Development and characterization of a recombinant chicken single-chain Fv antibody detecting <Emphasis Type="Italic">Eimeria acervulina</Emphasis> sporozoite antigen

Chicken monoclonal antibody (mAb), 8C3, which is reactive with a sporozoite antigen of Eimeria acervulina, is a potential therapeutic agent against avian coccidiosis caused by Eimeria spp. However, production of large amounts of 8C3 mAb in cell culture system is labor intensive and not cost-effective. Accordingly, recombinant single chain variable fragment (ScFv) antibody was constructed by amplification of the V_H and V_L genes from chicken hybridoma, 8C3 and when expressed in E. coli gave 5 mg l^–1. The expressed protein showed antigen binding activity equivalent to that of the parental mAb. In addition, nucleotide sequence comparison of 8C3 gene to the germline chicken V_L genes suggested that the gene conversion with V pseudogenes might contribute to the diversification of V_L genes in chickens.     

Cloning,expression, and identification of anti‐carbofuran single chain Fv gene

Phage display method was used to clone anti‐carbofuran (CBF) single chain Fv (scFv) gene. The heavy chain and light chain variable region genes were amplified by the polymerase chain reaction from the CBF‐specific hybridoma cell lines 5D3 and assembled as a scFv DNA fragment with linker peptide (Gly₄Ser)₃. The scFv DNA fragment was cloned into M13 phagemid vector pCANTAB5E and the anti‐CBF antibody libraries were then constructed. After one round of panning with CBF‐ovalbumin (CBF‐OVA) as a conjugate, antigen‐binding positive recombinant phage clones were successfully selected by enzyme‐linked immunosorbent assay (ELISA). The positive phages were used to infect Escherichia coli HB2151 cells and the expression of the soluble scFv antibodies was then induced by IPTG. The scFv antibody was about 31 kDa by SDS‐PAGE and showed HRP‐anti‐E‐tag antibody‐recognized activity by Western blotting. The indirect competitive ELISA (icELISA) showed that the recombinant scFv antibody could competitively combine with CBF, with the IC₅₀ value of 1.07 ng/mL. The cross reactivity studies showed that the anti‐CBF scFv antibody, similar to the parent monoclonal antibody, poses high specificity to CBF and has little reactivity to the analogs. Taken together, these findings suggest that the recombinant scFv antibody can be used for further developing immunoassay method for CBF. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

Biosynthesis of the scFv Antibody to Human Ferritin in Plant and Bacterial Producers

A recombinant scFv antibody against human spleen ferritin was expressed as a barstar-fused protein in Escherichia coli and in Nicotiana tabacum plants and suspension cell cultures. As demonstrated by immunoblotting with antibarstar antibodies, direction of the recombinant protein to the endomembrane system of plant cells ensured its stability and solubility. Production of the recombinant protein did not differ between parental transgenic plants and their first-generation progeny. Fusion with barstar allowed not only immunochemical detection of the recombinant scFv antibody, but also their purification from the plant material by affinity chromatography with barnase-His₆ immobilized on a metal-affinity carrier.     

Alteration in expression of the rat mitochondrial ATPase 6 gene during Pneumocystis carinii infection

Background

Norwalk virus causes outbreaks of acute non-bacterial gastroenteritis in humans. The virus capsid is composed of a single 60 kDa protein. In a previous study, the capsid protein of recombinant Norwalk virus genogroup II was expressed in an E. coli system and monoclonal antibodies were generated against it. The analysis of the reactivity of those monoclonal antibodies suggested that the N-terminal domain might contain more antigenic epitopes than the C-terminal domain. In the same study, two broadly reactive monoclonal antibodies were observed to react with genogroup I recombinant protein.

Results

In the present study, we used the recombinant capsid protein of genogroup I and characterized the obtained 17 monoclonal antibodies by using 19 overlapping fragments. Sixteen monoclonal antibodies recognized sequential epitopes on three antigenic regions, and the only exceptional monoclonal antibody recognized a conformational epitope. As for the two broadly reactive monoclonal antibodies generated against genogroup II, we indicated that they recognized fragment 2 of genogroup I. Furthermore, genogroup I antigen from a patient's stool was detected by sandwich enzyme-linked immunosorbent assay using genogroup I specific monoclonal antibody and biotinated broadly reactive monoclonal antibody.

Conclusion

The reactivity analysis of above monoclonal antibodies suggests that the N-terminal domain may contain more antigenic epitopes than the C-terminal domain as suggested in our previous study. The detection of genogroup I antigen from a patient's stool by our system suggested that the monoclonal antibodies generated against E. coli expressed capsid protein can be used to detect genogroup I antigens in clinical material.     

Recombinant antibodies specific for the Plasmodium falciparum histidine-rich protein 2

Early diagnosis and appropriate treatment are key elements of malaria control programs in endemic areas. A major step forward in recent years has been the production and use of rapid diagnostic tests (RDTs) in settings where microscopy is impracticable. Many current RDTs target the Plasmodium falciparum histidine-rich protein 2 (PfHRP2) released in the plasma of infected individuals. These RDTs have had an indisputably positive effect on malaria management, but still present several limitations, including the poor characterization of the commercial monoclonal antibodies (mAbs) used for PfHRP2 detection, variable sensitivity and specificity, and high costs. RDT use is further limited by impaired stability caused by temperature fluctuations during transport and uncontrolled storage in field-based facilities. To circumvent such drawbacks, an alternative could be the development of well-characterized, stabilized recombinant antibodies, with high binding affinity and specificity. Here, we report the characterization of the cDNA sequences encoding the Fab fragment of F1110 and F1546, two novels anti-PfHRP2 mAbs. FabF1546 was produced in the Escherichia coli periplasm. Its properties of binding to the parasite and to a recombinant PfHRP-2 antigen were similar to those of the parental mAb. As the affinity and stability of recombinant antibodies can be improved by protein engineering, our results open a novel approach for the development of an improved RDT for malaria diagnosis.     

Characterization of recombinant scFv antibody reactive with an apical antigen of Eimeria acervulina

The chicken monoclonal antibody (mAb), 6D-12-G10, reacts with an apical complex protein at the anterior tip of E. acervulina sporozoites that inhibits parasite invasion in vitro. Because this mAb was produced at low amount from the original hybridoma cells, an scFv antibody was constructed by amplification of the corresponding V _H and V _L genes and expressed in E. coli. The scFv antibody was produced at a minimum of 7 mg l^–1 and exhibited virtually identical antigen reactivity as the original mAb.     

An active murine-human chimeric Fab antibody derived from Escherichia coli, potential therapy against over-expressing VEGFR2 solid tumors

Many recombinant murine monoclonal antibodies (mAbs) were studied under pre-clinical or clinical development and became one of the most prolific drug classes in oncology. Vascular endothelial growth factors receptor 2 (VEGFR2) has been implicated to play an important role in tumors. We have established a murine anti-VEGFR2 mAb. To reduce the shortcoming of the mAb, a murine–human chimeric Fab (cFab) named FA8H1 was constructed with gene engineering techniques and expressed as a soluble and functional protein in Escherichia coli Top10F′. Several immunological methods were used to characterize the cFab, including ELISA, affinity and kinetics assay, IP, IF, FACS, and IHC. The results illuminated that cFab maintained the specificity for the VEGFR2 antigen. The active cFab also effectively identified VEGFR2 over-expressing cells in a number of archived human cancer tissues, compared to its parental antibody. The FA8H1 provided the basis for potential therapy research against over-expressing VEGFR2 human solid tumors.     

Production of a tumour‐targeting antibody with a human‐compatible glycosylation profile in N. benthamiana hairy root cultures

Hairy root (HR) cultures derived from Agrobacterium rhizogenes transformation of plant tissues are an advantageous biotechnological manufacturing platform due to the accumulation of recombinant proteins in an otherwise largely protein free culture medium. In this context, HRs descending from transgenic Nicotiana tabacum plants were successfully used for the production of several functional mAbs with plant‐type glycans. Here, we expressed the tumor‐targeting monoclonal antibody mAb H10 in HRs obtained either by infecting a transgenic N. tabacum line expressing H10 with A. rhizogenes or a glyco‐engineered N. benthamiana line (ΔXTFT) with recombinant A. rhizogenes carrying mAb H10 heavy and light chain cDNAs. Selected HR clones derived from both plants accumulated mAb H10 in the culture medium with similar yields (2–3 mg/L). N‐glycosylation profiles of antibodies purified from HR supernatant revealed the presence of plant‐typical complex structures for N. tabacum‐derived mAb H10 and of GnGn structures lacking xylose and fucose for the ΔXTFT‐derived counterpart. Both antibody glyco‐formats exhibited comparable antigen binding activities. Collectively, these data demonstrate that the co‐infection of ΔXTFT Nicotiana benthamiana with recombinant A. rhizogenes is an efficient procedure for the generation of stable HR cultures expressing the tumor‐targeting mAb H10 with a human‐compatible glycosylation profile, thus representing an important step towards the exploitation of root cultures for the production of ‘next generation’ human therapeutic antibodies.     

Production of monoclonal antibodies to Tomato leaf curl Bangalore virus

Purified Tomato leaf curl Bangalore virus (ToLCBV) was injected into mice and the splenocytes were used for establishing hybridoma lines. Initial screening of culture supernatants showed that 13 lines produced antibody, and after further screening four produced functional monoclonal antibodies. Upon characterisation, these were found to be of low affinity, probably due to host protein contamination and poor yield of native virus in the original preparations. In order to circumvent these problems, the coat protein of ToLCBV was over-expressed in Escherichia coli. Fusion experiments using recombinant coat protein as antigen yielded two primary hybridoma clones G₁₁ and E4 that exhibited good affinity of binding to the antigen. Sub-cloning yielded four monoclonal antibodies G₁₁E₇E₇, G₁₁E₇G₁₂, E₄E₂ and E₄G₆. G₁₁E₇E₇ and G₁₁E₇G₁₂ successfully detected ToLCBV in infected leaf extracts of tomato and Nicotiana benthamiana, viruliferous whiteflies and weed samples. These monoclonal antibodies could also detect other type III geminiviruses such as Pumpkin yellow vein mosaic virus and Bhendi yellow vein mosaic virus. Thus these monoclonal antibodies can be used for testing field-collected samples.     

Production and characterization of monoclonal antibody and its recombinant single chain variable fragment specific for a food-born mycotoxin, fumonisin B1

Fumonisin B₁ (FMB₁) is a food-born mycotoxin produced by Fusarium moniliforme. Monoclonal antibody against FMB₁ (anti-FMB₁ mAb) was produced in the hybridoma DV9, which was established from a BALB/c mouse immunized with bovine serum albumin conjugated FMB₁ (FMB₁-BSA). A competitive direct enzyme-linked immunosorbent assay (ELISA) showed that anti-FMB₁ mAb has about 10 ppb of minimum FMB₁ detection concentration and 220 ppb of 50% inhibition concentration (IC₅₀). Much lower cross-reactivity of anti-FMB₁ mAb on ochratoxin A, aflatoxin B₁ and deoxynivalenol provided that anti-FMB₁ mAb was specific for FMB₁. The gene coding single chain variable fragment against FMB₁ (anti-FMB₁ scFv) was cloned from the hybridoma DV9 and was expressed in recombinant Escherichia coli. Insoluble anti-FMB₁ scFv required optimization of its refolding condition, and hence functional scFv was obtained. By using indirect ELISA, about 12-fold lower binding activity of anti-FMB₁ scFv on FMB₁-BSA was obtained in comparison with that of the parental mAb.     

Biosynthetic antibody binding sites: Development of a single-chain Fv model based on antidinitrophenol IgA myeloma MOPC 315

The functional antigen binding region of antidinitrophenol mouse IgA myeloma MOPC 315 has been produced as a single-chain Fv (sFv) protein inE. coli. Recombinant 315 proteins included sFv alone, a bifunctional fusion protein with amino-terminal fragment B (FB) of staphylococcal protein A, and a two-chain 315 Fv fragment. Successful refolding of the 315 sFv required formation of disulfide bonds while the polypeptide was in a denatured state, as previously observed for the parent Fv fragment. Affinity-purified recombinant 315 proteins showed full recovery of specific activity, with values forK _a,app of 1.5 to 2.2×10⁶ M^–1, equivalent to the parent 315 Fv fragment. As observed for natural 315 Fv, the sFv region of active FB-sFv³¹⁵ fusion protein was resistant to pepsin treatment, whereas inactive protein was readily degraded. These experiments will allow the application of protein engineering to the 315 single-chain Fv; such studies can advance structure-function studies of antibody combining sites and lead to an improved understanding of single-chain Fv proteins.     

Development of Immunoreagents for Diagnostics of CagA‐Positive Helicobacter pylori Infections

Background: Helicobacter pylori strains expressing cytotoxic CagA protein are more likely to provoke severe gastric mucosal pathology and cause adenocarcinoma development than that lacking CagA. Determination of the CagA‐status of a pathogen, therefore, is regarded as informative approach in H. pylori infection diagnostics and disease risk prediction. Materials and Methods: Molecular cloning, recombinant protein expression in Escherichia coli, affinity chromatography, electrophoresis and commonly used techniques of hybridoma production and screening were used as well as different immunosorbent assays and Western blot procedures. Results: Four overlapping N‐terminally His₆‐tagged recombinant fragments of CagA that covered the entire CagA sequence were produced and purified. An ELISA for specific anti‐CagA serum antibodies detection was developed and evaluated. Utilizing recombinant fragments, the first set of monoclonal antibodies against CagA‐antigen was produced and characterized. Three antibodies recognized distinct linear epitopes inside conserved regions of the cytotoxin whereas the epitope of the forth antibody was mapped in the variable area of CagA. The monoclonal antibodies allowed discriminating CagA‐positive and CagA‐negative H. pylori strains by means of Western blot and immunosorbent assays. Conclusions: The use of recombinant protein technology allowed obtaining pure CagA antigen, thus providing new perspectives for development of immunodiagnostic reagents. The set of monoclonal antibodies is a valuable tool for determination of CagA‐status of H. pylori infection and for the investigation of cytotoxin molecule as well.     

Evaluation of a Recombinant 27-kDa Outer Membrane Protein of Coxiella burnetii as an Immunodiagnostic Reagent

The 27-kDa outer membrane protein from eight strains of Coxiella burnetii was expressed in the pET-21c protein expression system. Two fusion proteins with molecular masses of 30 and 32 kDa were evident in all eight of the recombinants by SDS-PAGE and immunoblotting. A protein having an approximate size of 30 kDa was purified from the Escherichia coli lysates by one-step affinity purification. The utility of the purified recombinant protein in ELISA was also evaluated by testing its reactivity with human sera and comparing this reactivity with that of Nine Mile phase II antigen. All of the 40 IF-positive serum samples were ELISA-positive for both the Nine Mile phase II and recombinant antigens, and negative serum controls were negative for both antigens. These results suggest that ELISA with the 27-kDa recombinant antigen is a sensitive and specific method for detecting anti-C. burnetii antibodies in human sera.     

Immunochemical determination of the cellular content of polypeptide chain release factor RF3 in Escherichia coli

Polypeptide chain termination in Escherchia coli is known to require two codon specific release factors. RF1 and RF2. A third factor, RF3, has been described to stimulate the termination. Earlier investigations have estimated the cellular content of factors RF1 and RF2. Two different immunological techniques for measuring the amount of RF3 per cell in crude E coli cell extracts are reported here, using a sensitive immunoblotting method and a sandwich assay by ELISA. Monoclonal murine antibodies and polyclonal rabbit antibodies were raised against extensively purified recombinant E coli RF3. The immunoblotting involves a specific monoclonal antibody (mAb), biotinylated second antibody and finally radioactive iodinated streptavidin. In the sandwich assay polyclonal antibodies are immobilised on a polystyrene surface before addition of crude cell extract: a specific mAb serves as primary antibody and an HRP-labelled anti-mouse Ig as secondary antibody. Both methods are accurate and rapid to perform. The number of RF3 molecules per cell in exponentially growing E coli cells was found to vary considerably according to the K12 strain examined and depended on the culture medium (from 20 to 500 molecules per cell), faster growth being positively correlated with the number of RF3 molecules per cell.     

Isolation of B subunit‐specific monoclonal antibody clones that strongly neutralize the toxicity of Shiga toxin 2

Shiga toxin 2 (Stx2)‐specific mAb‐producing hybridoma clones were generated from mice. Because mice tend to produce small amounts of B subunit (Stx2B)‐specific antibodies at the polyclonal antibody level after immunization via the parenteral route, mice were immunized intranasally with Stx2 toxoids with a mutant heat‐labile enterotoxin as a mucosal adjuvant; 11 different hybridoma clones were obtained in two trials. Six of them were A subunit (Stx2A)‐specific whereas five were Stx2B‐specific antibody‐producing clones. The in vitro neutralization activity of Stx2B‐specific mAbs against Stx2 was greater than that of Stx2A‐specific mAbs on HeLa229 cells. Furthermore, even at low concentrations two of the Stx2B‐specific mAbs (45 and 75D9) completely inhibited receptor binding and showed in vivo neutralization activity against a fivefold median lethal dose of Stx2 in mice. In western blot analysis, these Stx2B‐specific neutralization antibodies did not react to three different mutant forms of Stx2, each amino acid residue of which was associated with receptor binding. Additionally, the nucleotide sequences of the V_H and V_L regions of clones 45 and 75D9 were determined. Our Stx2B‐specific mAbs may be new candidates for the development of mouse‐human chimeric Stx2‐neutralizing antibodies which have fewer adverse effects than animal antibodies for enterohemorrhagic Escherichia coli infection.     

Algal chloroplast produced camelid VHH antitoxins are capable of neutralizing botulinum neurotoxin

We have produced three antitoxins consisting of the variable domains of camelid heavy chain‐only antibodies (V_HH) by expressing the genes in the chloroplast of green algae. These antitoxins accumulate as soluble proteins capable of binding and neutralizing botulinum neurotoxin. Furthermore, they accumulate at up to 5% total soluble protein, sufficient expression to easily produce these antitoxins at scale from algae. The genes for the three different antitoxins were transformed into Chlamydomonas reinhardtii chloroplasts and their products purified from algae lysates and assayed for in vitro biological activity using toxin protection assays. The produced antibody domains bind to botulinum neurotoxin serotype A (BoNT/A) with similar affinities as camelid antibodies produced in Escherichia coli, and they are similarly able to protect primary rat neurons from intoxication by BoNT/A. Furthermore, the camelid antibodies were produced in algae without the use of solubilization tags commonly employed in E. coli. These camelid antibody domains are potent antigen‐binding proteins and the heterodimer fusion protein containing two V_HH domains was capable of neutralizing BoNT/A at near equimolar concentrations with the toxin. Intact antibody domains were detected in the gastrointestinal (GI) tract of mice treated orally with antitoxin‐producing microalgae. These findings support the use of orally delivered antitoxins produced in green algae as a novel treatment for botulism.     

Cloning and expression of FimA-c3d recombinant protein

Recombinant protein consisting of an antigen fused to C3d may elicit a more robust immune response than the antigen alone. The objective of the present study was to clone FimA-c3d recombinant DNA into pCold-TF vector and successfully express in prokaryotic expression vector. FimA subunit of type I fimbriae from Salmonella enterica serovar Enteritidis was conjugated to mouse complement fragment molecule C3d. FimA and FimA-mC3d, FimA-mC3d₂ and FimA-mC3d₃ were cloned into the expression vector pCold-TF. Constructions of the recombinants pCold-TF-fimA with different copies of C3d were confirmed by digestion with restriction enzymes and sequencing. Soluble fusion proteins of FimA with different copies of C3d were induced by IPTG and were expressed in Escherichia coli BL21 (DE3) under optimal conditions. The results showed that the proteins induced from recombinants pCold-TF-fimA, pCold-TF-fimA-mC3d, pCold-TF-fimA-mC3d₂ and pCold-TF-fimA-mC3d₃ were 70, 100, 130 and 160 kDa, respectively. The fusion protein was recognized by rabbit anti-fimbriae polyclonal antibodies, and then visualized by goat anti-rabbit polyclonal antibodies with a chrome appearance by enzyme-subtract interaction. The recombinant proteins were separately purified by Ni-TED (tris-carboxymethyl ethylene diamine) immobilized metal iron affinity chromatography (IMAC). Finally we conclude that antigen conjugated with mC3d can be functionally expressed in prokaryotic vectors.     

Fermenter production of an artificial fab fragment,rationally designed for the antigen cystatin,and its optimized crystallization through constant domain shuffling

The synthetic antibody model “M41” was rationally designed with a binding site complementary to chicken egg white cystatin as the prescribed antigen. In order to permit comparison between the computer model and an experimental three-dimensional structure of the artificial protein, its X-ray crystallographic analysis was pursued. For this purpose, M41 was expressed as a recombinant Fab fragment in E. coli by medium cell density fermentation employing the tightly regulated tetracycline promoter. The Fab fragment was efficiently purified via a His-6 tail fused to its heavy chain and immobilized metal affinity chromatography. To raise the chances for the productive formation of crystal packing contacts, three versions of the Fab fragment were generated with differing constant domains. One of these, the variant with murine C_K and C_H 1_γ1 domains, was successfully crystallized by microseeding in a sitting drop. The orthorhombic crystals exhibited symmetry of the space group P2₁2₁2₁ with unit cell dimensions a = 104.7 Å, b = 113.9 Å, c = 98.8 Å and diffracted X-rays to a nominal resolution of 2.5 Å. © 1995 Wiley-Liss, Inc.     

Synergistic capture of Clostridium botulinum type A neurotoxin by scFv antibodies to novel epitopes

A non‐immune library of human single chain fragment variable (scFv) antibodies displayed on Saccharomyces cerevisiae was screened for binding to the Clostridium botulinum neurotoxin serotype A binding domain [BoNT/A (H_c)] with the goal of identifying scFv to novel epitopes. To do this, an antibody‐mediated labeling strategy was used in which antigen‐binding yeast clones were selected after labeling with previously characterized monoclonal antibodies (MAbs) specific to the H_c. Twenty unique scFv clones were isolated that bound H_c. Of these, 3 also bound to full‐length BoNT/A toxin complex with affinities ranging from 5 to 48 nM. Epitope binning showed that the three unique clones recognized at least two epitopes distinct from one another as well as from the detection MAbs. After production in E. coli, scFv were coupled to magnetic particles and tested for their ability to capture BoNT/A holotoxin using an Endopep‐MS assay. In this assay, toxin captured by scFv coated magnetic particles was detected by incubation of the complex with a peptide containing a BoNT/A‐specific cleavage sequence. Mass spectrometry was used to detect the ratio of intact peptide to cleavage products as evidence for toxin capture. When tested individually, each of the scFv showed a weak positive Endopep‐MS result. However, when the particles were coated with all three scFv simultaneously, they exhibited significantly higher Endopep‐MS activity, consistent with synergistic binding. These results demonstrate novel approaches toward the isolation and characterization of scFv antibodies specific to unlabeled antigens. They also provide evidence that distinct scFv antibodies can work synergistically to increase the efficiency of antigen capture onto a solid support. Biotechnol. Bioeng. 2011;108: 2456–2467. © 2011 Wiley Periodicals, Inc.