Production of a recombinant single-chain variable-fragment (scFv) antibody against sulfoglycolipid

Mammalian sulfoglycolipids are comprised of two major classes of compounds, sulfatide (SO(3)-3Gal-ceramide) and seminolipid (SO(3)-3Gal-alkylacylglycerol). Sulfatide is present in relatively high levels in myelin, and seminolipid is present in testis. The sulfation of these sulfoglycolipids is catalyzed by a common enzyme, cerebroside sulfotransferase (CST). Disruption of the Cst gene in mice revealed that sulfatide and seminolipid are essential for, respectively, myelin formation and spermatogenesis. The present study describes the generation of a recombinant single-chain variable fragment (scFv) antibody against sulfoglycolipid, for use in the functional analysis of sulfoglycolipids in living cells. A positive hybridoma producing anti-sulfoglycolipid IgG3, referred to as DI8, was initially obtained by immunizing CST-null mice with an isolated sulfatide. The DI8 monoclonal antibody was found to bind specifically to sulfoglycolipids with the terminal 3-O-sulfated galactose structure, as evidenced by ELISA and thin-layer chromatogram-immunostaining. The antibody stained seminolipid on the cell surface of spermatogenic cells of wild-type testis, but it did not react with any cells in the seminiferous tubules of CST-null testis. Total RNA was extracted from this hybridoma, and cDNAs that encode the variable regions of the heavy and light chains of IgG3 were obtained by RT-PCR. These DNA fragments were linked through a DNA linker coding (Gly(4)Ser)(3), and the recombinant scFv fragment was then inserted into a phagemid vector pCANTAB 5E. The scFv antibody that was displayed at the tip of the M13 phage in the form of a g3p fusion protein bound to sulfatide. Furthermore, a soluble form of the scFv antibody was also found to bind to the sulfoglycolipids in ELISA.     

Expression of functional single-chain variable domain fragment (scFv) antibody against Metolcarb in Pichia pastoris

A Pichia pastoris system was used to express a single-chain variable fragment (scFv) antibody targeted against Metolcarb. The specific scFv gene was amplified from the phage-display scFv library and then subcloned into the expression vector pPICZα C. The resulting plasmid, pPICZα C-scFv, was linearized and transformed into P. pastoris strain X-33. A transformant named X-33-Pp-SMW-12-6, which showed strong expression of antibodies, was isolated, and the culture conditions, including methanol induction concentrations, inoculum densities, and pH, were optimized. Under optimal conditions, P. pastoris cultures yielded much higher levels of the scFv product than the Escherichia coli expression system. Immunochemical characterization of the scFv antibodies produced in P. pastoris indicated that the affinity and specificity of scFv against Metolcarb are comparable to those of scFv antibodies produced in E. coli. Recoveries of Metolcarb demonstrated that the P. pastoris-derived scFv antibodies can be used to determine the content of Metolcarb residue in environmental and agricultural samples using a competitive inhibition enzyme-linked immunosorbent assay. For our purposes, expression in Pichia proved to be an efficient and economical method for the large-scale production of functional scFv antibodies against Metolcarb for downstream applications.     

Expression of functional single-chain variable domain fragment antibody (scFv) against mycotoxin zearalenone in Pichia pastoris

A synthetic gene coding for single-chain variable domain fragment antibody against mycotoxin zearalenone (scFv-ZEN) has been designed, constructed and expressed in Pichia pastoris. The native scFv-ZEN sequence was optimized to Pichia preference codon usage. The expression level of codon-optimized scFv-ZEN was slightly higher than that of native scFv-ZEN, and its maximum yield reached 328 mg total protein/l in flask culture. The binding activities of two selected clones to ZEN using surface plasmon resonance analysis were comparable or better than that of monoclonal antibody. Our results demonstrate the potential of soluble scFv-ZEN for developing a rapid and affordable immunoassay for detection of ZEN in food and feedstuff.     

Generation and characterization of a human single-chain fragment variable (scFv) antibody against cytosine deaminase from Yeast

Background  

The ability of cytosine deaminase (CD) to convert the antifungal agent 5-fluorocytosine (5-FC) into one of the most potent and largely used anticancer compound such as 5-fluorouracil (5-FU) raised considerable interest in this enzyme to model gene or antibody – directed enzyme-prodrug therapy (GDEPT/ADEPT) aiming to improve the therapeutic ratio (benefit versus toxic side-effects) of cancer chemotherapy. The selection and characterization of a human monoclonal antibody in single chain fragment (scFv) format represents a powerful reagent to allow in in vitro and in vivo detection of CD expression in GDEPT/ADEPT studies.     

Optimal conditions for the expression of a single-chain antibody (scFv) gene in Pichia pastoris

A Pichia pastoris system was used to express a single-chain antibody (scFv) targeted against Mamestra configurata (bertha armyworm) serpins. To improve scFv production we examined parameters such as proteinase activity, temperature, cell density, osmotic stress, medium composition, pH, and reiterative induction. P. pastoris was found to express several proteases; however, adjustment of medium pH to limit their activity did not correlate with increased scFv recovery. Induction medium pH values of 6.5-8.0 were most conducive to scFv production, despite significant differences in cell growth rates. Increasing inoculum density limited growth potential but gave rise to higher levels of scFv production. Three factors, medium composition, pre-induction osmotic stress, and temperature, had the greatest effects on protein production. Supplementation of the induction medium with arganine, casamino acids, or EDTA increased scFv production several fold, as did cultivation under osmotic stress conditions during pre-induction biomass accumulation. Incubation at 15 versus 30 degrees C extended the period whereby cells were capable of producing scFv from 1 to 7 days. Under optimal conditions, yeast cultures yielded 25 mg/L of functional scFv and could be subject to five reiterative inductions.     

Secretory production of single-chain antibody (scFv) in Brevibacillus choshinensis using novel fusion partner

Halophilic β-lactamase (BLA) has been successfully used as a novel fusion partner for soluble expression of aggregation-prone foreign proteins in Escherichia coli cytoplasm (Appl Microbiol Biotechnol 86:649–658, 2010b). This halophilic BLA fusion technology was applied here for secretory expression in Brevibacillus. The “Brevibacillus in vivo cloning” method, recently developed by Higeta Shoyu group, for the construction and transformation of Brevibacillus expression vectors facilitates efficient screening of the production conditions of Brevibacillus expression system. Two single-chain antibodies (scFv), HyHEL-10 single chain scFv (scFvHEL) and anti-fluorescein single chain scFv (scFvFLU), were successfully secreted to culture supernatant as a fusion protein with halophilic BLA. The scFvHEL-His, purified after cleavage of BLA portion with thrombin, was fully active: it formed a stoichiometric complex with the antigen, lysozyme, and inhibited the enzymatic activity. The scFvFLU-His, similarly expressed and purified, stoichiometrically inhibited fluorescence intensity of fluorescein. The molecular mass of scFvHEL-His was determined to be 27,800 Da by light scattering measurements, indicating its monomeric structure in solution.     

Production and characterization of single-chain antibody (scFv) against 3ABC non-structural protein in Escherichia coli for sero-diagnosis of Foot and Mouth Disease virus

Differentiation of Foot-and-Mouth Disease infected from vaccinated animals is essential for effective implementation of vaccination based control programme. Detection of antibodies against 3ABC non-structural protein of FMD virus by immunodiagnostic assays provides reliable indication of FMD infection. Sero-monitoring of FMD in the large country like India is a big task where thousands of serum samples are annually screened. Currently, monoclonal or polyclonal antibodies are widely used in these immunodiagnostic assays. Considering the large population of livestock in the country, an economical and replenishable alternative of these antibodies was required. In this study, specific short chain variable fragment (scFv) antibody against 3B region of 3ABC poly-protein was developed. High level of scFv expression in Escherichia coli system was obtained by careful optimization in four different strains. Two formats of enzyme immunoassays (sandwich and competitive ELISAs) were optimized using scFv with objective to differentiate FMD infected among the vaccinated population. The assays were statistically validated by testing 2150 serum samples. Diagnostic sensitivity/specificity of sandwich and competitive ELISAs were determined by ROC method as 92.2%/95.5% and 89.5%/93.5%, respectively. This study demonstrated that scFv is a suitable alternate for immunodiagnosis of FMD on large scale.     

Refolding single-chain antibody (scFv) using lauroyl-L-glutamate as a solubilization detergent and arginine as a refolding additive

Therapeutic potential of immunoconjugates has opened a new window for antibody-based biopharmaceuticals. Greater tissue penetration and hence enhanced cell toxicity are obtained with a smaller version of antibodies. While the whole antibody can be readily produced via mammalian expression system, antibody fragments often require refolding of insoluble proteins. Here we report a new refolding method for antibody fragments using a novel amino acid-based detergent as a solubilizing agent and arginine-assisted refolding. Inclusion bodies of antibody fragments were solubilized by 2.5% lauroyl-L-Glu (C12-L-Glu) and successfully refolded by multi-step dilution into a buffer solution containing arginine hydrochloride and thiol/disulfide-exchange reagents. Adjustment of temperature was found to be critical for increase in the refolding yield. Although each protein requires appropriate optimization, solubilization by C12-L-Glu and dilution refolding assisted by arginine can generate the native, functional antibody fragments. The procedure should enable us to utilize bacterial expression systems for the large-scale manufacturing.     

Construction and high cytoplasmic expression of a tumoricidal single-chain antibody against hepatocellular carcinoma

Background

Hep27 monoclonal (Hep27 Mab) is an antibody against hepatocellular carcinoma. Hep27 Mab itself can inhibit the growth of a hepatocellular carcinoma cell line (HCC-S102). We attempted to produce a single-chain fragment (scFv), a small fragment containing an antigen-binding site of Hep27 Mab, by using DNA-recombinant techniques.

Results

The sequences encoding the variable regions of heavy (V_H) and light (V_L) chains of a murine Hep27 Mab were linked together by a linker peptide (Gly4Ser)₃ and tagged with a hexa-histidine at the C-terminal; the resultant DNA construct was expressed in E. coli as an insoluble protein. The denatured scFv was refolded and purified by immobilized metal ion affinity chromatography (12 mg/l with a molecular weight of 27 kDa). Hep27scFv exhibited a tumoricidal activity against the HCC-S102 cell as its parental antibody (Hep27 Mab).

Conclusion

This scFv may be a potential candidate for a targeting agent in HCC immunodiagnosis or immunotherapy.     

Human Fc epsilon RIalpha-specific human single-chain Fv (scFv) antibody with antagonistic activity toward IgE/Fc epsilon RIalpha-binding

The alpha-chain of Fc epsilon RI (Fc epsilon RIalpha) plays a critical role in the binding of IgE to Fc epsilon RI. A fully human antibody interfering with this interaction may be useful for the prevention of IgE-mediated allergic diseases. Here, we describe the successful isolation of a human single-chain Fv antibody specific to human Fc epsilon RIalpha using human antibody phage display libraries. Using the non-immune phage antibody libraries constructed from peripheral blood lymphocyte cDNA from 20 healthy subjects, we isolated three phage clones (designated as FcR epsilon 27, FcR epsilon 51, and FcR epsilon 70) through two rounds of biopanning selection. The purified soluble scFv, FcR epsilon 51, inhibited the binding of IgE to recombinant Fc epsilon RIalpha, although both FcR epsilon 27 and FcR epsilon 70 showed fine binding specificity to Fc epsilon RIalpha. Since FcR epsilon 51 was determined to be a monomer by HPLC, BIAcore analysis was performed. The dissociation constant of FcR epsilon 51 to Fc epsilon RIalpha was estimated to be 20 nM, i.e., fortyfold lower than that of IgE binding to Fc epsilon RIalpha (K(d) = 0.5 nM). With these characteristics, FcR epsilon 51 exhibited inhibitory activity on the release of histamine from passively sensitized human peripheral blood mononuclear cells.     

应用环磷酰胺研制细胞表面抗原的单克隆抗体

利用环磷酰胺和杂交瘤技术 ,成功制备了 1株稳定分泌抗人CD80 分子单克隆抗体的杂交瘤细胞。实验结果表明 ,该单抗腹水效价为 1 0 6 ,属IgG1亚类 ,特异性强 ,为今后的应用打下了基础。     

Domain and basement membrane specificity of a monoclonal antibody against chicken type IV collagen

A monoclonal antibody, IV-IA8, generated against chicken type IV collagen has been characterized and shown to bind specifically to a conformational-dependent site within a major, triple helical domain of the type IV molecule. Immunohistochemical localization of the antigenic determinant with IV-IA8 revealed that the basement membranes of a variety of chick tissues were stained but that the basement membrane of the corneal epithelium showed little, if any, staining. Thus, basement membranes may differ in their content of type IV collagen, or in the way in which it is assembled. The specificity of the antibody was determined by inhibition ELISA using purified collagen types I-V and three purified molecular domains of chick type IV collagen ([F1]2F2, F3, and 7S) as inhibitors. Only unfractionated type IV collagen and the (F1)2F2 domain bound the antibody. Antibody binding was destroyed by thermal denaturation of the collagen, the loss occurring at a temperature similar to that at which previous optical rotatory dispersion studies had shown melting of the triple helical structure of (F1)2F2. Such domain-specific monoclonal antibodies should prove to be useful probes in studies involving immunological dissection of the type IV collagen molecule, its assembly within basement membranes, and changes in its distribution during normal development and in disease.     

Expression of single-chain antibody fragments (scFv) specific for beet necrotic yellow vein virus coat protein or 25 kDa protein in Escherichia coli and Nicotiana benthamiana

The coding sequences for the variable regions of heavy and light chains of monoclonal antibodies (mAbs) to beet necrotic yellow vein virus (BNYVV) coat protein (cp) or the 25 kDa nonstructural protein (P25) were cloned into the pCOCK vector and expressed as single-chain antibody fragments (scFv) in Escherichia coli. For expression in higher plants the scFv were targeted either to the secretory pathway by including the sequences encoding the pectate lyase B (PelB) or the phytohemagglutinin (PHA) signal peptides in the vector constructs or they were targeted to the cytoplasm by omitting a signal peptide-encoding sequence from the constructs. The scFv were detected mainly in plants in which the PHA signal peptide had been used for targeting demonstrating for the first time the usefulness of this peptide for enabling scFv expression in plants. The scFv were not secreted into the culture fluids of suspension cultures, but were retained in the cells. The amount of expression of scFv in the best expressing plants was at least as high as in bacterial culture supernatants. In a dot blot immunoassay, 0.4 ng BNYVV cp or 0.8 ng P25 were detected by the respective scFv either from E. coli or from plants. The majority of the 21 plants expressing cp-specific scFv had near-normal growth whereas the three plants expressing P25-specific scFv grew poorly and did not form roots.     

Cloning of a single-chain variable fragment (scFv) switching active plasminogen activator inhibitor-1 to substrate

Increased levels of plasminogen activator inhibitor-1 (PAI-1) are a well-known risk for cardiovascular diseases. A significant number of investigations are aimed at lowering plasma levels of PAI-1 to enhance endogenous fibrinolysis. We have recently generated monoclonal antibodies that neutralize PAI-1 activity by switching the inhibitory conformation to a substrate conformation. However, intact murine antibodies have quite some disadvantages for therapeutic use in man. In the current study, we describe the construction of a smaller antibody fragment derived from a monoclonal antibody (MA-8H9D4) with PAI-1 neutralizing properties. The cDNAs encoding the variable domains of the heavy and light chain were amplified, linked and cloned into a phagemid vector. Resulting clones were expressed as a single-chain variable fragment (scFv, V_H-(Gly₄Ser)₃-V_L) on the surface of a phage and selected for binding to PAI-1. Subsequently, a positive phage was used for the production of soluble scFv-8H9D4. Following purification, the characteristics of the scFv-8H9D4 were compared to those of the original MA-8H9D4. The scFv inhibited PAI-1 activity to a similar extent as MA-8H9D4 and by a similar mechanism, i.e., induction of a conformational switch. Thus, this smaller antibody fragment, exhibiting the same properties as the parent molecule may constitute a useful starting point for the design of PAI-1 neutralizing therapeutics. © 1997 Elsevier Science B.V. All rights reserved.     

Blockade of T cell activation using a surface-linked single-chain antibody to CTLA-4 (CD152)

CTLA-4 (CD152) engagement can down-regulate T cell activation and promote the induction of immune tolerance. However, the strategy of attenuating T cell activation by engaging CTLA-4 has been limited by sharing of its natural ligands with the costimulatory protein CD28. In the present study, a CTLA-4-specific single-chain Ab (scFv) was developed and expressed on the cell surface to promote selective engagement of this regulatory molecule. Transfectants expressing anti-CTLA-4 scFv at their surface bound soluble CTLA-4 but not soluble CD28. Coexpression of anti-CTLA-4 scFv with anti-CD3epsilon and anti-CD28 scFvs on artificial APCs reduced the proliferation and IL-2 production by resting and preactivated bulk T cells as well as CD4+ and CD8+ T cell subsets. Importantly, expression of anti-CTLA-4 scFv on the same cell surface as the TCR ligand was essential for the inhibitory effects of CTLA-4-specific ligation. CTLA-4-mediated inhibition of tyrosine phosphorylation of components of the proximal TCR signaling apparatus was similarly dependent on coexpression of TCR and CTLA-4 ligands on the same surface. These findings support a predominant role for CTLA-4 function in the modification of the proximal TCR signal. Using T cells from DO11.10 and 2C TCR transgenic mice, negative regulatory effects of selective CTLA-4 ligation were also demonstrated during the stimulation of Ag-specific CD4+ and CD8+ T cells by MHC/peptide complexes. Together these studies demonstrate that selective ligation of CTLA-4 using a membrane-bound scFv results in attenuated T cell responses only when coengaged with the TCR during T cell/APC interaction and define an approach to harnessing the immunomodulatory potential of CTLA-4-specific ligation.     

Expression and purification of recombinant immunotoxin--a fusion protein stabilizes a single-chain Fv (scFv) in denaturing condition

Carcinoembryonic antigen (CEA) is expressed at greatly increased levels in nearly all human colorectal carcinomas. Anti-CEA antibodies have been proved to be useful for targeting several cancer types known to express CEA. A recombinant immunotoxin was constructed, in which the cell-binding domain of Pseudomonas exotoxin (PE) was replaced with the single-chain Fv (scFv) of anti-CEA monoclonal antibody for targeting to colorectal carcinomas. This single-chain immunotoxin was expressed in E. coli and purified under denaturing condition of 6M guanidine hydrochloride (GuHCl). It was found that the immunotoxin maintains a binding activity in denaturing condition of 6M GuHCl and the fused PE contributes to the stability of immunotoxin in such condition. Dialysis against PBS buffer after purification under 6M GuHCl keeps the binding activity of immunotoxin.