Activation of a Refolded, Berberine-specific, Single-chain Fv Fragment by Addition of Free Berberine

A single-chain variable fragment (scFv) specific for berberine was produced in Escherichia coli. The anti-berberine scFv gene was cloned from hybridoma 1D5-3B-7 producing the monoclonal antibody. The variable regions of the heavy (V_H) and light chain (V_L) genes were connected with a flexible linker using an assembly PCR. The V_H-linker-V_L gene was inserted into a plasmid, pET28a (+), then overexpressed in E. coli BL21 (DE3). The active of the scFv by refolding based on stepwise dialysis methods and an artificial chaperone was determined by direct and competitive enzyme-linked immunosorbent assay (ELISA). The results of direct ELISA showed that the anti-berberine scFv retained specific binding activity to berberine. In competitive ELISA, however, activity was increased depending on the concentration of berberine.     

Production and characterization of an anti-(MUC1 mucin) recombinant diabody

A recombinant diabody fragment based on the anti-MUC1 monoclonal antibody, C595 has been produced in a bacterial expression system. Substitution of a 7-amino-acid linker sequence (Gly₆Ser) for the original single-chain (sc)Fv 15-amino-acid linker (Gly₄Ser)_3, using polymerase-chain-reaction-based strategies, forces variable heavy (V_H) and light (V_L) domains to pair with complementary domains on neighbouring scFv molecules, forming a scFv dimer (diabody). This recombinant protein shows similar binding characteristics to the parental C595 monoclonal antibody. The ability to bind to MUC1 mucin on carcinoma cell surfaces will allow its potential as a diagnostic and therapeutic reagent of clinical utility to be investigated. Received: 16 September 1998 / Accepted: 2 December 1998     

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.     

Multimerization of a chimeric anti-CD20 single-chain Fv-Fc fusion protein is mediated through variable domain exchange.

A series of single-chain anti-CD20 antibodies was produced by fusing single-chain Fv (scFv) with human IgG1 hinge and Fc regions, designated scFv-Fc. The initial scFv-Fc construct was assembled using an 18 amino acid (aa) linker between the antibody light- and heavy-chain variable regions, with the Cys residue in the upper hinge region (Kabat 233) mutagenized to Ser. Anti-CD20 scFv-Fc retained specific binding to CD20-positive cells and was active in mediating complement-dependent cytolysis. Size-exclusion HPLC analysis revealed that the purified scFv-Fc included multimeric as well as monomeric components. Variant scFv-Fcs were constructed incorporating four different hinges between the scFv and Fc regions, or three different linkers in the scFv domain. All formed multimers, with the highest level of multimerization found in the scFv-Fc with the shortest linker (8 aa). Elimination of an unusual salt bridge between residues L38 and H89 in the V(L)-V(H) domain interface failed to reduce the formation of higher order forms. Structural analysis of the scFv-Fc constructed with 18 or 8 aa linkers by pepsin or papain cleavage suggested the proteins contained a form in which scFv units had cross-paired to form a 'diabody'. Thus, domain exchange or cross-pairing appears to be the basis of the observed multimerization.     

Single-chain antibodies against human insulin-like growth factor I receptor: expression, purification, and effect on tumor growth

Insulin-like growth factors (IGF) I and II are potent mitogens for a variety of cancer cells. The proliferative and anti-apoptotic actions of IGF are mediated by the IGF-I receptor (IGF-IR), to which both IGF-I and IGF-II bind with high affinity. To investigate the mitogenic and anti-apoptotic activities of IGF-IR and to achieve better inhibition of IGF-IR function, single-chain antibodies against human IGF-IR (αIGF-IR scFvs) were constructed and expressed. IgG cDNA encoding variable regions of light and heavy chains (V_L and V_H) from mouse IgG were cloned from a hybridoma producing the 1H7 αIGF-IR monoclonal antibody [Li et al., Biochem Biophys Res Commun 196: 92–98 (1993)]. The splice-overlap extension polymerase chain reaction was used to assemble a gene encoding the αIGF-IR scFv, including the N-terminal signal peptide, V_L, linker peptide, V_H, and C-terminal DYKD tag. Two types of soluble αIGF-IR scFvs, a prototype αIGF-IR scFv and its alternative type αIGF-IR scFv-Fc, were constructed and expressed in murine myeloma cells. αIGF-IR scFv-Fc, containing the human IgG1 Fc domain, was stably expressed in NS0 myeloma cells, using a glutamine synthase selection system, and purified from the conditioned medium of stable clones by protein-A–agarose chromatography. Levels of αIGF-IR scFv-Fc expression ranged from 40 mg/l to 100 mg/l conditioned medium. Sodium dodecyl sulfate/polyacrylamide gel electrophoresis analysis under reducing and nonreducing conditions indicated that αIGF-IR scFv-Fc is a dimeric antibody. αIGF-IR scFv-Fc retained general characteristics of the parental 1H7 monoclonal antibody except that its binding affinity for IGF-IR was estimated to be approximately 10⁸ M⁻¹, which was one-order of magnitude lower than that of 1H7 monoclonal antibody. Injection of αIGF-IR scFv-Fc (500 μg/mouse, twice a week) significantly suppressed MCF-7 tumor growth in athymic mice. These results suggest that the αIGF-IR scFv-Fc is a first-generation recombinant αIGF-IR for the potential development of future αIGF-IR therapeutics. Received: 21 January 2000 / Accepted: 7 March 2000     

抗甜菜坏死黄脉病毒单链抗体表达载体的构建及其表达

用ＰＣＲ方法以分泌抗甜菜坏死黄脉病毒（ＢＮＹＶＶ）单克隆抗体的杂交瘤细胞的基因组为模板,扩增了编码ＢＮＹＶＶ单抗的重链可变区（ＶＨ）基因。测序表明,该ＶＨ序列属于小鼠ＩＩ（Ａ）亚类,全长为３６０ｂｐ,编码１２０个氨基酸。将其和先前克隆的轻链基因分别插入到一个含有连接ＶＨ和ＶＬ基因的连接序列的质粒之中,构建成单链抗体（ｓｃＦｖ）基因的表达载体ｐＴＣｓｃＦｖ。将质粒在大肠杆菌中表达,ＥＬＩＳＡ法检测出     

A bivalent single-chain Fv fragment against CD47 induces apoptosis for leukemic cells

We constructed a single-chain antibody fragment (scFv) of murine monoclonal antibody, MABL, which specifically bound to human CD47 (hCD47) and induced apoptosis of the leukemic cells. The scFv of MABL antibody with a 15-residue linker (MABL scFv-15) formed both dimer (Mr 50 kDa) and monomer (Mr 25 kDa). Both MABL scFv-15 dimer and monomer had binding activity for hCD47. MABL scFv-15 dimer strongly induced apoptosis of hCD47-introduced mouse leukemic cells in vitro and exhibited anti-tumor effect in a myeloma transplanted mice model. However, MABL scFv-15 monomer scarcely exhibited these activities. These results strongly demonstrate that the ligation of CD47 antigen by two antigen-binding sites of MABL dimer is needed for inducing apoptosis. The parent MABL antibody caused hemagglutination due to the CD47 expressed on erythrocytes. Interestingly, MABL scFv-15 dimer did not cause hemagglutination. This apoptosis-inducing dimer appears to be a lead candidate for novel leukemic therapy.     

抗四环素单链抗体基因的构建与序列测定

目的：构建抗盐酸四环素的单链抗体（scFv）基因。方法：以抗盐酸四环素单克隆抗体杂交瘤细胞株的总RNA为模板,用RT-PCR法扩增全套抗体轻、重链基因;经重叠延伸反应,以编码柔性多肽（GIy4Ser）3的基因为接头,将轻、重链基因组装为完整的seFv基因,并克隆到pGEMT-Easy载体中进行测序分析。结果：所克隆的四环素scFV基因全长为735 bp,为VH-Linker-VL结构,VH基因为354bp,Linker为（Gly4Ser）3多肽的核酸序列,VL基因为336 bp。结论：构建了抗四环素的单链抗体基因,为进一步用于四环素的残留枪测奠审某础．     

Phage-Derived Fully Human Monoclonal Antibody Fragments to Human Vascular Endothelial Growth Factor-C Block Its Interaction with VEGF Receptor-2 and 3

Vascular endothelial growth factor C (VEGF-C) is a key mediator of lymphangiogenesis, acting via its receptors VEGF-R2 and VEGF-R3. High expression of VEGF-C in tumors correlates with increased lymphatic vessel density, lymphatic vessel invasion, sentinel lymph node metastasis and poor prognosis. Recently, we found that in a chemically induced skin carcinoma model, increased VEGF-C drainage from the tumor enhanced lymphangiogenesis in the sentinel lymph node and facilitated metastatic spread of cancer cells via the lymphatics. Hence, interference with the VEGF-C/VEGF-R3 axis holds promise to block metastatic spread, as recently shown by use of a neutralizing anti-VEGF-R3 antibody and a soluble VEGF-R3 (VEGF-C/D trap). By antibody phage-display, we have developed a human monoclonal antibody fragment (single-chain Fragment variable, scFv) that binds with high specificity and affinity to the fully processed mature form of human VEGF-C. The scFv binds to an epitope on VEGF-C that is important for receptor binding, since binding of the scFv to VEGF-C dose-dependently inhibits the binding of VEGF-C to VEGF-R2 and VEGF-R3 as shown by BIAcore and ELISA analyses. Interestingly, the variable heavy domain (V_H) of the anti-VEGF-C scFv, which contains a mutation typical for camelid heavy chain-only antibodies, is sufficient for binding VEGF-C. This reduced the size of the potentially VEGF-C-blocking antibody fragment to only 14.6 kDa. Anti-VEGF-C V_H-based immunoproteins hold promise to block the lymphangiogenic activity of VEGF-C, which would present a significant advance in inhibiting lymphatic-based metastatic spread of certain cancer types.     

Antigen binding and stability properties of non-covalently linked anti-CD22 single-chain Fv dimers

By varying linker length and domain orientation three multivalent derivatives of a monovalent anti-CD22 single-chain fragment variable (scFv) antibody were generated. Shortening the linker of the V(H)-V(L) oriented scFv to 5 or 0 residues resulted in the formation of diabodies or a mixture of tetramers and trimers, respectively. Unexpectedly, a V(L)-0-V(H) scFv assembled to homogenous dimers, remained substantially more stable than the V(H)-5-V(L) diabody when incubated in human serum at 37 degrees C, and retained its dimeric state when concentrated up to 4 mg/ml. These properties suggest the V(L)-0-V(H) scFv could become an attractive vehicle for the selective delivery of multiple effector molecules to CD22(+) tumor cells.     

单链抗体的研究进展

单链抗体即单链抗体可变区片段(single-chain antibody variable fragment,or ScFv)是由抗体重链可变区和轻链可变区通过一段10-25个氨基酸的连接肽连接而成,其分子质量小,穿透力强,特异性好,免疫原性低,在免疫学和医学方面得到了广泛应用。本文就单链抗体的结构设计、展示系统、表达和应用方面做一综述。     

Construction and expression of anti-Tn-antigen-specific single-chain antibody genes from hybridoma producing MLS128 monoclonal antibody

Anti-Tn-antigen monoclonal antibody MLS128 has affinity for three consecutive Tn-antigens (Tn3) more than Tn2. The major aim of this study was to isolate genes encoding MLS128 variable domains to produce a large quantity of recombinant MLS128 antibodies, in turn, allowing the conduct of studies on precise interactions between Tn3- or Tn2-epitopes and MLS128. This study describes cloning of the variable region genes of MLS128, construction of the variable region genes in single-chain variable fragments (scFv) and two scFvs conjugated with human IgG(1) hinge and Fc regions (scFv-Fc) types, and their respective expression in bacterial and mammalian cell. MLS128 scFv protein with the expected specificity and affinity was successfully prepared from inclusion bodies accumulating in Escherichia coli. Construction, expression and purification of two types of MLS128-scFv-Fc proteins with differing linker lengths in Chinese hamster ovary cells demonstrated that the purified scFv-Fc proteins had binding activity specific to the glycoprotein-expressing Tn-antigen clusters. These results revealed that VL and VH genes cloned from the hybridoma represent those of MLS128 and that recombinant antibodies produced from these genes should provide sufficient amounts of binding domains for use in 3D structural studies such as NMR and X-ray analysis.     

Construction, expression and characterisation of a single-chain diabody derived from a humanised anti-Lewis Y cancer targeting antibody using a heat-inducible bacterial secretion vector

 A single-chain antibody fragment (scFv) of the humanised monoclonal antibody, hu3S193, that reacts specifically with Le^y antigen expressed in numerous human epithelial carcinomas was constructed. A five-residue linker joined the C-terminus of the V_H and the N-terminus of the V_L, which prevented V-domain association into a monomeric scFv and instead directed non-covalent association of two scFvs into a dimer or diabody. The diabody was secreted into the E. coli periplasm using a heat-inducible vector, pPOW3, and recovered as a soluble, correctly processed protein, following osmotic shock or solubilised with 4M urea from the insoluble fraction. The diabody from both fractions was isolated by a rapid batch affinity chromatography procedure, using the FLAG affinity tag to minimise degradation and aggregation. The purified diabody has an M_r of ˜54 kDa, was stable and demonstrated similar binding activity as the parent monoclonal antibody, as measured by FACS and BIAcore analyses. The radiolabelled diabody showed a rapid tumour uptake, with fast blood clearance, proving it to be an excellent potential candidate as a tumour-imaging agent. Received: 16 November 2000 / Accepted: 8 March 2001     

Stability engineering of anti-EGFR scFv antibodies by rational design of a lambda-to-kappa swap of the VL framework using a structure-guided approach

Phage-display technology facilitates rapid selection of antigen-specific single-chain variable fragment (scFv) antibodies from large recombinant libraries. ScFv antibodies, composed of a V_H and V_L domain, are readily engineered into multimeric formats for the development of diagnostics and targeted therapies. However, the recombinant nature of the selection strategy can result in V_H and V_L domains with sub-optimal biophysical properties, such as reduced thermodynamic stability and enhanced aggregation propensity, which lead to poor production and limited application. We found that the C10 anti-epidermal growth factor receptor (EGFR) scFv, and its affinity mutant, P2224, exhibit weak production from E. coli. Interestingly, these scFv contain a fusion of lambda3 and lambda1 V-region (LV3 and LV1) genes, most likely the result of a PCR aberration during library construction. To enhance the biophysical properties of these scFvs, we utilized a structure-based approach to replace and redesign the pre-existing framework of the V_L domain to one that best pairs with the existing V_H. We describe a method to exchange lambda sequences with a more stable kappa3 framework (KV3) within the V_L domain that incorporates the original lambda DE-loop. The resulting scFvs, C10KV3_LV1DE and P2224KV3_LV1DE, are more thermodynamically stable and easier to produce from bacterial culture. Additionally, C10KV3_LV1DE and P2224KV3_LV1DE retain binding affinity to EGFR, suggesting that such a dramatic framework swap does not significantly affect scFv binding. We provide here a novel strategy for redesigning the light chain of problematic scFvs to enhance their stability and therapeutic applicability.     

Stability engineering of anti-EGFR scFv antibodies by rational design of a lambda-to-kappa swap of the VL framework using a structure-guided approach

Phage-display technology facilitates rapid selection of antigen-specific single-chain variable fragment (scFv) antibodies from large recombinant libraries. ScFv antibodies, composed of a V_H and V_L domain, are readily engineered into multimeric formats for the development of diagnostics and targeted therapies. However, the recombinant nature of the selection strategy can result in V_H and V_L domains with sub-optimal biophysical properties, such as reduced thermodynamic stability and enhanced aggregation propensity, which lead to poor production and limited application. We found that the C10 anti-epidermal growth factor receptor (EGFR) scFv, and its affinity mutant, P2224, exhibit weak production from E. coli. Interestingly, these scFv contain a fusion of lambda3 and lambda1 V-region (LV3 and LV1) genes, most likely the result of a PCR aberration during library construction. To enhance the biophysical properties of these scFvs, we utilized a structure-based approach to replace and redesign the pre-existing framework of the V_L domain to one that best pairs with the existing V_H. We describe a method to exchange lambda sequences with a more stable kappa3 framework (KV3) within the V_L domain that incorporates the original lambda DE-loop. The resulting scFvs, C10KV3_LV1DE and P2224KV3_LV1DE, are more thermodynamically stable and easier to produce from bacterial culture. Additionally, C10KV3_LV1DE and P2224KV3_LV1DE retain binding affinity to EGFR, suggesting that such a dramatic framework swap does not significantly affect scFv binding. We provide here a novel strategy for redesigning the light chain of problematic scFvs to enhance their stability and therapeutic applicability.     

Functional construction of the anti-mucin core protein (MUC1) antibody MUSE11 variable regions in a bacterial expression system

A bacterial expression system for the variable region fragments (Fvs) of the anti-MUC1 tumor antigen antibody MUSE11 has been constructed. The Fv fragment showed binding specificity toward TFK-1 cells, with slightly reduced affinity compared to its parent IgG. The single-chain Fv fragment was arranged in two orders, VH-linker-VL and VL-linker-VH. However, linking the regions with a flexible peptide linker (GGGGS)(3) or with a shorter linker (GGGGS) led to a dramatic decrease in the biological activity toward the target antigen in both arrangements, suggesting that the MUSE11 antibody loses its activity when the domains are linked with polypeptide linkers. These results indicate that the variable region domains of the anti-MUC1 antibody MUSE11 have specificity only in the Fv form, and that linking the domains strongly reduces the association with its target antigen. Gel filtration analysis indicates that the scFv has a dimeric structure, suggesting that the inactivation of MUSE11 scFv is due to unfavorable intermolecular associations of the scFv chains. To our knowledge, this is the first report of a significant reduction in affinity caused by linking the variable domains in both arrangements, i.e., VH-VL and VL-VH.     

Pharmacokinetics and biodistribution of a light-chain-shuffled CC49 single-chain Fv antibody construct

Murine monoclonal antibodies to tumor-associated glycoprotein 72 (anti-TAG-72 mAb B72.3 and CC49) are among the most extensively studied mAb for immunotherapy of adenocarcinomas. They have been used clinically to localize primary and metastatic tumor sites; however, murine mAb generally induce potent human anti-(mouse antibody) responses. The immunogenicity of murine mAb can be minimized by genetic humanization of these antibodies, where non-human regions are replaced by the corresponding human sequences or complementary determining regions are grafted into the human framework regions. We have developed a humanized CC49 single-chain antibody construct (hu/muCC49 scFv) by replacing the murine CC49 variable light chain with the human subgroup IV germline variable light chain (Hum4 V_L). The major advantages of scFv molecules are their excellent penetration into the tumor tissue, rapid clearance rate, and much lower exposure to normal organs, especially bone marrow, than occur with intact antibody. The biochemical properties of hu/muCC49 scFv were compared to those of the murine CC49 scFv (muCC49 scFv). The association constants (K _a) for hu/muCC49 and muCC49 constructs were 1.1 × 10⁶ M⁻¹ and 1.4 × 10⁶ M⁻¹ respectively. Pharmacokinetic studies in mice showed similar rapid blood and whole-body clearance with a half-life of 6 min for both scFv. The biodistribution studies demonstrated equivalent tumor targeting to human colon carcinoma xenografts for muCC49 and hu/muCC49 scFv. These results indicate that the human variable light-chain subgroup IV can be used for the development of humanized or human immunoglobulin molecules potentially useful in both diagnostic and therapeutic applications with TAG-72-positive tumors. Received: 29 December 1999 / Accepted: 4 February 2000     

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     

The Production of Miniantibodies Against Human Granulocyte Colony-Stimulating Factor Using the Murine scFv Combinatory Library

To develop a phage display of single-chain antibodies (scFv), fractions of total cell DNA and RNA were obtained from splenocytes of naive mice. The DNA fragments encoding variable regions of light and heavy immunoglobulin chains were amplified and isolated using primers specific to the conservative regions of these genes. The construction of the library was based on the principle of stochastic combining the DNA fragments encoding the light and heavy antibody chains with the DNA linker, whose structure corresponded to the (Gly₄Ser)₃ sequence. The scFv library was constructed using the E. coli TG1 strain and the phagemid vector pHEN1. The repertoire of the library exceeded 5 × 10⁷ independent recombinant clones. The clones producing antibodies to human granulocyte colony-stimulating factor were isolated. The affinity constants of the resulting scFv were in the range of 2 × 10⁴ to 1.8 × 10⁷ M^–1.