Overexpression,Effective Renaturation,and Bioactivity of Novel Single‐Chain Antibodies Against TNF‐α

Abstract

Neutralization of tumor necrosis factor‐α (TNF‐α) has become an effective therapeutic strategy for TNF‐related autoimmune diseases. Due to the limitations of the large molecular inhibitors in the therapy, development of novel TNF‐α inhibitors is very attractive and useful. In this study, based on the previously designed domain antibody, two novel human anti‐TNF single‐chain antibodies were constructed using modular consensus frameworks of human antibody as scaffold to display the antagonistic peptides. A variety of expression plasmids were used to determine the optimal expression system. The single‐chain antibodies were always overexpressed in E.coli BL21(DE3) host as inclusion bodies. Under the optimized refolding conditions, the inclusion bodies were renatured successfully and the refolded single‐chain antibodies could bind with TNF‐α and block TNF‐induced cytotoxicity on L929 cells. The bioactivity of the single‐chain antibodies was significantly increased over the domain antibody.     

Development of a compact anti-BAFF antibody in Escherichia coli

Recombinant antibodies, especially single-chain antibody fragment (scFv), can be applied as detection reagents and even substitute for some reagents used in immunoassays. For scFv fragments, there is no such universal system available up to now. We have constructed vectors for the convenient, rapid expression of a novel compact antibody composed of anti-B-cell-activating factor of the TNF family (BAFF) scFv and the Fc portion (the hinge region, CH2, and CH3 domains) of the human IgG1 in Escherichia coli. After expression in bacteria as inclusion bodies, the recombinant antibody was purified and refolded in vitro. The scFv-Fc antibody was demonstrated to retain high binding affinity to antigen, including membrane-bound BAFF and soluble BAFF, and to possess some human IgG crystallizable fragment domain functions, such as human complement C1q and protein A binding. Both size-exclusion high-performance liquid chromatography column analysis and Western blotting of proteins subjected to nonreducing sodium dodecyl sulfate polyacrylamide gel electrophoresis suggested that scFv-Fc antibody is homodimeric with relative molecular mass of 110 kDa. These findings suggest that the compact antibody may be useful in diagnostic application for the prediction of BAFF relevant to autoimmune diseases in human.     

Matrix-assisted refolding of single-chain Fv- cellulose binding domain fusion proteins.

We describe a method for the isolation of recombinant single-chain antibodies in a biologically active form. The single-chain antibodies are fused to a cellulose binding domain as a single-chain protein that accumulates as insoluble inclusion bodies upon expression in Escherichia coli. The inclusion bodies are then solubilized and denatured by an appropriate chaotropic solvent, then reversibly immobilized onto a cellulose matrix via specific interaction of the matrix with the cellulose binding domain (CBD) moiety. The efficient immobilization that minimizes the contact between folding protein molecules, thus preventing their aggregation, is facilitated by the robustness of the Clostridium thermocellum CBD we use. This CBD is unique in retaining its specific cellulose binding capability when solubilized in up to 6 M urea, while the proteins fused to it are fully denatured. Refolding of the fusion proteins is induced by reducing with time the concentration of the denaturing solvent while in contact with the cellulose matrix. The refolded single-chain antibodies in their native state are then recovered by releasing them from the cellulose matrix in high yield of 60% or better, which is threefold or higher than the yield obtained by using published refolding protocols to recover the same scFvs. The described method should have general applicability for the production of many protein-CBD fusions in which the fusion partner is insoluble upon expression.     

Development and characterization of a novel fusion protein composed of a human IgG1 heavy chain constant region and a single-chain fragment variable antibody against Venezuelan equine encephalitis virus

Murine monoclonal antibody 1A4A1 has been shown to recognize a conserved neutralizing epitope of envelope glycoprotein E2 of Venezuelan equine encephalitis virus. It is a potential candidate for development of a second generation antibody for both immunodiagnosis and immunotherapy. In order to minimize the immunogenicity of murine antibodies and to confer human immune effector functions on murine antibodies, a recombinant gene fusion was constructed. It encoded a human IgG1 heavy chain constant region and a single-chain fragment variable antibody of 1A4A1. After expression in bacteria as inclusion bodies, the recombinant antibody was purified and refolded in vitro. The recombinant soluble antibody was demonstrated to retain high antigen-binding affinity to Venezuelan equine encephalitis virus and to possess some human IgG crystallizable fragment domain functions, such as recognition by protein G and human complement C1q binding. On non-reducing and reducing gel electrophoresis analysis of proteolytic fragments of the recombinant antibody, disulfide bond formation was found in the hinge region of the antibody. From these data, it was concluded that the recombinant antibody was capable of antigen recognition, and retained several functional activities. This work forms the basis for characterization of the recombinant antibody as to efficacy in vivo.     

Cloning, expression, purification, and characterization of a novel single-chain variable fragment antibody against the 2-nitrobenzaldehyde derivative of a furaltadone metabolite in Escherichia coli

Furaltadone is an illicit veterinary drug that shows toxic, carcinogenic, and mutagenic effects, as does its metabolite 3-amino-5-morpholinomethyl-2-oxazolidone (AMOZ)(1). Recombinant antibodies with desirable affinity and specificity that can replace polyclonal or monoclonal antibodies are important factors for effective AMOZ immunoassays. In the present study, a novel single-chain variable fragment (scFv) antibody against the 2-nitrobenzaldehyde derivative of AMOZ (NPAMOZ) was prepared and characterized. The scFv gene was cloned into the pET-22b(+) expression vector, and 6His-tagged scFv antibodies expressed as inclusion bodies in Escherichia coli BL21 (DE3), which were then purified by nickel nitrilotriacetic acid column chromatography. Characterization of the target protein by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), western blotting, and a novel indirect competitive chemiluminescence enzyme immunoassay (icCLEIA) showed that the scFv antibody was ～27kDa and exhibited HRP-anti-His-tag antibody-recognized activity. The final purity, yield and mg of this scFv antibody after ultrafiltration concentration were 97%, 20% and 29.1mg, respectively. The icCLEIA indicated that the antibody competitively combined with NPAMOZ, exhibiting an IC(50) value of 1.46±0.01 ng/ml (n=6). Cross-reactivity studies revealed that the antibody showed desirable specificity to NPAMOZ and little reactivity to analogs except the parent furaltadone. In summary, these findings suggested that the prepared recombinant scFv antibody can be used for future immunoassay screening for AMOZ.     

Immobilized oxidoreductase as an additive for refolding inclusion bodies: application to antibody fragments

Three foldases--the apical domain of GroEL (mini-chaperone) and two oxidoreductases (DsbA and DsbC) from Escherichia coli--were studied in refolding a protein with immunoglobulin fold (immunoglobulin-folded protein) that had been produced as inclusion bodies in E.coli. The foldases promoted the refolding of single-chain antibody fragments from denaturant-solubilized and reduced inclusion bodies in vitro, and also effectively functioned as alternatives for labilizing agent and oxidizing reagent in the stepwise dialysis system. Immobilization of the oxidoreductases enhanced refolding and recovery of functional single-chain antibody in the dialysis system, suggesting that immobilized oxidoreductases can be used as an effective additive for refolding immunoglobulin-folded proteins in vitro.     

肝癌特异性鼠源及人源化单链抗体基因的克隆与表达

为探讨肝癌特异性鼠源及其人源化单链抗体基因的表达策略并比较二者的结合能力,在3种载体中分别以融合、分泌及胞内表达的方式进行了研究;对复性后的单链抗体以抗原捕获ELISA法进行检测。结果表明,在3种载体中表达的鼠源及人源化单链抗体都是包含体,诱导物浓度及培养温度不影响表达形式;抗原捕获细胞ELISA表明人源化的单链抗体和鼠源单链抗体有相近的抗原结合能力。结论是:在大肠杆菌中表达的基因工程单链抗体的可溶性可能主要由自身氨基酸一级序列决定;先前的设计所采取的人源化方案没有影响到鼠源抗体的CDRs的天然构象,表达的人源化单链抗体提供了免疫原性评价及临床应用的基础。     

肝癌特异性鼠源及人源化单链抗体基因的构建及大肠杆菌中的表达

为探讨一株肝细胞癌特异性鼠源及其人源化单链抗体基因在大肠杆菌中的可溶性表达策略并比较二者对抗原的结构能力,在三种载体中分别以融合、分泌及胞内表达的方式进行了研究,表达产物均以包涵体形式存在;对复性后的单链抗体以细胞ＥＬＩＳＡ及竞争抑制流式细胞仪法进行检测,表明人源化单链抗体和鼠源单链抗体有相近的抗原结合能力。结论是：大肠杆菌中表达的基因工程单链抗体的可溶性可能主要由自身氨基酸一级序列决定;先前的设     

抗人CD3改形单链抗体的构建、表达及活性测定

ＣＤ３单抗通过多种途径有效地同体的免疫状态,在临床应用中具有极大的潜力。为克服鼠源单抗用于临床的局限性,拟采用抗体工程技术研制抗人ＣＤ３改形单链抗体。首先,将鼠源ＣＤ３单抗ＯＫＴ３轻重链ＣＤＲｓ分别移植到人源抗体ＬＳ１轻链和Ｎｄ重链的框架中,经计算机模拟其空间构象,进行残基替换,确定ＣＤ３改形ＶＬ、ＶＨ氨基酸序列,化学合成改形ＶＬ、ＶＨ基因,将其分别插入至载体ｐＲＯＨ８０中,构建成抗人ＣＤ３改形单     

A new Escherichia coli strain producing human tumor necrosis factor

An Escherichia coli strain producing human tumor necrosis factor (TNF-alpha) was obtained using a semisynthetic gene partially optimized in respect of codon composition and a phage T7 promoter. The expression product was accumulated in cells as inclusion bodies in a yield of 50-70 mg/l of culture medium. The recombinant TNF-alpha in the form of inclusion bodies was used for immunization of rats to give a polyclonal antiserum. The resulting antibodies were specific under the immunoblotting conditions to the antigen used for the immunization. A dilution-based refolding procedure was developed; it provided a yield of soluble protein exceeding 85%.     

Obtaining of ScFv-CBD fusion protein and its application for affinity purification of recombinant human interferon alpha2b

The gene of ScFv-CBD-fusion protein has been designed using the DNA sequences encoding of single-chain antibody (ScFv) against human interferon alpha2b (IFN-alpha2b) and cellulose-binding domain (CBD) from Clostridium thermocellum cellulosome. Biosynthesis of ScFv-CBD utilizing high-productive Escherichia coli system was carried out and the accumulation of target protein in bacterial inclusion bodies was shown. After the purification of the inclusion bodies and their subsequent in vitro refolding the soluble ScFv-CBD-fusion protein was directly immobilized on cellulose by bioaffinity coupling. The possibility to obtain the preparative quantities of ScFv-CBD in biologically-active form using different refolding schemes was accurately investigated in the paper. The general applicability of biologically immobilized ScFv-CBD-fusion proteins for affinity purification of recombinant IFN-alpha2b is shown.     

富亮氨酸重复超家族新成员LRRC4的IgC2结构域蛋白的原核表达和纯化

富亮氨酸重复超家族新成员LRRC4基因是新克隆的脑瘤相关基因,采用多聚酶链式反应（PCR）方法获得长约500bp含IgC2结构域的DNA序列,扩增产物克隆至pGEX-4T-2质粒中,构建GST融合表达质粒,在大肠杆菌中诱导表达融合蛋白,经包涵体沉淀,溶解,Glutathione-Sepharose亲和层析纯化获得融合蛋白,并以Western blot鉴定证实,通过IgC2结构域蛋白的纯化分离该结构域,为进一步研究该结构域及LRRC4基因的结构和功能奠定了基础。     

Expression, purification, and refolding of a novel immunotoxin containing humanized single-chain fragment variable antibody against CTLA4 and the N-terminal fragment of human perforin

Immunotoxins might be potential in treatment of cancer for their ability to kill selected cell populations. We constructed a novel immunotoxin hS83P34 by fusing N-terminal 34 amino acid fragment of human perforin to the C-terminus of humanized single-chain fragment variable antibody against CTLA4. The fusion protein was inductively expressed as inclusion bodies at a high level about 30% of total bacterial proteins. After washing with buffer containing 2 M urea, the purity of inclusion body was about 71%. The washed inclusion bodies were solubilized in 8 M urea and further purified to homogeneity (approximately 92% purity) by cation-exchange chromatography and Ni-agarose affinity chromatography under denaturing condition. The inclusion body refolding conditions were optimized following Pro-Matrix Protein Refolding Guide. After refolded in Tris buffer (pH 8.0) containing 1M urea, 0.8 M l-arginine, and 2 mM GSH:0.2 mM GSSG or 2 mM GSH:0.4 mM GSSG for 18h at 4 degrees C, over 90% proteins were recovered from inclusion bodies. In vitro dose-dependent cytotoxicity assay demonstrates that hS83P34 is only toxic to CTLA4-positive cells. IC(50) of hS83P34 for leukemic cells Raji and 6T-CEM are about 0.85 and 1.3 microM individually. Whereas, CTLA4-negative endothelial cell ECV-304 is resistant to hS83P34.     

Rapid refolding and polishing of single-chain antibodies from Escherichia coli inclusion bodies

An inexpensive and fast-folding strategy for single-chain antibody (scFv) recovered from Escherichia coli inclusion bodies has been developed. Two anti-fluorescein single-chain antibodies, 4-4-20 and 4M5.3, were expressed as inclusion bodies in E. coli for use in a comparative refolding study. Active protein yields as well as degree of aggregation were evaluated for scFv produced by stepwise dialysis, redox dialysis, and a newly developed controlled dilution and filtration strategy. Although all three methods produced active protein for both 4-4-20 and 4M5.3, the extent of aggregation differed greatly among the methods. For 4-4-20, the controlled dilution and filtration strategy reduced aggregation by half, allowed batch processing times of 8h (an 18-fold improvement), and significantly reduced denaturant usage while increasing active yields by 150%. A hydroxyapatite resin polishing step was used to remove completely the aggregate species and inactive monomeric scFv from active scFv.     

A novel pro-apoptosis protein PNAS-4 from <Emphasis Type="Italic">Xenopus laevis</Emphasis>: Cloning,expression, purification,and polyclonal antibody production

Human PNAS-4 was identified as a novel pro-apoptotic protein in mammalian cells. Here we report the cloning, expression, purification, and antibody production of a PNAS-4 homolog (named xPNAS-4) from Xenopus laevis, an extensively used model organism in exploring gene functions during embryonic development. Recombinant histidine-tagged xPNAS-4 protein was expressed in Escherichia coli as insoluble inclusion bodies. The inclusion bodies were subsequently dissolved in 8 M urea and purified to near homogeneity by Ni2+ affinity chromatography. The resulting denatured protein was refolded by stepwise dilution of urea concentration via dialysis. This procedure yielded about 4 mg refolded protein per liter of E. coli culture with a purity of 95%. The purified protein was identified by liquid chromatography-electrospray ionization-quadrupole-time of flight-mass spectrometry (LC-ESI-Q-TOF-MS) and used to raise anti-xPNAS-4 polyclonal antibodies that were suitable for detecting the expression of PNAS-4 in X. laevis embryos by Western blotting. The availability of recombinant protein and specific polyclonal antibodies will provide a valuable tool in studying apoptotic mechanisms of this protein. To our knowledge, this is the first report to demonstrate the presence of PNAS-4 in X. laevis.     

A human synthetic combinatorial library of arrayable single-chain antibodies based on shuffling in vivo formed CDRs into general framework regions

We describe a novel approach for high-throughput screening of recombinant antibodies, based on their immobilization on solid cellulose-based supports. We constructed a large human synthetic single-chain Fv antibody library where in vivo formed complementarity determining regions were shuffled combinatorially onto germline-derived human variable-region frameworks. The arraying of library-derived scFvs was facilitated by our unique display/expression system, where scFvs are expressed as fusion proteins with a cellulose-binding domain (CBD). Escherichia coli cells expressing library-derived scFv-CBDs are grown on a porous master filter on top of a second cellulose-based filter that captures the antibodies secreted by the bacteria. The cellulose filter is probed with labeled antigen allowing the identification of specific binders and the recovery of the original bacterial clones from the master filter. These filters may be simultaneously probed with a number of antigens allowing the isolation of a number of binding specificities and the validation of specificity of binders. We screened the library against a number of cancer-related peptides, proteins, and peptide-protein complexes and yielded antibody fragments exhibiting dissociation constants in the low nanomolar range. We expect our new antibody phage library to become a valuable source of antibodies to many different targets, and to play a vital role in facilitating high-throughput target discovery and validation in the area of functional cancer genomics.     

Expression and characterization of bispecific single-chain Fv fragments produced in transgenic plants.

We describe the expression of the bispecific antibody biscFv2429 in transgenic suspension culture cells and tobacco plants. biscFv2429 consists of two single-chain antibodies, scFv24 and scFv29, connected by the Trichoderma reesi cellobiohydrolase I linker. biscFv2429 binds two epitopes of tobacco mosaic virus (TMV): the scFv24 domain recognizes neotopes of intact virions, and the scFv29 domain recognizes a cryptotope of the TMV coat protein monomer. biscFv2429 was functionally expressed either in the cytosol (biscFv2429-cyt) or targeted to the apoplast using a murine leader peptide sequence (biscFv2429-apoplast). A third construct contained the C-terminal KDEL sequence for retention in the ER (biscFv2429-KDEL). Levels of cytoplasmic biscFv2429 expression levels were low. The highest levels of antibody expression were for apoplast-targeted biscFv2429-apoplast and ER-retained biscFv2429-KDEL that reached a maximum expression level of 1.65% total soluble protein in transgenic plants. Plant-expressed biscFv2429 retained both epitope specificities, and bispecificity and bivalency were confirmed by ELISA and surface plasmon resonance analysis. This study establishes plant cells as an expression system for bispecific single-chain antibodies for use in medical and biological applications.     

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.     

一种新的丙型肝炎病毒单链丝氨酸蛋白酶基因的构建、表达与鉴定

根据丙型肝炎病毒 (HCV)丝氨酸蛋白酶晶体结构特点 ,设计并构建了一种新的单链型丝氨酸蛋白酶分子 .该分子由辅因子NS4A的核心序列、柔性连接子GSGS和NS3丝氨酸蛋白酶结构域组成 .利用设计的 3条引物 ,通过 2轮PCR获得单链丝氨酸蛋白酶基因 ,插入原核表达载体pQE30中 ,转化大肠杆菌M15 ,获得重组克隆 .经低剂量诱导和低温培养 ,目的基因获得高水平可溶表达 .以金属螯合层析法纯化的重组蛋白纯度达 95 %以上 .间接ELISA法检测 98份血清证实 ,该蛋白具有良好的抗原性和特异性 ;以重组蛋白底物NS5ab和单链丝氨酸蛋白酶建立了简便、实用的丝氨酸蛋白酶体外活性检测系统 ;以该系统观察了PMSF和EDTA对蛋白酶活性的影响 .结果表明 ,PMSF能够抑制蛋白酶的酶切活性 ,而EDTA不能抑制酶的活性 .单链型HCV丝氨酸蛋白酶的成功表达以及体外活性检测系统的建立 ,为丝氨酸蛋白酶抑制剂的研制奠定了物质基础 .     

链间二硫键增强抗前胃泌素释放肽单链抗体稳定性

前胃泌素释放肽(pro-gastrin-releasing peptide, ProGRP)是小细胞肺癌的特异性标志物,¹³¹I标记的抗ProGRP单克隆抗体对小细胞肺癌具有明显的抑制作用。抗ProGRP单链抗体的制备具有重要的应用前景。本研究以抗ProGRP单克隆细胞株E-B₅ cDNA为模板,扩增获得VH和VL序列,并对其进行序列比对和同源建模,分析引入链间二硫键的突变位点。通过基因合成获得单链抗体Scfv_ProGRP和单链二硫键稳定抗体Sdsfv_ProGRP基因,并将其分别构建在质粒pET-28a,获得重组表达质粒pET28a-His-Scfv_ProGRP和pET28a-His-Sdsfv_ProGRP。重组表达质粒转化大肠杆菌BL21(DE3),诱导表达出的ScFv_ProGRP和SdsFv_ProGRP以包涵体的形式存在。包涵体经变复性后进行纯化,获得ScFv_ProGRP和SdsFv