselectively desulfated heparins as the ligands

Evanescent wave biosensor has been recently employed as a powerful tool for analyses of macromolecular interactions. In the present study, evanescent wave biosensor analysis was developed to analyze the heparin-protein interaction using as ligands a series of heparin derivatives regioselectively desulfated by chemical methods, particularly to evaluate the effect of each sulfate group of heparin. The method for immobilizing heparin on the cuvette of the evanescent wave biosensor equipment was optimized to obtain the high response required for accurate measurement. The best result was achieved when the amino group introduced at the reducing end of heparin was coupled with carboxymethyl dextran on the surface of the cuvette using glycolchitosan as a multivalent linker. The established system appeared to describe well the interactions of heparin with such proteins as acidic and basic fibroblast growth factors and tissue factor pathway inhibitor.

Generation and epitope mapping of high-affinity scFv to eukaryotic elongation factor 1A by dual application of phage display

To generate specific tools for, in particular, localization studies of the eukaryotic elongation factor 1A (eEF1A), we have applied phage display in various formats to affinity-improve and map epitopes of two previously isolated, low-affinity single-chain Fv (scFv) G3 and D1. The scFv differ in their reactivity toward the eEF1A isoforms, eEF1A-1 and eEF1A-2. By PCR-based randomization of six residues within the variable light chain CDR3 (LCDR3), and subsequent phage-based affinity-selection, two 'families' of affinity-improved scFv were obtained. The scFv of highest affinity, A8, has a Kd of 9 nM to eEF1A-1. Interestingly, two affinity-improved scFvs have abnormally short LCDR3 consisting of two and four residues compared to 11 in the parental scFv. Hence, the LCDR3 of the parental clones may play a modulating rather than a direct role in antigen-binding. Despite different preferences for the eEF1A isoforms, both families of scFv recognize antigenic determinant(s), which was mapped to residues 413-450 of eEF1A-1/2 by Western blot analysis of recombinant human eEF1A (hEF1A) fragments. Prior to the Western blotting analysis, the epitope location had been suggested using a novel approach where phage-antibody repertoire derived scFv were used to select phage-displayed peptides. Hereby, peptides containing a SFXD motif, matching the SFSD(414-418) sequence found in hEF1A-1 were isolated. The structure of eukaryotic EF1A from yeast indicates a discontinuous nature of the epitope with distal functional elements juxtaposed by the protein fold. Finally, the scFv A8 was applied for immunofluorescence studies of transformed human amnion cells and MCF-7 fibroblasts. In both cases a perinuclear localization of hEF1A was observed. No evidence for the reported nuclear localization of hEF1A was obtained.

Soluble gp130 is the natural inhibitor of soluble interleukin-6 receptor transsignaling responses

Signal transduction in response to interleukin-6 (IL-6) requires binding of the cytokine to its receptor (IL-6R) and subsequent homodimerization of the signal transducer gp130. The complex of IL-6 and soluble IL-6R (sIL-6R) triggers dimerization of gp130 and induces responses on cells that do not express membrane bound IL-6R. Naturally occurring soluble gp130 (sgp130) can be found in a ternary complex with IL-6 and sIL-6R. We created recombinant sgp130 proteins that showed binding to IL-6 in complex with sIL-6R and inhibited IL-6/sIL-6R induced proliferation of BAF/3 cells expressing gp130. Surprisingly, sgp130 proteins did not affect IL-6 stimulated proliferation of BAF/3 cells expressing gp130 and membrane bound IL-6R, indicating that sgp130 did not interfere with IL-6 bound to IL-6R on the cell surface. Additionally, sgp130 partially inhibited proliferation induced by leukemia inhibitory factor (LIF) and oncostatin M (OSM) albeit at higher concentrations. Recombinant sgp130 protein could be used to block the anti-apoptotic effect of sIL-6R on lamina propria cells from Crohn disease patients. We conclude that sgp130 is the natural inhibitor of IL-6 responses dependent on sIL-6R. Furthermore, recombinant sgp130 is expected to be a valuable therapeutic tool to specifically block disease states in which sIL-6R transsignaling responses exist, e.g. in morbus Crohn disease.

Survey of the 1998 optical biosensor literature

The utilization of optical biosensors to study molecular interactions continues to expand. In 1998, 384 articles relating to the use of commercial biosensors were published in 130 different journals. While significant strides in new applications and methodology were made, a majority of the biosensor literature is of rather poor quality. Basic information about experimental conditions is often not presented and many publications fail to display the experimental data, bringing into question the credibility of the results. This review provides suggestions on how to collect, analyze and report biosensor data.

Disruption of anthrax toxin binding with the use of human antibodies and competitive inhibitors

The protective antigen (PA83) of Bacillus anthracis is integral to the mechanism of anthrax toxicity. We have isolated a human single-chain Fv antibody fragment (scFv) that blocks binding of a fluorescently tagged protective antigen (PA) moiety to cell surface receptors. Several phage-displayed scFv were isolated from a naive library biopanned against PA83. Soluble, monomeric scFv were characterized for affinity and screened for their capacity to disrupt receptor-mediated binding of PA. Four unique scFv bound to PA83, as determined by surface plasmon resonance, the tightest binder exhibiting a Kd of 50 nM. Two scFv had similar affinities for natural PA83 and a novel, recombinant, 32-kDa carboxy-terminal PA fragment (PA32). Binding of scFv to green fluorescent protein fused to the amino-terminal 32-kDa fragment of B. anthracis edema factor, EGFP-EF32, was used to confirm specificity. Fusion of EGFP to PA32 facilitated development of a novel flow cytometric assay that showed that one of the scFv disrupted PA receptor binding. This method can now be used as a rapid assay for small molecule inhibitors of PA binding to cell receptors. The combined data presented suggest the potential utility of human scFv as prophylactics against anthrax poisoning. Moreover, recombinant PA32 may also be useful as a therapeutic agent to compete with anthrax toxins for cellular receptors during active infection.

A new type of cytokine receptor antagonist directly targeting gp130

The interleukin-6-type family of cytokines bind to receptor complexes that share gp130 as a common signal-transducing subunit. So far, receptor antagonists for interleukin-6-type cytokines have been constructed that still bind to the specific ligand binding subunit of the receptor complex, but have lost the ability to stimulate gp130. Such receptor antagonists compete for a specific receptor of a member of the cytokine family. Interleukin-6 only binds to gp130 when complexed with the interleukin-6 receptor that exists as a membrane bound and soluble molecule. Here we have constructed fusion proteins that consist of the soluble form of the human interleukin-6 receptor covalently linked to interleukin-6 receptor antagonists. These fusion proteins directly bind to gp130. Moreover, at concentrations of 10-50 nM they completely neutralize not only the biological activity of interleukin-6 but also of other cytokines of the interleukin-6-type family that act via gp130 homodimers or gp130/LIF-R heterodimers. Therefore, these gp130 targeting cytokine antagonists might be useful therapeutic tools in disease states that are related to cytokines of the interleukin-6 family.

Specific targeting of cytokine-secreting cells: a bispecific diabody recognizing human interleukin-6 and CD3 induces T cell-mediated killing

Cytokines have been implicated in the pathophysiology of many diseases. Although there have been many attempts to neutralize the activity of cytokines in vivo and in vitro, no strategies have been developed to specifically eliminate cells that overexpress cytokines. Considering the fact that cytokines in part remain cell associated on secretion, we have constructed a bispecific diabody consisting of a nonneutralizing scFv antibody recognizing human interleukin-6 (IL-6) and an scFv corresponding to the monoclonal antibody (mAb) OKT3, which recognizes and activates the human T cell receptor. Here we show that the diabody recognized both human IL-6 and human CD3. In the presence of human T cells, the diabody induced killing of human hepatoma cells that had been transfected with a human IL-6 cDNA. The extent of killing was dependent on the ratio of effector/target cells and increased with increasing concentrations of the diabody. Untransfected control cells or human hepatoma cells that secrete the IL-6-related cytokine leukemia inhibitory factor (LIF) remained unaffected. We conclude that diabodies recognizing cytokines can be used to specifically target cytokine-secreting cells.

The membrane proximal cytokine receptor domain of the human interleukin-6 receptor is sufficient for ligand binding but not for gp130 association

Interleukin-6 (IL-6) belongs to the family of the "four-helix bundle" cytokines. The extracellular parts of their receptors consist of several Ig- and fibronectin type III-like domains. Characteristic of these receptors is a cytokine-binding module consisting of two such fibronectin domains defined by a set of four conserved cysteines and a tryptophan-serine-X-tryptophan-serine (WSXWS) sequence motif. On target cells, IL-6 binds to a specific IL-6 receptor (IL-6R), and the complex of IL-6.IL-6R associates with the signal transducing protein gp130. The IL-6R consists of three extracellular domains. The NH2-terminal Ig-like domain is not needed for ligand binding and signal initiation. Here we have investigated the properties and functional role of the third membrane proximal domain. The protein can be efficiently expressed in bacteria, and the refolded domain is shown to be sufficient for IL-6 binding. When complexed with IL-6, however, it fails to associate with the gp130 protein. Since the second and the third domain together with IL-6 can bind to gp130 and induce signaling, our data demonstrate the ligand binding function of the third domain and point to an important role of the second domain in complex formation with gp130 and signaling.