Improved expression characteristics of single-chain Fv fragments when fused downstream of the Escherichia coli maltose-binding protein or upstream of a single immunoglobulin-constant domain

The expression of single-chain Fv fragments (scFv) targeted to the periplasm of Escherichia coli often results in very low yields of soluble protein frequently accompanied by host cell growth arrest and sometimes lysis. Single-chain antibody fragments (scAb) are scFv with a human kappa light chain constant (HuCkappa) domain attached C-terminally and share similar problems of expression. By fusing the E. coli maltose-binding protein (mbp) gene either 3' or 5' to a scAb specific for the herbicide atrazine, a reduction in growth arrest was observed that was dependent on the order of gene fusion. The scAb-mbp fusion delayed the onset of growth arrest following induction while the mbp-scAb fusion appeared to ablate growth arrest completely. Cell fractionation revealed barely detectable levels of scAb-mbp in the periplasm while mbp-scAb was detected at equivalent levels as scAb in the periplasmic compartment, indicating that periplasmic scAb solubility is unrelated to propensity to cause growth arrest. IMAC purification of scAb and mbp-scAb proteins followed by liquid competition ELISA revealed the IC(50) for atrazine to be approximately 1 nM for both proteins demonstrating that 5'-mbp fusion does not alter antigen binding. The equivalent scFv and mbp-scFv vectors expressed far less material in both periplasmic and insoluble fractions indicating that the HuCkappa domain can have a positive effect on scFv expression when expressed either alone or as a mbp fusion. The ablation of growth arrest by a 5'-mbp fusion and enhancement of expression by a 3'-HuCkappa domain fusion were extended to a second scFv specific for the herbicide diuron. Therefore, by expressing scFv as tripartite fusions (mbp-scFv-HuCkappa) enhanced levels of soluble periplasmic expression can be achieved without causing growth arrest of the host cell, realizing the potential for constitutive expression of hapten-binding scFv in the E. coli periplasm.     

Cloning and expression of single chain antibody fragments in Escherichia coli and Pichia pastoris

The potential of recombinant antibody fragments is likely to be fulfilled only if they can be produced routinely at high concentrations. We have compared the ability of Escherichia coli and Pichia pastoris to produce functional recombinant single chain antibody (scAb) fragments. Two scAb fragments were expressed, an antihuman type V acid phosphatase (TRAP) and an anti-Pseudomonas aeruginosa lipoprotein I. We report here that, while expression from P. pastoris resulted in a significantly increased level of expression of the anti-TRAP scAb compared to E. coli, neither fragment was able to bind its target antigen as well as the bacterial product.     

Overcoming antibody expression and screening limitations by smart design: applications to PSA immunoassay development

Improving the functional and structural properties of target proteins can often be a challenge for researchers. This paper highlights the importance of antibody construct on screening performance, and ultimately, the clone that is selected. We report the reformatting of phage-selected single chain antibody variable region fragments (scFvs) into single chain antibody fragments (scAbs) for improved screening and binding studies. The generation of a scAb, which had a fused human kappa light chain constant domain (C(k)), was shown to significantly improve expression levels in Escherichia coli. Antibody expression levels were compared between the two antibody constructs (scFv and scAb) by ELISA and a 100-fold improvement was observed. The C(k) domain in the expressed scAb also facilitated high throughput analysis by a Biacore capture assay approach. Individual functional scAbs were ranked on the basis of their remaining binding percentage after 5 min dissociation. Selected antibodies were further characterised by kinetic analysis and a sandwich-based immunoassay developed. The scAb construct enhanced expression levels significantly, facilitating antibody screening and immunoassay development for prostate-specific antigen (PSA), a marker for prostate cancer.     

Rapid isolation of a single-chain antibody against the cyanobacterial toxin microcystin-LR by phage display and its use in the immunoaffinity concentration of microcystins from water

A na?ve (unimmunized) human semisynthetic phage display library was employed to isolate recombinant antibody fragments against the cyanobacterial hepatotoxin microcystin-LR. Selected antibody scFv genes were cloned into a soluble expression vector and expressed in Escherichia coli for characterization against purified microcystin-LR by competition enzyme-linked immunosorbent assay (ELISA). The most sensitive single-chain antibody (scAb) isolated was capable of detecting microcystin-LR at levels below the World Health Organization limit in drinking water (1 microg liter(-1)) and cross-reacted with three other purified microcystin variants (microcystin-RR, -LW, and -LF) and the related cyanotoxin nodularin. Extracts of the cyanobacterium Microcystis aeruginosa were assayed by ELISA, and quantifications of microcystins in toxic samples showed good correlation with analysis by high-performance liquid chromatography. Immobilized scAb was also used to prepare immunoaffinity columns, which were assessed for the ability to concentrate microcystin-LR from water for subsequent analysis by high-performance liquid chromatography. Anti-microcystin-LR scAb was immobilized on columns via a hexahistidine tag, ensuring maximum exposure of antigen binding sites, and the performance of the columns was evaluated by directly applying 150 ml of distilled water spiked with 4 micro g of purified microcystin-LR. The procedure was simple, and a recovery rate of 94% was achieved following elution in 1 ml of 100% methanol. Large-scale, low-cost production of anti-microcystin-LR scAb in E. coli is an exciting prospect for the development of biosensors and on-line monitoring systems for microcystins and will also facilitate a range of immunoaffinity applications for the cleanup and concentration of these toxins from environmental samples.     

Rapid Isolation of a Single-Chain Antibody against the Cyanobacterial Toxin Microcystin-LR by Phage Display and Its Use in the Immunoaffinity Concentration of Microcystins from Water

A naïve (unimmunized) human semisynthetic phage display library was employed to isolate recombinant antibody fragments against the cyanobacterial hepatotoxin microcystin-LR. Selected antibody scFv genes were cloned into a soluble expression vector and expressed in Escherichia coli for characterization against purified microcystin-LR by competition enzyme-linked immunosorbent assay (ELISA). The most sensitive single-chain antibody (scAb) isolated was capable of detecting microcystin-LR at levels below the World Health Organization limit in drinking water (1 μg liter⁻¹) and cross-reacted with three other purified microcystin variants (microcystin-RR, -LW, and -LF) and the related cyanotoxin nodularin. Extracts of the cyanobacterium Microcystis aeruginosa were assayed by ELISA, and quantifications of microcystins in toxic samples showed good correlation with analysis by high-performance liquid chromatography. Immobilized scAb was also used to prepare immunoaffinity columns, which were assessed for the ability to concentrate microcystin-LR from water for subsequent analysis by high-performance liquid chromatography. Anti-microcystin-LR scAb was immobilized on columns via a hexahistidine tag, ensuring maximum exposure of antigen binding sites, and the performance of the columns was evaluated by directly applying 150 ml of distilled water spiked with 4 μg of purified microcystin-LR. The procedure was simple, and a recovery rate of 94% was achieved following elution in 1 ml of 100% methanol. Large-scale, low-cost production of anti-microcystin-LR scAb in E. coli is an exciting prospect for the development of biosensors and on-line monitoring systems for microcystins and will also facilitate a range of immunoaffinity applications for the cleanup and concentration of these toxins from environmental samples.     

Production of Uninfectious Human Immunodeficiency Virus Type 1 Containing Viral Protein R Fused to a Single-Chain Antibody against Viral Integrase

A single-chain antibody (scAb) against human immunodeficiency virus type 1 (HIV-1) integrase was expressed as a fusion protein of scAb and HIV-1 viral protein R (Vpr), together with the HIV-1 genome, in human 293T cells. The expression did not affect virion production much but markedly reduced the infectivity of progeny virions. The fusion protein was found to be incorporated into the virions. The incorporation appears to account for the reduced infectivity.     

Escherichia coli skp chaperone coexpression improves solubility and phage display of single-chain antibody fragments

Expression of single-chain antibody fragments (scAb)in the periplasm of Escherichia coli often results in low soluble product yield and cell lysis. We have increased scAb solubility and prevented cell culture lysis by coexpressing the E. coli Skp chaperone gene. A mutant Skp cistron was linked to a bacteriophage T7 gene 10 translational initiation region and placed either downstream of a scAb gene within an isopropyl beta-d-thiogalactopyranoside-inducible expression cassette or on a separate colE1-compatible arabinose-inducible vector. Increases in scAb solubility reflected the amount of coexpressed Skp. A bacteriophage display vector that was also engineered to coexpress Skp permitted display of a virtually undisplayable scAb and should prove useful in expanding library sizes.     

Production of soluble and functional engineered antibodies in Escherichia coli improved by FkpA

Overproduction of genetically engineered antibodies, such as single-chain antibodies (scAbs) in Escherichia coli often results in insoluble and inactive products known as inclusion bodies. We now report that fusion or co-expression of FkpA, the E. coli periplasmic peptidyl-prolyl-isomerase with chaperone activity, substantially improves soluble and functional expression of scAbs. Anti-human bladder carcinoma scAb (PG) and anti-human CD3 x anti-human ovarian carcinoma-bispecific scAb (BH1) were fused with FkpA on the pTMF-based plasmid and expressed in E. coli. More than half of the amount of each expressed fusion protein FkpA-PG or FkpA-BH1 was soluble. In addition, the fusion protein cellulose-binding domain from Cellulomonas fimi (CBD)-PG and anti-human CD3 x anti-human CD28 x anti-human ovarian carcinoma-trispecific scAb (TRI) fused to the pelB (a signal peptide from pectate lysase B of a Bacillus sp.) signal sequence were co-expressed with FkpA under the control of the T7 promoter. A substantial portion of the co-expressed CBD-PG or TRI was soluble. Furthermore, PG, BH1, and TRI were biologically active as judged by ELISA and in vitro cytotoxicity assay. These results suggest that overexpression of FkpA should be useful in expressing heterologous proteins in E. coli.     

Escherichia coliSkp Chaperone Coexpression Improves Solubility and Phage Display of Single-Chain Antibody Fragments

Expression of single-chain antibody fragments (scAb)in the periplasm ofEscherichia colioften results in low soluble product yield and cell lysis. We have increased scAb solubility and prevented cell culture lysis by coexpressing theE. coliSkp chaperone gene. A mutant Skp cistron was linked to a bacteriophage T7 gene 10 translational initiation region and placed either downstream of a scAb gene within an isopropyl β- -thiogalactopyranoside-inducible expression cassette or on a separate colE1-compatible arabinose-inducible vector. Increases in scAb solubility reflected the amount of coexpressed Skp. A bacteriophage display vector that was also engineered to coexpress Skp permitted display of a virtually undisplayable scAb and should prove useful in expanding library sizes.     

SARS冠状病毒NS融合蛋白的重组表达纯化与免疫学性质分析(英文)

刺突蛋白(S)和核心蛋白(N)是SARS冠状病毒的主要结构蛋白.在病毒细胞受体结合和病毒包装过程起重要作用.重组融合表达这2种蛋白具有较高的诊断学价值.对SARS病毒N蛋白和S蛋白氨基酸序列进行计算机分析,选择含有优势抗原表位的N蛋白1～227位氨基酸片段和S蛋白450～650位氨基酸片段,采用序列重叠延伸策略(sequenceoverlappingextension,SOE)构建编码N1227LinkerS450650新型融合蛋白的基因片段,导入原核表达载体,实现融合蛋白在大肠杆菌的高效表达.利用组氨酸标签亲和层析的方法纯化,获得高纯度的融合蛋白.对该融合蛋白的结构特征模拟分析的结果显示,其免疫化学性质均无显著改变.采用ELISA和Western印迹方法对其识别SARS冠状病毒特异性抗体的能力进行初步鉴定,显示该融合蛋白具有较好的抗原性和特异性,可有效特异性地检测恢复期SARS病人血清中抗SARS冠状病毒结构蛋白的抗体,可以作为SARS冠状病毒感染的辅助诊断手段.     

Syngeneic anti-idiotypic monoclonal antibodies against an anti-human chorionic gonadotrophin antibody

Monoclonal antibody designated 1B10 (Mab 1B10) has been shown to be highly specific for the beta-chain of human chorionic gonadotrophin (HCG). We used this antibody to investigate its paratope using anti-idiotypic antibodies. Purified Mab 1B10 has been used to immunize syngeneic BALB/c mice to produce anti-idiotypic monoclonal antibodies. An enzyme immunoassay (ELISA) on Mab 1B10 coated plate was employed to screen the supernatants of growing hybridomas. The specificity of each antibody selected was assessed using an inhibition ELISA and immunoblotting. Monoclonal antibodies belonging to two categories were selected. (a) Those (designated Mab 4F8 and Mab 7G9) recognizing epitopes of the Ig molecule located in/or near the antigen-binding site of Mab 1B10. In ELISA these antibodies were shown to inhibit in a dose-dependent manner, the reaction of Mab 1B10 with its specific antigen; (b) those (Mab 2B8, Mab 3B8) reacting with epitopes located outside of the antigen binding site of the antiHCG antibody molecule and did not influence the reactions of Mab 1B10 and its antigen. Following immunization of syngeneic BALB/c mice monoclonal antibodies (Mab 4F8, Mab 7G9) were produced which recognized epitopes located on the variable region of Mab 1B10 since they did not react with other marine monoclonal antibodies of the same isotype. These antibodies inhibited the binding of Mab 1B10 to its corresponding epitope on the molecule of HCG and they can be defined as syngeneic anti-idiotypic antibodies.     

Bacterial single-chain antibody fragments, specific for carcinoembryonic antigen.

We have produced single-chain antibody (scFv) fragments in bacteria specific for carcinoembryonic antigen (CEA). Polymerase chain reaction (PCR) was used for the cloning and modification of the heavy and light variable regions (VH and VL) of the mouse monoclonal antibody (MAb) CB-CEA.1. A 14-amino acid linker was used in the synthesis of the scFv gene. The VH and VL regions were amplified from cDNA by PCR using 5' end FR1 and 3' end constant region primers, and then sequenced. VH was then amplified by PCR using an exact 5' end FR1 primer, and a phosphorylated (PP) 3' end primer for J2 that also encoded the first 7 amino acids of the linker. VL was amplified with a PP 5' end primer for FR1, also encoding the remaining 7 amino acids of the linker, and a 3' end primer for J5, plus a stop codon and a BglII restriction site. The fragments were ligated and reamplified with the PP VH 5' and VL 3' end primers. The VH-linker-VL structure was blunt-cloned into expression vectors bearing the tryptophan promoter and pelB or ompA signal peptide sequences. Culture supernatant, bacteria pellet and periplasm preparations were assayed in Western blot and a protein of about 27 kDa was identified with rabbit antibodies specific for the Fab of CB-CEA.1. Bacterial supernatant and periplasm preparations also inhibited the recognition of CEA by HRP-labeled CB-CEA.1 in enzyme-linked immunosorbent assay (ELISA). Periplasm preparations were purified by affinity chromatography with specific anti-idiotypic MAbs. The Western blot of the eluates identified a protein of approximately 27 kDa that blocked the recognition of CEA by HRP-labeled CB-CEA.1 in ELISA. The VH-linker-VL structure was cloned into a vector bearing the lacZ promoter and the pelB signal peptide. The recombinant bacterial clones also expressed about 27 kDa scFv, specific for CEA.     

High-level production of a single chain antibody against anthrax toxin in Escherichia coli by high cell density cultivation

Previously, we isolated the M18 scFv, which is an affinity matured antibody against the anthrax toxin PA, and observed that its single chain antibody (scAb) form (M18 scAb) exhibited superior stability compared to the scFv. Here, we report high cell density cultivations for preparative scale production of M18 scAb in a 3.5 L fermenter. Briefly, a pH–stat feeding strategy was employed in fed-batch cultivation, and four different cell densities (OD₆₀₀ of 40, 80, 120, and 150) were examined for the induction of scAb gene expression. Among the four cell densities investigated, lower cell densities (OD₆₀₀ of 40) showed higher post-induction cell growth and production yields (665 mg/L of scAb). Even though lower solubility (51%) of scAb was achieved at lower cell density (OD₆₀₀ of 40), monomeric scAb could be purified with high purity (>95%) using simple purification procedures. The purified scAb from high cell density cultures showed biological activity equivalent to that of scAb purified from shake flask cultivation.     

Combination of Dsb coexpression and an addition of sorbitol markedly enhanced soluble expression of single-chain Fv in Escherichia coli

Many eukaryotic proteins have been produced successfully in Escherichia coli. However, not every gene can be expressed efficiently in this organism. Most proteins, especially those with multiple disulfide bonds, have been shown to form insoluble protein or inclusion body in E. coli. An inactive form of protein would require an in vitro refolding step to regain biological functions. In this study, we described the system for soluble expression of a single-chain variable fragment (scFv) against hepatocellular carcinoma (Hep27scFv) by coexpressing Dsb protein and enhancing with medium additives. The results revealed that overexpression of DsbABCD protein showed marked effect on the soluble production of Hep27scFv, presumably facilitating correct folding. The optimal condition for soluble scFv expression could be obtained by adding 0.5M sorbitol to the culture medium. The competitive enzyme-linked immunosorbent assay (ELISA) indicated that soluble scFv expressed by our method retains binding activity toward the same epitope on a hepatocellular carcinoma cell line (HCC-S102) recognized by intact antibody (Ab) (Hep27 Mab). Here, we report an effective method for soluble expression of scFv in E. coli by the Dsb coexpression system with the addition of sorbitol medium additive. This method might be applicable for high-yield soluble expression of proteins with multiple disulfide bonds.     

Construction of expression vectors and study on single-chain antibody and reshaping single-domain antibody against CD3

Two vectors, pWAI80 and pROH80, for expression of single-chain Fv fragments (ScFv) were constructed. The anti-CD3 VH and VL genes were amplified from UCHT1 cells by RT-PCR and sequenced. Both genes were cloned in pWAI80 to express native ScFv and pROH80 for GST-ScFv fusion protein expression. The expression products were analysed by ELISA and Western blot. The combining site of OKT3 was modeled. Human Ig LS1 and Nd were selected as acceptors of CDRs of OKT3 VL and VH to construct a reshaping antibody against CD3. By comparing OKT3, LS1 and Nd with their own family sequences, some residues were changed and the reshaping VL and VH genes were designed. The full VH gene was assembled in three steps with eight chemically synthesized oligonucleotide fragments using overlapping PCR and sequenced. The VH gene was expressed as active protein in pCOMB3 and as inclusion bodies in pGEX-4T-1 by ELISA and Western blot analysis. Project supported by the National Natural Science Foundation of China and “863” Plan.     

重组HIV表面抗原gp120的表达纯化及免疫学鉴定

为研制具有流行特点的HIV血清学诊断试剂,采用pET系统表达HIV-1表面糖蛋白gp120。研究发现,全长的gp120在E.coli中不能有效表达;N端半长的gp120可以表达,但表达量很低;仅保留N端1/3的gp120(包含gp120V1/V2抗原决定簇)有效表达,表达蛋白占菌体总蛋白的18%;Westernblot显示较好的反应原性;通过金属螯合层析,产物得到完全纯化。在这些结果的基础上,我们表达了流行株的gp120片段,为探索gp120在大肠杆菌的高效表达,建立针对中国人群的HIV血清学诊断系统奠定基础。     

Monoclonal antibody-based, selective isolation of DNA fragments containing an alkylated base to be quantified in defined gene sequences.

We have established a sensitive, monoclonal antibody (Mab)-based procedure permitting the selective enrichment of sequences containing the miscoding alkylation product O6-ethylguanine (O6-EtGua) from mammalian DNA. H5 rat hepatoma cells were reacted with the N-nitroso carcinogen N-ethyl-N-nitrosourea in vitro, to give overall levels of greater than or equal to 25 O6-EtGua residues per diploid genome (corresponding to O6-EtGua/guanine molar ratios of greater than or equal to 10(-8). For analysis, enzymatically restricted DNA from these cells is incubated with an antibody specific for O6-ethyl-2'-deoxyguanosine, the resulting Mab-DNA complexes are separated from (O6-EtGua)-free fragments by filtration through a nitrocellulose (NC) membrane, and the DNA is recovered from the filter-bound complexes quantitatively. The efficiency of Mab binding to DNA fragments containing O6-EtGua is constant over a range of O6-EtGua/guanine molar ratios between 10(-5) and 10(-8). (O6-EtGua)-containing restriction fragments encompassing known gene sequences (e.g., the immunoglobulin E heavy chain gene of H5 rat hepatoma cells used as a model in this study) are subsequently amplified by PCR and quantified by slot-blot hybridisation. The content and distribution of a specific carcinogen-DNA adduct in defined sequences of genomic DNA can thus be analyzed as well as the kinetics of intragenomic (toposelective) repair of any DNA lesion for which a suitable Mab is available.     

重组HIV表面抗原gp120的表达纯化及免疫学鉴定

为研制具有流行特点的HIV血清学诊断试剂,采用pET系统表达HIV－1表达糖蛋白gp120。研究发现,全长的gp120在E.coli中不能有效表达;N端半长的gp120可以表达,但表达量很低;仅保留N端1／3的gp120（包含gp120V1／V2抗决定簇）有效表达,表达蛋白占菌体总蛋白的18％;Western blot显示较好的反应原性;通过金属螯合层析,产物得到完全纯化。在这些结果的基础上,我们表达了流行株的gp120片段,为探索gp120在大肠杆菌的高效表达,建立针对中国人群的HIV血清学诊断系统奠定基础。     

神经纤毛蛋白-1的原核表达及兔抗小鼠神经纤毛蛋白-1抗体免疫学活性的研究

目的:在原核系统中分段表达神经纤毛蛋白-1(Nrp1);将纯化的蛋白免疫家兔后获得特异的抗体,并将其应用于检测组织和细胞中Nrp1分子的表达。方法:提取BALB/c胎鼠脑组织总RNA,通过RT-PCR分段扩增获得Nrp1基因片段,将PCR产物插入表达载体pET28a( ),获得含5个Nrp1基因片段的重组质粒,在大肠杆菌BL21(DE3)中诱导蛋白表达并纯化;将纯化的重组蛋白免疫新西兰大白兔获得针对目的蛋白的特异性多克隆抗体;利用Nrp1特异性多抗检测胎鼠脑组织和HeLa细胞中Nrp1的表达。结果:在原核系统中分段表达了Nrp1蛋白,通过Ni-NTA纯化了Nrp1蛋白片段;纯化的Nrp1蛋白免疫新西兰大白兔获得了具有免疫活性的多抗;兔抗小鼠Nrp1特异性多抗可用于检测组织、真核细胞中Nrp1的表达。结论:应用原核系统成功地表达了Nrp1蛋白,兔抗小鼠Nrp1特异性多抗可用于免疫学检测Nrp1分子的表达。