Twin-arginine signal peptide attributes effective display of CD147 to filamentous phage

A novel phagemid (pTat8) was constructed in this study to improve the quality of a molecule displayed on filamentous phage. The twin-arginine translocation (Tat) pathway was chosen for transporting and integrating a CD147 molecule into a phage particle via gpVIII. The parent vector pComb8-CD147Ex was modified by substituting a Sec signal sequence (PelB) with a twin-arginine signal sequence from trimethylamine N-oxide reductase (TorA). The characteristics of the CD147 displayed on the phage particle were evaluated by Sandwich ELISA and Western immunoblotting. A Tat-dependent leader was found to be superior to the Sec leader for the phage display of CD147. Our findings further support the involvement of an Escherichia coli Tat translocase in mediating the integration of a hydrophobic transmembrane protein into the inner membrane. This modified phagemid will be useful in phage display technique when the correctly folded structure is required (i.e., antibody libraries and ligand–receptor tracing). This work was supported by the Thailand Research Fund and the National Center for Genetic Engineering and Biotechnology. R.J.T. thanks the Canadian Institutes of Health Research for funding support.     

Construction of high-density display of CD147 ectodomain on VCSM13 phage via gpVIII: effects of temperature, IPTG, and helper phage infection-period

Production of VCSM13 phage displaying a high density of CD147 ectodomain (CD147Ex) was achieved when culturing conditions were modulated. A phagemid expressing CD147Ex was constructed and used to produce phage display CD147Ex gpVIII fusion protein in TG1 Escherichia coli. Displaying of CD147Ex via gpVIII was successfully increased when growing the transformed TG1 at 25 degrees C with IPTG-stimulation. In addition to temperature and IPTG-stimulation, the VCSM13 helper phage infection-period particularly affected the insertion of CD147Ex into phage progeny. By sandwich ELISA, incorporation of the CD147Ex into phage particle was confirmed. The correct size of the CD147Ex-gpVIII fusion protein at 28kDa was demonstrated by Western immunoblotting. Multivalent display of CD147Ex on phage particles will be valuable in discovering its ligand partner.     

Phage Displayed Bacillus thuringiensis Cry1Ba4 Toxin Is Toxic to Plutella xylostella

We constructed recombinant phage particles displaying the Bacillus thuringiensis Cry1Ba4 active toxin using the pfUSE5 and pComb3X phagemid vectors. The recombinant phage particles were screened and evaluated for displayed biologically active Cry1Ba4 toxin against the target insect larvae. Concurrent expression of Cry1Ba4 protoxin was carried out using the pETBlue^TM-2 plasmid expression vector in Escherichia coli Tuner^TM(DE3)pLacI and the protoxin was successfully expressed at a size of 129 kDa. In the bioassay, 3.30 mg crude extract of Cry1Ba4 protoxin, 9.35 × 10⁹ TU and 7.70 × 10⁹ TU of induced recombinant phage particles carrying Cry1Ba4 active toxin displayed on pComb3X and pFUSE5, respectively, demonstrated mortality of greater than 85% against Plutella xylostella (third-instar) within 48 hours. Thus, we have successfully displayed the Cry1Ba4 activated toxin on the surface of a phage and demonstrated toxicity towards larvae.     

大分子量重组蛋白在丝状噬菌体表面的展示表达及其与小分子相互作用的初步研究

利用pHEN1KM13噬菌粒系统表达融合蛋白,进而确定大分子量重组蛋白在丝状噬菌体表达的部位及其表达后的生物活性。通过蛋白酶切处理前后噬菌体侵染细菌能力的变化快速地检测大分子蛋白质能否在噬菌体表面展示表达;比较了谷胱甘肽S转移酶及其与三个不同长度连接臂融合的外源蛋白在噬菌体表面的表达和组装,确定了不大于40kD的重组蛋白分子能展示表达在丝状噬菌体表面;并利用已知的小分子化合物与蛋白质的相互作用证明了组装在噬菌体表面的谷胱甘肽S转移酶重组蛋白仍保持其天然的结合活性,为利用噬菌体展示系统研究蛋白质与小分子化合物的相互作用建立了基础。     

Adapter-Directed Display: A Modular Design for Shuttling Display on Phage Surfaces

A novel adapter-directed phage display system was developed with modular features. In this system, the target protein is expressed as a fusion protein consisting of adapter GR1 from the phagemid vector, while the recombinant phage coat protein is expressed as a fusion protein consisting of adapter GR2 in the helper phage vector. Surface display of the target protein is accomplished through specific heterodimerization of GR1 and GR2 adapters, followed by incorporation of the heterodimers into phage particles. A series of engineered helper phages were constructed to facilitate both display valency and formats, based on various phage coat proteins. As the target protein is independent of a specific phage coat protein, this modular system allows the target protein to be displayed on any given phage coat protein and allows various display formats from the same vector without the need for reengineering. Here, we demonstrate the shuttling display of a single-chain Fv antibody on phage surfaces between multivalent and monovalent formats, as well as the shuttling display of an antigen-binding fragment molecule on phage coat proteins pIII, pVII, and pVIII using the same phagemid vectors combined with different helper phage vectors. This adapter-directed display concept has been applied to eukaryotic yeast surface display and to a novel cross-species display that can shuttle between prokaryotic phage and eukaryotic yeast systems.     

A phagemid vector using the E. coli phage shock promoter facilitates phage display of toxic proteins

Phage display is a powerful tool with which to adapt the specificity of protease inhibitors. To this end, a library of variants of the potato protease inhibitor PI2 was introduced in a canonical phagemid vector. Although PI2 is a natural trypsin inhibitor, we were unable to select trypsin-binding variants from the library. Instead, only mutants carrying deletions or amber stop codons were found. Bacteria carrying these mutations had a much faster growth rate than those carrying the wt PI2-encoding gene, even when the promoter was repressed. To overcome these problems, two new phagemid vectors for g3-mediated phage display were constructed. The first vector has a lower plasmid copy number, as compared to the canonical vector. Bacteria harboring this new vector are much less affected by the presence of the PI2-g3 fusion gene, which appears from a markedly reduced growth retardation. A second vector was equipped with the promoter of the Escherichia coli psp operon, instead of the lac promoter, to control the PI2-g3 gene fusion expression. The psp promoter is induced upon helper phage infection. A phagemid vector with this promoter controlling a PI2-g3 gene fusion did not affect the viability of the host. Furthermore, both new vectors were shown to produce phage particles that display the inhibitor protein and were therefore considered suitable for phage display. The inhibitor library was introduced in both new vectors. Trypsin-binding phages with inhibitory sequences were selected, instead of sequences with stop codons or deletions. This demonstrates the usefulness of these new vectors for phage display of proteins that affect the viability of E. coli.     

天然兔源噬菌体单链抗体库的构建与鉴定

目的:构建天然兔源噬菌体单链抗体库。方法:采用RT-PCR法从未免疫的兔子脾脏中克隆得到抗体重链可变区(VH)与轻链可变区(VL)基因,重叠PCR将VH和VL拼接成scFv片段,将scFv连接到噬菌粒pComb3XSS上,电转入XL1-Blue菌中,得到单链抗体库,并用此抗体库筛选抗肌酸激酶抗体。结果:构建了容量为4×108,基因重组率95%的单链抗体库,DNA指纹图谱显示抗体库多样性良好。以肌酸激酶为抗原,从该库中筛到3株抗肌酸激酶的抗体。结论:分析表明构建的天然兔源单链抗体库质量良好,可用于快速筛选、制备多种单链抗体。     

人源噬菌体抗体库的构建及抗VEGF抗体的初步筛选分析

应用噬菌体表面呈递技术构建人抗体组合文库 .筛选获得了结合血管内皮细胞生长因子( VEGF)的人噬菌体 Fab抗体 ,并对所获抗体的多样性进行了进一步分析 .从不同人群外周血淋巴细胞提取总 RNA,经反转录后采用家族特异性免疫球蛋白可变区基因引物与免疫球蛋白信肽序列引物 ,通过改变 PCR条件或半套式扩增分别获得全部亚型的轻、重链抗体 Fab段 ,并重组到噬粒载体 p Comb3H中 ,经电转化大肠杆菌 XL- 1 Blue,构建了 1 .5× 1 0 8完整组合抗体库 .利用 VEGF12 1对该库经过 4轮固相筛选后 ,获得 1 2个可与 VEGF特异结合的阳性克隆 .酶谱分析表明了所获抗体克隆的多样性 .为通过基因工程改造 ,进一步获得可用于临床的人源 VEGF抗体奠定了基础 .     

Bacterial expression and purification of recombinant bovine Fab fragments.

We have previously described a recombinant phagemid expression vector, pComBov, designed for the production of native sequence bovine monoclonal antibodies (mAb) generated by antibody phage display. Bovine mAb Fab fragments isolated from libraries constructed using pComBov in Escherichia coli strain XL1-Blue, which is routinely used for antibodies expressed on the surface of phage, were expressed at very low yields. Therefore, a study was undertaken to determine optimal growth conditions for maximal expression of bovine Fab fragments in E. coli. By varying the E. coli strain, and the temperature and length of the culture growth, we were able to substantially increase the yield of soluble Fab fragments. A high yield of Fab fragments was found in the culture growth medium, which enabled us to devise a rapid and simple single-step method for the purification of native (nondenatured) Fabs based on immobilized metal affinity chromatography against a six-histidine amino acid carboxyl-terminal extension of the heavy-chain constant region. Using these methods we were able to express and purify antigen-specific bovine Fab fragments from E. coli.     

噬菌体呈现技术制备结肠癌抗独特型抗体

 以纯化的鼠抗人结肠癌细胞单克隆抗体 (简称单抗 )MC5与钥孔血蓝素 (KLH)的交联物经腹腔免疫Balb c小鼠 ,取脾分离mRNA .RT PCR分别扩增抗体重、轻链可变区基因片段 (VH 和VLcD NA ,大小分别约为 340bp和 32 0bp) ,二者经linkerDNA连接形成ScFv(singlechainvariablefragment)DNA(约 75 0bp) .将ScFvDNA与噬菌粒载体pCANTAB5E的连接产物转化于大肠杆菌TG1,经辅助噬菌体M13KO7感染后 ,获得重组噬菌体抗体ScFv文库 .以单抗MC5对ScFv文库进行 4轮亲和筛选后 ,随机挑取 80个克隆经酶联免疫吸附实验 (ELISA)筛选出 2 2个呈现ScFv形式抗独特型抗体(抗 IdScFv)的噬菌体单克隆 .竞争抑制实验表明 ,在 2 2个阳性克隆中有 4个克隆所呈现的抗 IdScFv属β或γ型 .针对单抗MC5的噬菌体呈现型抗 IdScFv的制备 ,为筛选新的结肠癌重组抗 Id瘤苗候选分子奠定了基础     

Phage display of an intracellular carboxylesterase of Bacillus subtilis: comparison of Sec and Tat pathway export capabilities

Using the phage display technology, a protein can be displayed at the surface of bacteriophages as a fusion to one of the phage coat proteins. Here we describe development of this method for fusion of an intracellular carboxylesterase of Bacillus subtilis to the phage minor coat protein g3p. The carboxylesterase gene was cloned in the g3p-based phagemid pCANTAB 5E upstream of the sequence encoding phage g3p and downstream of a signal peptide-encoding sequence. The phage-bound carboxylesterase was correctly folded and fully enzymatically active, as determined from hydrolysis of the naproxen methyl ester with Km values of 0.15 mM and 0.22 mM for the soluble and phage-displayed carboxylesterases, respectively. The signal peptide directs the encoded fusion protein to the cell membrane of Escherichia coli, where phage particles are assembled. In this study, we assessed the effects of several signal peptides, both Sec dependent and Tat dependent, on the translocation of the carboxylesterase in order to optimize the phage display of this enzyme normally restricted to the cytoplasm. Functional display of Bacillus carboxylesterase NA could be achieved when Sec-dependent signal peptides were used. Although a Tat-dependent signal peptide could direct carboxylesterase translocation across the inner membrane of E. coli, proper assembly into phage particles did not seem to occur.     

External surface display of proteins linked to DNA-binding domains.

A novel system (DBDX) was developed which allows the external surface display on filamentous bacteriophage of proteins fused to either the N- or the C-terminus of a DNA-binding protein. In conjunction with helper phage infection, expression of proteins fused to the estrogen receptor DNA-binding domain (DBD) in a phagemid vector containing the DNA sequence recognized by the DBD resulted in the production of phage particles which display the fusion protein through the phage pVIII coat on the external surface of the particle. The viability of the technique was established with several model systems: particles displaying the C-terminal domain of N-cadherin or the biotinylation domain of propionyl coenzyme A carboxylase fused to the C-terminus of the DBD were found to be bound specifically by antibody or streptavidin, respectively. Human kappa constant region cDNA was selected from a N-terminal DBD fusion lymphocyte cDNA library after two rounds of selection with anti-kappa antibody. This display system may complement currently available bacterial selection techniques.     

Eliminating helper phage from phage display

Phage display technology involves the display of proteins or peptides, as coat protein fusions, on the surface of a phage or phagemid particles. Using standard technology, helper phage are essential for the replication and assembly of phagemid particles, during library production and biopanning. We have eliminated the need to add helper phage by using 'bacterial packaging cell lines' that provide the same functions. These cell lines contain M13-based helper plasmids that express phage packaging proteins which assemble phagemid particles as efficiently as helper phage, but without helper phage contamination. This results in genetically pure phagemid particle preparations. Furthermore, by using constructs differing in the form of gene 3 that they contain, we have shown that the display, from a single library, can be modulated between monovalent (phagemid-like) and multivalent display (phage-like) without any further engineering. These packaging cells eliminate the use of helper phage from phagemid-based selection protocols; reducing the amount of technical preparation, facilitating automation, optimizing selections by matching display levels to diversity, and effectively using the packaged phagemid particles as means to transfer genetic information at an efficiency approaching 100%.     

Functional display of proteins, mutant proteins, fragments of proteins and peptides on the surface of filamentous (bacterio) phages: A review

Cytoplasmic expression of complex eukaryotic proteins inEscherichia coli usually yields inactive protein preparations. In some cases, (part) of the biological activity can be recovered by rather inefficient denaturation-renaturation procedures. Recently, novel concepts have been developed for the expression of fully functional eukaryotic proteins inE. coli. Essential to the success of these procedures is the transport of such proteins across the inner membrane to the periplasmic space, allowing proper folding and the establishment of disulfide bonding. Subsequently, fully functional proteins can be exposed on the surface of filamentous (bacterio)phages, provided a system is employed that consists of a cloning vector (e.g. the phagemid pComb3, Barbas et al., 1991) that generates phage particles in the presence of a helper phage. The main advantage of surface display of recombinant proteins is to facilitate the screening of very large numbers of different molecules by simple selection methods (panning). In addition, periplasmic expression yields relatively large quantities (e.g. 1 mg l^–1 of culture) soluble protein. In this review, the principle aspects of this novel expression system based on the phagemid pComb3 will be discussed. Two examples for functional periplasmic expression of human proteins inE. coli will be presented, namely i) the antigen-binding moiety (Fab fragment) of human immunoglobulins (IgGs) and ii) the human plasminogen activator inhibitor 1, an essential regulator of the plasminogen activation system. Finally, perspectives for the application of this system to express mutant proteins, fragments of proteins and peptides are indicated.Abbreviations Ap^R ampicillin resistance - cfu colony forming unit(s) - cpIII gene III-encoded coat protein of M13 - cpVIII gene VIII-encoded coat protein of M13 - ER endoplasmic reticulum - Fab fragment of Ig containing light chain, variable region and first constant region of heavy chain - Fd variable region and first constant region of the heavy chain - Fv fragment containing variable regions of heavy and light chain - Ig immunoglobulin - Km^R kanamycin resistance - kb kilobase or 1000 basepairs - PAI-1 plasminogen activator inhibitor 1 - t-PA tissue-type plasminogen activator - u-PA urokinase-type plasminogen activator     

An improved helper phage system for efficient isolation of specific antibody molecules in phage display

Phage display technology has been applied in many fields of biological and medical sciences to study molecular interactions and especially in the generation of monoclonal antibodies of human origin. However, extremely low display level of antibody molecules on the surface of phage is an intrinsic problem of a phagemid-based display system resulting in low success rate of isolating specific binding molecules. We show here that display of single-chain antibody fragment (scFv) generated with pIGT3 phagemid can be increased dramatically by using a genetically modified Ex-phage. Ex-phage has a mutant pIII gene that produces a functional wild-type pIII in suppressing Escherichia coli strains but does not make any pIII in non-suppressing E.coli strains. Packaging phagemids encoding antibody-pIII fusion in F⁺ non-suppressing E.coli strains with Ex-phage enhanced the display level of antibody fragments on the surfaces of recombinant phage particles resulting in an increase of antigen-binding reactivity >100-fold compared to packaging with M13KO7 helper phage. Thus, the Ex-phage and pIGT3 phagemid vector provides a system for the efficient enrichment of specific binding antibodies from a phage display library and, thereby, increases the chance of obtaining more diverse antibodies specific for target antigens.     

Protein III-based single-chain antibody phage display using bacterial cells bearing an additional genome of a gene-III-lacking helper phage

We present herein a novel method of pIII-based antibody phage display using Hpd3cells--bacterial cells bearing the genome of a gene-III-lacking helper phage (VCSM13d3). A high level of single-chain variable fragments (scFvs) was displayed in the consequent phagemid particles using Hpd3cells to rescue the phagemid encoding scFv-pIII. Hpd3cells considerably improved the specific enrichment factor when used for constructing an immunized antibody library. In addition, using Hpd3cells could overcome pill resistance and can contribute to the efficient enrichment of specific binding antibodies from a phage display library, thereby increasing the chance of obtaining more diverse antibodies specific for target antigens.     

Construction of human Fab (gamma1/kappa) library and identification of human monoclonal Fab possessing neutralizing potency against Japanese encephalitis virus

A combinatorial human Fab library was constructed using RNAs from peripheral blood lymphocytes obtained from Japanese encephalitis virus hyper-immune volunteers on pComb3H phagemid vector. The size of the constructed Fab library was 3.3x10(8) Escherichia coli transformants. The library was panned 3 times on the purified Japanese encephalitis virus (JEV) virion, and phage clones displaying JEV antigen-specific Fab were enriched. The enriched phage pool was then screened for clones producing Fab molecule with JEV neutralizing activity by the focus reduction-neutralizing test. Among 188 randomly selected clones, 9 Fab preparations revealed neutralizing activities against JEV strain Nakayama. An E. coli transformed with TJE12B02 clone, which produced human monoclonal Fab with the highest neutralizing activity was cultured in a large scale, and the Fab molecule was purified using affinity chromatography. The purified FabTJE12B02 showed the 50% focus reduction endpoint at the concentration of 50.2 microg/ml (ca. 1,000 nM) when JEV strain Nakayama was used. The FabTJE12B02 recognized E protein of JEV strain Nakayama, and the dissociation equilibrium constant (Kd) of the FabTJE12B02 against purified JEV antigen was calculated as 1.21x10(-8) M. Sequence analysis demonstrated that TJE12B02 used a VH sequence homologous to the VH3 family showing 88.8% homology to germline VH3-23, and used a Vkappa sequence homologous to the VkappaII subgroup showing 92.8% homology to germline A17.